The invention relates to a positioning zone (EB) for a travel path (1), wherein the travel path (1) has at least one guide rail (2, 3) and the guide rail (2, 3) is used to guide a current collector trolley (11), provided with current collector contacts (12), of a current collector system (10) arranged on a vehicle which can move along the travel path (1), and the travel path (1) has at least one travel path conductor bar (5), wherein the current collector trolley (11) can be moved horizontally and vertically to the travel path (1) in the positioning zone (EB) by a positioning device of the current collector system (10), characterized in that at least one further conductor bar (5) is arranged in the region of the positioning zone (EB) or at least one travel path conductor bar (5) extends and/or is extended into the positioning zone (EB) beyond at least one guide rail (2, 3) of the travel path (1).

The invention relates to a positioning zone (EB) for a travel path (1), wherein the travel path (1) has at least one guide rail (2, 3) and the guide rail (2, 3) is used to guide a current collector trolley (11), provided with current collector contacts (12), of a current collector system (10) arranged on a vehicle which can move along the travel path (1), and the travel path (1) has at least one travel path conductor bar (5), wherein the current collector trolley (11) can be moved horizontally and vertically to the travel path (1) in the positioning zone (EB) by a positioning device of the current collector system (10), characterized in that at least one further conductor bar (5) is arranged in the region of the positioning zone (EB) or at least one travel path conductor bar (5) extends and/or is extended into the positioning zone (EB) beyond at least one guide rail (2, 3) of the travel path (1).

A tracked vehicle comprising an electric machine assembly, a first and a second track coupled to the electric machine assembly, and an electric connection device, connectable to a power supply apparatus outside the tracked vehicle and connected to the electric machine assembly to exchange electrical energy with the power supply apparatus during the operation of the tracked vehicle.

A tracked vehicle comprising an electric machine assembly, a first and a second track coupled to the electric machine assembly, and an electric connection device, connectable to a power supply apparatus outside the tracked vehicle and connected to the electric machine assembly to exchange electrical energy with the power supply apparatus during the operation of the tracked vehicle.

A charging station for charging an electric bus is provided which includes a power rail extending along an axial direction above a plurality of electric buses parked in a parking space, a pantograph disposed in a lower portion of the power rail to be movable horizontally along the axial direction and expandable in a gravitational direction from above the electric bus to electrically contact the electric bus, and a controller configured to calculate a charging sequence of the plurality of electric buses based on position information of the plurality of electric buses, wherein the controller is configured to control horizontal movement of the pantograph and electrical contact with the electric bus according to the charging sequence so as to supply the power applied from an external power network through the power rail to the electric bus through the pantograph.

A method for automatically transferring at least one pivotable trolley pole, in particular of a trolleybus, from a start position into an end position which corresponds, in particular, to a contact position on an overhead line. The end position is assigned at least one setpoint position value, at least one actual position value of a current position of the trolley pole is detected, and the trolley pole is pivoted automatically about at least one axis. A setpoint speed is determined from a positional deviation of the detected actual position value from the setpoint position value, and a dynamic limitation to a dynamically limited setpoint speed is carried out in order to avoid overshooting when the end position is reached.

A separate sheet setting forth the replacement Abstract is provided herewith.

A current collector has a sliding contact for making electrical contact with a conductor profile of a conductor line, and an antenna for insertion into a longitudinal slot, which runs in a longitudinal direction of the conductor line. The sliding contact and the antenna can be moved jointly towards the conductor profile in a feed direction by a feed device of the current collector. The antenna is movably mounted on the current collector. Also provided are a conductor line and a conductor line system.

A vehicle is provided that connects to an power structure for powering and guiding the vehicle. The power structure includes a trolley, a track along which the trolley runs, a power source connected to the track, and a cable connected to the trolley and configured to attach to the vehicle moving on a surface. The vehicle includes a chassis and a cable connected to the chassis and configured to mechanically and electrically connect the vehicle to the power structure. The chassis includes a connector rotatable 360 degrees, and the cable connects to the chassis through the connector.

A vehicle is provided that connects to an power structure for powering and guiding the vehicle. The power structure includes a trolley, a track along which the trolley runs, a power source connected to the track, and a cable connected to the trolley and configured to attach to the vehicle moving on a surface. The vehicle includes a chassis and a cable connected to the chassis and configured to mechanically and electrically connect the vehicle to the power structure. The chassis includes a connector rotatable 360 degrees, and the cable connects to the chassis through the connector.

A system for monitoring a pantograph of a railway vehicle, the pantograph being adapted to be connected to a catenary and electrically connected to a traction unit, the catenary being adapted to provide an alternating current to the railway vehicle, the system further including: a voltage step detection device for detecting a voltage step of a pantograph voltage at the pantograph, a zero crossing detection device for detecting a zero crossing of a line current, the line current being a portion of a pantograph current provided to the traction unit, the pantograph current being the current flowing through the pantograph; and a bouncing detection portion adapted to determine at least one bouncing time of the pantograph based on one or more detected voltage steps of the voltage step detection device and/or one or more detected zero crossings of the zero crossing detection device.