The invention relates to a method for inductive energy transmission from a transmitting coil to a receiving coil spaced apart from the transmitting coil. The receiving coil is arranged in a vehicle which is arranged stationary or is travelling on a supporting surface, wherein the vehicle has at least one sensor. In a first method step (A) a distance between the transmitting coil and/or the supporting surface and the receiving coil is determined, in a second method step (B) a minimum possible air gap between the transmitting coil and/or the supporting surface and the receiving coil is calculated from the distance, and in a third method step (C) the receiving coil is positioned such that the distance corresponds to the minimum possible air gap.

The invention relates to a method for inductive energy transmission from a transmitting coil to a receiving coil spaced apart from the transmitting coil. The receiving coil is arranged in a vehicle which is arranged stationary or is travelling on a supporting surface, wherein the vehicle has at least one sensor. In a first method step (A) a distance between the transmitting coil and/or the supporting surface and the receiving coil is determined, in a second method step (B) a minimum possible air gap between the transmitting coil and/or the supporting surface and the receiving coil is calculated from the distance, and in a third method step (C) the receiving coil is positioned such that the distance corresponds to the minimum possible air gap.

A robot system includes a track that extends along an axis between a first location and a second location. The track includes a pair of rails and a power transmitter and a radiating cable each extending along the track. A carriage is configured to convey a robot arm along the track. The carriage includes a plurality of wheels configured to roll along the pair of rails, a motor configured to drive at least one of the wheels along one of the rails, a power collector configured to translate along the power transmitter while maintaining contact with the power transmitter so as to conduct electrical power from the power transmitter to the motor, and a transceiver configured to receive and send electronic information from and to the radiating cable.

A logistics vehicle and a logistics system. The logistics vehicle includes: a frame; a climbing assembly including a climbing wheel movably provided on the frame, the climbing wheel being configured to be extendable with respect to the frame, to cooperate with a first rail assembly arranged vertically, so that the logistics vehicle moves along the first rail assembly, and the climbing wheel being configured to be retractable with respect to the frame; and a power take-up assembly movably provided on the frame and configured to be extendable with respect to the frame to take up power when the climbing wheel extends with respect to the frame and cooperates with the first rail assembly; and the power take-up assembly being further configured to retract when the climbing wheel retracts with respect to the frame. The logistics vehicle draws power during climbing, which is conducive to achieving climbing operation.

A logistics vehicle and a logistics system. The logistics vehicle includes: a frame; a climbing assembly including a climbing wheel movably provided on the frame, the climbing wheel being configured to be extendable with respect to the frame, to cooperate with a first rail assembly arranged vertically, so that the logistics vehicle moves along the first rail assembly, and the climbing wheel being configured to be retractable with respect to the frame; and a power take-up assembly movably provided on the frame and configured to be extendable with respect to the frame to take up power when the climbing wheel extends with respect to the frame and cooperates with the first rail assembly; and the power take-up assembly being further configured to retract when the climbing wheel retracts with respect to the frame. The logistics vehicle draws power during climbing, which is conducive to achieving climbing operation.

The present invention relates to a current collector device (420) arranged mounting on a vehicle (100) to transmit electric power between current conductors (140) located in the surface of a road (110) and the vehicle (100). The current collector device (420) comprises, a first and second elongated current collector arm (150a, 150b) that are in operable connection with a base (170), the first and second elongated current collector arms (150a, 150b) are spaced apart from each other, and a first and second current collector pick-up heads (161, 162) are attached to the first and second elongated current collector arms (150a, 150b), respectively, and the elongated current collector arms (150a, 150b) are made of conducting material and arranged to conduct electrical current from conductors (140) located in the 10 surface of a road (110) and the vehicle (100).

The present invention relates to a current collector device (420) arranged mounting on a vehicle (100) to transmit electric power between current conductors (140) located in the surface of a road (110) and the vehicle (100). The current collector device (420) comprises, a first and second elongated current collector arm (150a, 150b) that are in operable connection with a base (170), the first and second elongated current collector arms (150a, 150b) are spaced apart from each other, and a first and second current collector pick-up heads (161, 162) are attached to the first and second elongated current collector arms (150a, 150b), respectively, and the elongated current collector arms (150a, 150b) are made of conducting material and arranged to conduct electrical current from conductors (140) located in the 10 surface of a road (110) and the vehicle (100).

A method and a device test whether there is contact between a current collector and a contact wire of an overhead line. The current collector is located on a motor vehicle driven by an electric motor, and the contact wire extends in a direction of travel. The current collector has two contact regions oriented transversely to the direction of travel which are arranged one behind the other in the direction of travel and on each of which an end contact element is located. A pair of end contact elements located on the same side is connected to a measuring device and an electrical state variable is detected by the measuring device. Subsequently, it is determined in accordance with the detected state variable whether the pair of end contact elements is in contact with the overhead line.

A method and a device test whether there is contact between a current collector and a contact wire of an overhead line. The current collector is located on a motor vehicle driven by an electric motor, and the contact wire extends in a direction of travel. The current collector has two contact regions oriented transversely to the direction of travel which are arranged one behind the other in the direction of travel and on each of which an end contact element is located. A pair of end contact elements located on the same side is connected to a measuring device and an electrical state variable is detected by the measuring device. Subsequently, it is determined in accordance with the detected state variable whether the pair of end contact elements is in contact with the overhead line.

A system includes a phase break input unit, one or more vehicle location detectors, and one or more processors. The phase break input unit is configured to obtain phase break location information indicating a location of a phase break along a route to be traversed by a vehicle. The one or more vehicle location detectors are configured to obtain vehicle location information indicating at least one of location of the vehicle or movement of the vehicle. The one or more processors are configured to determine an estimated arrival time of the vehicle at the phase break using the phase brake location information and the vehicle location information, and send a phase break control signal to a control system of the vehicle responsive to the estimated arrival time satisfying a threshold.