A motor vehicle has a control device, a first sensor and a global positioning device. The control device has a control unit and a data memory. At least one item of information about an arrangement of an overhead line is stored on the data memory. The control unit is connected to the first sensor and to the global positioning device. The first sensor determines a position of the overhead line relative to the motor vehicle and provides the control unit with the relative position. The global positioning device determines a global position of the motor vehicle and provides the control unit with it. The control unit, on the basis of the established relative position, the established global position and the information about the arrangement of the overhead line, calculates a position of the motor vehicle.

The subject of the invention is a pantograph carriage for collection of electricity from a flexible cable (2), containing at least two conductor wires (3), partially moulded into a flexible screen, which forms flexible lips (2a) in the uncovered part of conductor wires, wherein the carriage is provided with a load bearing element (11) equipped with at least two load bearing rollers (7, 14, 16), with at least one roller rolling across the top surface of the flexible cable (2), characterised in that it contains at least two sliding drivers (6) attached to the load bearing element (8, 11), which in their working position enter spaces between the flexible lips (2a) of the cable (2) and touch the conductor wires (3) with their sliding surfaces, wherein at least one opening element (1, 4, 5) is provided in order to open the flexible lips (2a) of the cable (2) in order to form a space, where the sliding drivers (6) enter.

The subject of the invention is a pantograph carriage for collection of electricity from a flexible cable (2), containing at least two conductor wires (3), partially moulded into a flexible screen, which forms flexible lips (2a) in the uncovered part of conductor wires, wherein the carriage is provided with a load bearing element (11) equipped with at least two load bearing rollers (7, 14, 16), with at least one roller rolling across the top surface of the flexible cable (2), characterised in that it contains at least two sliding drivers (6) attached to the load bearing element (8, 11), which in their working position enter spaces between the flexible lips (2a) of the cable (2) and touch the conductor wires (3) with their sliding surfaces, wherein at least one opening element (1, 4, 5) is provided in order to open the flexible lips (2a) of the cable (2) in order to form a space, where the sliding drivers (6) enter.

The present application shows a trolley system for providing electrical power to a vehicle, the trolley system comprising: a trolley line that is at least one out of: a flexible structure to be loosely positioned on a ground surface; and a sealed structure with an insulating housing comprising a sealing arrangement for sealing an opening extending along the trolley line, and a current collector assembly mounted on the vehicle for establishing a sliding electrical contact with a conductor of the trolley line.

The present application shows a trolley system for providing electrical power to a vehicle, the trolley system comprising: a trolley line that is at least one out of: a flexible structure to be loosely positioned on a ground surface; and a sealed structure with an insulating housing comprising a sealing arrangement for sealing an opening extending along the trolley line, and a current collector assembly mounted on the vehicle for establishing a sliding electrical contact with a conductor of the trolley line.

The invention relates to a current collector arrangement arranged to be mounted on a vehicle and to transmit electric power between a current conductor (130; 230; 330; 430; 530) located in the surface of a road and the vehicle, wherein the current collector arrangement comprises a current collector arm (150; 250; 350; 450; 550; 650; 750; 850; 950; 1050) that is arranged to be controllable for at least vertical displacement relative to a longitudinal axis of the vehicle, in order to position the current collector arm relative to the current conductor (130; 230; 330; 430; 530). The current collector arrangement comprises controllable actuators arranged to effect at least the vertical displacement the current collector arm (150; 250; 350; 450; 550; 650; 750; 850; 950; 1050). A first actuator (481; 581; 681; 781; 881; 981; 1081) is arranged to lower the current collector arm from a retracted position into a deployed position, and a second actuator (482; 582; 682; 782; 882; 982; 1082) is arranged to lift the current collector arm from the deployed position into the retracted position. During a vertical displacement effected by one of the first or second actuators, the other actuator is arranged to act as a damper.

The invention relates to a current collector arrangement arranged to be mounted on a vehicle and to transmit electric power between a current conductor (130; 230; 330; 430; 530) located in the surface of a road and the vehicle, wherein the current collector arrangement comprises a current collector arm (150; 250; 350; 450; 550; 650; 750; 850; 950; 1050) that is arranged to be controllable for at least vertical displacement relative to a longitudinal axis of the vehicle, in order to position the current collector arm relative to the current conductor (130; 230; 330; 430; 530). The current collector arrangement comprises controllable actuators arranged to effect at least the vertical displacement the current collector arm (150; 250; 350; 450; 550; 650; 750; 850; 950; 1050). A first actuator (481; 581; 681; 781; 881; 981; 1081) is arranged to lower the current collector arm from a retracted position into a deployed position, and a second actuator (482; 582; 682; 782; 882; 982; 1082) is arranged to lift the current collector arm from the deployed position into the retracted position. During a vertical displacement effected by one of the first or second actuators, the other actuator is arranged to act as a damper.

An unmanned aerial vehicle according to certain embodiments generally includes a chassis, a power supply mounted to the chassis, a control system operable to receive power from the power supply, at least one rotor operable to generate lift under control of the control system, and a winch mounted to the chassis. The winch includes a reel and a motor. The reel has a line wound thereon, the line having a free end. The reel includes a circumferential channel in which a wound portion of the line is wound onto the reel. The circumferential channel includes an inner portion, an outer portion, and a passage connecting the inner portion and the outer portion. The motor is operable to rotate the reel under control of the control system to thereby cause the line to wind onto and off of the reel, thereby causing the free end of the line to raise and lower.

An unmanned aerial vehicle according to certain embodiments generally includes a chassis, a power supply mounted to the chassis, a control system operable to receive power from the power supply, at least one rotor operable to generate lift under control of the control system, and a winch mounted to the chassis. The winch includes a reel and a motor. The reel has a line wound thereon, the line having a free end. The reel includes a circumferential channel in which a wound portion of the line is wound onto the reel. The circumferential channel includes an inner portion, an outer portion, and a passage connecting the inner portion and the outer portion. The motor is operable to rotate the reel under control of the control system to thereby cause the line to wind onto and off of the reel, thereby causing the free end of the line to raise and lower.

A fast charging system for electrically driven vehicles and a method for forming an electrically conductive connection between a vehicle and a stationary charging station, the fast charging system having a contact device, a charging contact device and a positioning device, said contact device or said charging contact device being disposeable on a vehicle, said charging contact device being electrically contacted using the contact device when in a contact position, said contact device being positioned in a longitudinal and/or transverse direction with respect to the charging contact device as well as being moved to the contact position by means of the positioning device, said charging contact device comprising a charging-contact-element carrier having charging contact elements, said charging contact elements each forming a strip-shaped charging contact surface, said contact device comprising a contact element carrier having contact elements, said contact elements each forming a contact surface which is smaller than the charging contact surfaces, said contact elements being electrically contacted with the charging contact elements for forming contact pairs in each instance when in the contact position, the charging contact surfaces and the contact surfaces being disposed such in the longitudinal direction with respect to each other that a respective physical contact between the charging contact surfaces and the contact surfaces is formed in a defined order at respective longitudinal ends of the charging contact surfaces.