Techniques for electric vehicle systems, and in particular to a vehicle optical charging system and method of use. In one embodiment, a system for vehicle optical charging comprises: an optical charging station configured to transmit an optical signal, the optical charging station comprising a directive element configured to direct the transmitted optical signal; a receiving vehicle comprising an electrical storage unit and a receiver configured to receive the transmitted optical signal, the receiver in electrical communication with the electrical storage unit; wherein the received optical signal enables charging of the electrical storage unit.

A current collecting device for an electrical load that can travel in a direction of travel along a conductor line, with at least two sliding contact pieces arranged on a rocker one after another in the direction of travel. The rocker is mounted on a rocker arm about a rotation axis extending perpendicularly to the travel direction, through which rocker arm the rocker can be moved towards a conductor for contact of the sliding contact pieces with an electrically conductive conductor strand of the conductor line. A conductor line system includes such a conductor line and at least one such electrical load. The current collecting device and conductor line system provide a reliable guiding of the current collecting device contact in the conductor strand of the conductor line, as well as reliable energy transmission.

A current collecting device for an electrical load that can travel in a direction of travel along a conductor line, with at least two sliding contact pieces arranged on a rocker one after another in the direction of travel. The rocker is mounted on a rocker arm about a rotation axis extending perpendicularly to the travel direction, through which rocker arm the rocker can be moved towards a conductor for contact of the sliding contact pieces with an electrically conductive conductor strand of the conductor line. A conductor line system includes such a conductor line and at least one such electrical load. The current collecting device and conductor line system provide a reliable guiding of the current collecting device contact in the conductor strand of the conductor line, as well as reliable energy transmission.

The invention relates to a current collector system (1) for a vehicle (F) which can be moved in a longitudinal direction along a power rail arrangement (S) having at least one current collector trolley (3) and current collector contacts (5) arranged on this, which current collector contacts can be connected to the power rails (ST) of the power rail arrangement (S) and a telescopic arm (2) which can be fixed or is fixed to a vehicle (F), which telescopic arm can be extended and/or retracted by means of an adjustment drive, characterised in that the adjustment drive has at least one rigid chain arrangement (9) which is driven by at least a first rigid chain drive (8).

The invention relates to a current collector system (1) for a vehicle (F) which can be moved in a longitudinal direction along a power rail arrangement (S) having at least one current collector trolley (3) and current collector contacts (5) arranged on this, which current collector contacts can be connected to the power rails (ST) of the power rail arrangement (S) and a telescopic arm (2) which can be fixed or is fixed to a vehicle (F), which telescopic arm can be extended and/or retracted by means of an adjustment drive, characterised in that the adjustment drive has at least one rigid chain arrangement (9) which is driven by at least a first rigid chain drive (8).

A charging arrangement includes an electrical vehicle and a charging device configured for charging the electrical vehicle with electrical energy, where the electrical vehicle includes a first charging connector, and the charging device includes a second charging connector configured for connecting with the first charging connector, a bi-stable mechanics to which the second charging connector is attached and which is configured for holding the second charging connector in two stable equilibrium positions, whereby in one stable equilibrium position the second charging connector is connected to the first charging connector and the other stable equilibrium position the second charging connector is unconnected to the first charging connector and an actuation device configured for moving the second charging connector between the two stable equilibrium positions.

Embodiments of the inventive subject matter relate to a current collector that includes a vehicle-mounted base frame and including a lower scissor fastened on the base frame and an upper scissor fastened on the lower scissor with respective steering rods and includes a current collector rocker fastened on the upper scissor that includes contact strips for contacting an energized overhead line. A height adjustment device is situated on the base frame to pivot the lower scissor relative to the base frame, the height adjustment device including an electrical linear drive, the linear drive being connected to a sled, which is mounted for translational displacement on the base frame, the sled being displaceable by the linear drive from a park position into a lift position, the sled being connected to the lower scissor via a tension spring to initiate a pivoting movement of the lower scissor into a raised position.

A system for charging an electrical storage unit of an electric vehicle through a contact device, the system comprising: the contact device interconnected to the electrical storage unit of an electric vehicle and configured to receive an electrical charge from an external power source; a contact arm interconnected to the contact device, the contact arm configured to position the contact device at a first position relative to the external power source; and a contact device controller interconnected to the contact arm and configured to control the contact arm wherein the first position is maintained; wherein the contact device receives the electrical charge from the external power source; wherein the electrical storage unit of the electric vehicle is charged.

A system for charging an electrical storage unit of an electric vehicle through a contact device, the system comprising: the contact device interconnected to the electrical storage unit of an electric vehicle and configured to receive an electrical charge from an external power source; a contact arm interconnected to the contact device, the contact arm configured to position the contact device at a first position relative to the external power source; and a contact device controller interconnected to the contact arm and configured to control the contact arm wherein the first position is maintained; wherein the contact device receives the electrical charge from the external power source; wherein the electrical storage unit of the electric vehicle is charged.

An electric drive dump truck travels by contacting, with trolley lines, power collection units configured to be moved up and down by lifting devices and receiving electrical power from the trolley lines. A position detection device is configured to detect a position of the electric drive dump truck; a vehicle speed detection device is configured to detect a vehicle speed of the electric drive dump truck; and a storage section is configured to store a position of the trolley lines and a time (hereinafter referred to as a moving-up time) until the power collection units contact with the trolley lines since the power collection units start moving up. A control device is configured to output a signal indicating that the power collection units can be moved up based on the position and vehicle speed of the electric drive dump truck, the position of the trolley lines, and the moving-up time.