A robot apparatus for establishing a charging connection between a charging device and an energy storage unit of a motor vehicle, having a movement unit, by which the robot apparatus is movable in relation to the charging device and the motor vehicle, having a receptacle device, by which a charging element of the charging device can be received, can be coupled to a coupling element of the energy storage unit and subsequently released, and having a detection unit, by which a position of the coupling element on the motor vehicle is ascertainable, wherein the robot apparatus is connectable by a support device to the motor vehicle, whereby a force is transmittable from the robot apparatus to the motor vehicle.

A robot apparatus for establishing a charging connection between a charging device and an energy storage unit of a motor vehicle, having a movement unit, by which the robot apparatus is movable in relation to the charging device and the motor vehicle, having a receptacle device, by which a charging element of the charging device can be received, can be coupled to a coupling element of the energy storage unit and subsequently released, and having a detection unit, by which a position of the coupling element on the motor vehicle is ascertainable, wherein the robot apparatus is connectable by a support device to the motor vehicle, whereby a force is transmittable from the robot apparatus to the motor vehicle.

The invention relates to a device and a method for automatically charging an electrical energy storage means in a vehicle. For this purpose, firstly, the position of a charging socket on a vehicle is determined, based on vehicle-specific data. Subsequently, a charging robot travels on the ground near to the charging socket. Then, the charging robot establishes a galvanic connection between the charging station and charging socket. For this purpose, the charging robot introduces a contact head connected to the charging station into the charging socket of the vehicle. After termination of the charging process, the contact head is removed from the charging socket, thereby releasing the vehicle.

A vehicle control system for moving a vehicle to a target location is disclosed. According to examples of the disclosure, a camera captures one or more images of a known object corresponding to the target location. An on-board computer having stored thereon information about the known object can process the one or more images to determine vehicle location with respect to the known object. The system can use the vehicle's determined location and a feedback controller to move the vehicle to the target location.

A vehicle control system for moving a vehicle to a target location is disclosed. According to examples of the disclosure, a camera captures one or more images of a known object corresponding to the target location. An on-board computer having stored thereon information about the known object can process the one or more images to determine vehicle location with respect to the known object. The system can use the vehicle's determined location and a feedback controller to move the vehicle to the target location.

The present invention relates to a device for positioning a charger connector, in particular relative to a vehicle contra connector, comprising a suspension for a charging cable assembly, connected at one end to the charger connector, the suspension comprising a first suspension point, for clamping, at a point remote from the one end, the charging cable assembly in a predetermined orientation and position, which orientation and position together with the rigidity of the cable assembly and the gravity acting on the cable assembly define a preferred position and/or a preferred orientation of the one end; and a second suspension point, for engaging the charging cable assembly at the one end of the charger connector; Wherein the second suspension point comprises a manipulator for manipulating the position and/or the orientation of the charger connector relative to the fixed world, in a range around the preferred position and/or the preferred orientation of the one end of the cable assembly.

The present invention relates to a device for positioning a charger connector, in particular relative to a vehicle contra connector, comprising a suspension for a charging cable assembly, connected at one end to the charger connector, the suspension comprising a first suspension point, for clamping, at a point remote from the one end, the charging cable assembly in a predetermined orientation and position, which orientation and position together with the rigidity of the cable assembly and the gravity acting on the cable assembly define a preferred position and/or a preferred orientation of the one end; and a second suspension point, for engaging the charging cable assembly at the one end of the charger connector; Wherein the second suspension point comprises a manipulator for manipulating the position and/or the orientation of the charger connector relative to the fixed world, in a range around the preferred position and/or the preferred orientation of the one end of the cable assembly.

A method of operating a vehicle fleet includes providing a first vehicle including a first energy storage device and a first wireless charging coil, providing a second vehicle including a second energy storage device and a second wireless charging coil, providing, by an external device, electrical energy to the first vehicle, charging, by the first vehicle, the first energy storage device using a first portion of the electrical energy, transferring, through the first wireless charging coil and the second wireless charging coil, a second portion of the electrical energy to the second vehicle, and charging, by the second vehicle, the second energy storage device using the second portion of the electrical energy.

A method of operating a vehicle fleet includes providing a first vehicle including a first energy storage device and a first wireless charging coil, providing a second vehicle including a second energy storage device and a second wireless charging coil, providing, by an external device, electrical energy to the first vehicle, charging, by the first vehicle, the first energy storage device using a first portion of the electrical energy, transferring, through the first wireless charging coil and the second wireless charging coil, a second portion of the electrical energy to the second vehicle, and charging, by the second vehicle, the second energy storage device using the second portion of the electrical energy.

A charging amount calculation apparatus calculates an amount of power consumption by a battery for running along a running route and a during-running charging amount received by a power reception apparatus from at least one second power feeding facility. The charging amount calculation apparatus calculates a pre-running charging amount based on the amount of power consumption and the during-running charging amount.