An anti-icing structure is for a charging door for a vehicle where the charging door is rotatably installed to an inlet housing with a charging inlet module to selectively open the charging inlet module. The anti-icing structure includes: a door inner cover hingedly connected to the inlet housing through a hinge member at a position corresponding to an opening portion formed in the inlet housing to open the charging inlet module; a door outer cover connected to the outer surface of the door inner cover; and a heating assembly installed between an edge portion of the outer surface of the door inner cover and an edge portion of the inner side of the door outer cover.

An actuating apparatus for opening and closing a cover in or on a vehicle has a blocking device for blocking the cover in a locked position. The blocking device has a transmission mechanism with a rotation part (64.1; 50) mounted rotatably and driveable by an actuator (34), and a blocking bar (62) which is operatively connected to the rotation part. The transmission mechanism converts a rotation movement of the rotation part into an axial movement of the blocking bar. The blocking bar is transferable with the aid of the rotation part from a release position into a blocking position. The transmission mechanism is self-locking so that, at least whenever the blocking bar is in the blocking position, the rotation part is not driveable via an axial movement of the blocking bar, and the rotation part prevents an axial movement of the blocking bar out of the blocking position.

An actuating apparatus for opening and closing a cover in or on a vehicle has a blocking device for blocking the cover in a locked position. The blocking device has a transmission mechanism with a rotation part (64.1; 50) mounted rotatably and driveable by an actuator (34), and a blocking bar (62) which is operatively connected to the rotation part. The transmission mechanism converts a rotation movement of the rotation part into an axial movement of the blocking bar. The blocking bar is transferable with the aid of the rotation part from a release position into a blocking position. The transmission mechanism is self-locking so that, at least whenever the blocking bar is in the blocking position, the rotation part is not driveable via an axial movement of the blocking bar, and the rotation part prevents an axial movement of the blocking bar out of the blocking position.

A flap opening and closing mechanism includes a flap and a lock member. The flap includes a first engagement member, and is pivotally supported on a vehicle body side. The flap opens and closes an opening in an outer plate of a vehicle body. The lock member locks the flap. The lock member includes a body to be mounted on the vehicle body side, a swing member pivotally supported on the body, a second engagement member, and an adjustor. The second engagement member is engaged with the first engagement member, and provided in the swing member. The adjustor allows for a rotational movement of the body about a rotation shaft of the swing member to the vehicle body in a state where the body is temporarily fixed to the vehicle body side. The lock member locks the swing member at a position corresponding to the closing position of the flap.

A flap opening and closing mechanism includes a flap and a lock member. The flap includes a first engagement member, and is pivotally supported on a vehicle body side. The flap opens and closes an opening in an outer plate of a vehicle body. The lock member locks the flap. The lock member includes a body to be mounted on the vehicle body side, a swing member pivotally supported on the body, a second engagement member, and an adjustor. The second engagement member is engaged with the first engagement member, and provided in the swing member. The adjustor allows for a rotational movement of the body about a rotation shaft of the swing member to the vehicle body in a state where the body is temporarily fixed to the vehicle body side. The lock member locks the swing member at a position corresponding to the closing position of the flap.

A mechanism (1) for pivoting a charging or tank flap (2) on a charging or filler neck housing (3), which is accommodated or can be accommodated in a body component of a motor vehicle, wherein the mechanism (1) is configured, by superposing at least two at least temporarily simultaneous circular rotational movements having different rotation radii or at least one at least temporarily simultaneous circular rotational movement and at least one linear movement, to pivot the charging or tank flap (2) reversibly between a first orientation, in particular a closed position of the charging or tank flap (2), and a second orientation, in particular an open position of the charging or tank flap (2).

A mechanism (1) for pivoting a charging or tank flap (2) on a charging or filler neck housing (3), which is accommodated or can be accommodated in a body component of a motor vehicle, wherein the mechanism (1) is configured, by superposing at least two at least temporarily simultaneous circular rotational movements having different rotation radii or at least one at least temporarily simultaneous circular rotational movement and at least one linear movement, to pivot the charging or tank flap (2) reversibly between a first orientation, in particular a closed position of the charging or tank flap (2), and a second orientation, in particular an open position of the charging or tank flap (2).

A device for opening and closing a cap, includes: a mounting box; a locking pin, rotatably and retractably mounted to the mounting box, and having a locking head for hooking the cap; a guide block, mounted to the mounting box and having a guide groove; a rocker arm, rotatably mounted to the mounting box, and having a first end fitted to the locking pin and a second end fitted with a pin hole; a slidable pin, movably fitted in the pin hole along an axial direction of the pin hole; and an adjusting component, arranged on the second end of the rocker arm and abutting against the slidable pin, and configured to adjust a position of the slidable pin in the pin hole. The slidable pin is coupled with the adjusting component to fit to the guide groove and to slide along the guide groove.

A device for opening and closing a cap, includes: a mounting box; a locking pin, rotatably and retractably mounted to the mounting box, and having a locking head for hooking the cap; a guide block, mounted to the mounting box and having a guide groove; a rocker arm, rotatably mounted to the mounting box, and having a first end fitted to the locking pin and a second end fitted with a pin hole; a slidable pin, movably fitted in the pin hole along an axial direction of the pin hole; and an adjusting component, arranged on the second end of the rocker arm and abutting against the slidable pin, and configured to adjust a position of the slidable pin in the pin hole. The slidable pin is coupled with the adjusting component to fit to the guide groove and to slide along the guide groove.

The invention relates to a device for determining a propulsion profile to be applied during the operation of an electric drive motor of a motor vehicle driven by an electric motor, wherein in each case a manifestation to be applied of one or more propulsion parameters can be saved in the propulsion profile for different propulsion actuator presets by a vehicle user, and the device is designed to determine the propulsion profile to be applied with the aid of at least one propulsion curve which in each case assigns different manifestations of the propulsion parameter or parameters to different propulsion actuator presets.