A charging flap system for a motor vehicle that is at least partially operated electrically has a charging connection, which is arranged in a charging well, for electrically charging the motor vehicle, in particular a battery of the motor vehicle, a pivotable, outer covering flap which covers the charging well in a closed position and opens up same in an open position, and a pivotable, inner charging flap which opens up the charging connection in a charging position. The inner charging flap and the outer covering flap interact in such a manner that the outer covering flap and the inner charging flap are coupled to each other in a form-fitting manner in an intermediate position between the open position and the closed position.

A door assembly that includes a pocket having a biasing bore configured to accommodate a biasing member; a bezel attached to the pocket; and a door having a cam and at least one axle. The bezel has at least one axle slot. The at least one axle is received into the at least one axle slot and the biasing member is configured to apply an urging force onto the cam.

An embodiment energy source door assembly includes an external cover, a heat cover mounted on the external cover, and a heat film disposed between the external cover and the heat cover, wherein the heat film is configured to generate heat when electric energy is applied thereto. In an embodiment, the energy source door assembly further includes a thermal pad interposed between the heat film and the heat cover.

This disclosure relates to an electrified vehicle having remote terminals accessible via a charging port door. An example electrified vehicle a charging port configured to couple to a plug to charge the electrified vehicle, and remote terminals. The electrified vehicle can be jump started via the remote terminals. Further, the electrified vehicle includes a charging port door moveable between a closed position, a normal open position in which the charging port is accessible such that a plug may couple to the charging port to charge the electrified vehicle, and an extended open position in which the charging port door has moved beyond the normal open position. The remote terminals are accessible when the charging port door is in the extended open position.

A cover apparatus for a motor vehicle body has a movement device (5) with first and second guide rails (8, 9) that are spaced from one another and received rigidly on the motor vehicle body (2). A covering element (4) covers a filling connector (7) of the motor vehicle body (2) and is received movably on the motor vehicle body (2). The covering element (4) is coupled to the first and second guide rails (8, 9). A third guide rail (10) is transverse to the first and second guide rails (8, 9). The third guide rail (10) is configured to be movable relative to the motor vehicle body (2) and the first and second guide rails (8, 9). The third guide rail (10) is configured to receive the covering element (4), and the covering element can be moved relative to the third guide rail.

This disclosure relates to an electrified vehicle having remote terminals accessible via a charging port door. An example electrified vehicle a charging port configured to couple to a plug to charge the electrified vehicle, and remote terminals. The electrified vehicle can be jump started via the remote terminals. Further, the electrified vehicle includes a charging port door moveable between a closed position, a normal open position in which the charging port is accessible such that a plug may couple to the charging port to charge the electrified vehicle, and an extended open position in which the charging port door has moved beyond the normal open position. The remote terminals are accessible when the charging port door is in the extended open position.

A door assembly that includes a pocket having a biasing bore configured to accommodate a biasing member; a bezel attached to the pocket; and a door having a cam and at least one axle. The bezel has at least one axle slot. The at least one axle is received into the at least one axle slot and the biasing member is configured to apply an urging force onto the cam.

A cover apparatus for a motor vehicle body has a movement device (5) with first and second guide rails (8, 9) that are spaced from one another and received rigidly on the motor vehicle body (2). A covering element (4) covers a filling connector (7) of the motor vehicle body (2) and is received movably on the motor vehicle body (2). The covering element (4) is coupled to the first and second guide rails (8, 9). A third guide rail (10) is transverse to the first and second guide rails (8, 9). The third guide rail (10) is configured to be movable relative to the motor vehicle body (2) and the first and second guide rails (8, 9). The third guide rail (10) is configured to receive the covering element (4), and the covering element can be moved relative to the third guide rail.

A closure of a tank of a motor vehicle for closing a filler neck gas- and fluid-tight, having a closure fastened to a flap, the flap being fastened to a vehicle body of the motor vehicle such that it is movable into an open or closed position, the closure including a seal, which causes the closure to close against the filler neck. The tank closure should be easy for a user to handle and have a relatively simple design and be economical to manufacture. This is achieved in that the seal is electromechanically or pneumatically adjustable with the aid of an actuator.

A lock pin is arranged so as to be projected from a side wall of a concave region, in which a fuel filler port of a vehicle is arranged, toward the inside of the concave region. In addition, a retainer placed around the lock pin on an inner side of the side wall of the concave region and a protector supported by the retainer so as to be placed in a region close to the lock pin are provided. The protector has a detent pin to prevent the retainer from rotating relative to the lock pin.