This disclosure relates to a fuel or charging port door assembly of a motor vehicle. In particular, this disclosure relates to a fuel or charging port door assembly configured to permit a door to open when an override force is applied using an assist tool, for example. An example vehicle includes a door configured to move relative to a body of the vehicle between open and closed positions. The door is a fuel door or a charging port door. The vehicle also includes a lock assembly including a base and a tip. The base is configured to hold the tip during normal operating conditions, and the base and tip are configured to separate upon application of an override force to the door.

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 actuation assembly for a refueling port or charging port flip cover assembly is rotatably mounted on a base and includes a locking means, a flip cover rotating shaft, a transmission gear, a drive gear and a drive member. The locking means is movably disposed on the base and configured to lock or release a flip cover. The flip cover rotating shaft is configured to rotate the flip cover and includes a fitting portion. The transmission gear includes a receiving portion and is installed around the fitting portion. The drive gear and the drive member are configured to synchronously rotate. The drive gear is meshed with the transmission gear and the drive member is configured to drive the locking means. In moving the locking means from a release position to a locking position, the drive gear blocks the rotation of the transmission gear and prevents the flip cover from opening.

A flip cover actuation assembly for actuating a flip cover is movably mounted on a base. The flip cover actuation assembly has a locking means, a hinge means, a drive shaft and a drive member. The drive shaft has a fitting portion. The hinge means is installed around the fitting portion. An engagement structure is provided on a receiving portion of the hinge means. The engagement structure enables the receiving portion and the fitting portion to rotatably engage or separate such that the drive shaft moves the flip cover relative to the hinge means. The locking or releasing of the flip cover and the opening and closing of the flip cover is achieved by the drive shaft with the drive member. In addition, the releasing and the opening of the flip cover are achieved at different times to avoid any interferences.

The present disclosure relates to an actuating assembly and a fuel filler or charging inlet flip assembly. The actuating assembly comprises a driving gear and a transmission gear. The transmission gear is configured to be capable of rotating in a first direction to open the flip and in a second direction to close the flip, driven by the driving gear. An outer periphery of the driving gear is provided with a first outer periphery portion and a second outer periphery portion, the first outer periphery portion is provided on one side of the second outer periphery portion in a circumferential direction, the first outer periphery portion comprises a plurality of driving teeth, the second outer periphery portion comprises a driving gear abutting portion. The actuating assembly can allow for a reduced machining accuracy, and thus allow for a smoother engagement of the driving gear and the transmission gear.

A charging or tank door assembly of a motor vehicle, including a base body receiving a charging socket or a tank inlet, a door body pivotable about an axis of rotation and supporting a panel body on a first position, and a push-push mechanism for locking the door body and releasing the door body in the first position. In the first position, the door body closes an opening in a body of the motor vehicle and blocks access to the charging socket or to the tank inlet. In a second position, the door body releases the opening of the body of the motor vehicle and the access to the charging socket or to the tank inlet. Relative to the first position, the push-push mechanism is arranged on a different side of the axis of rotation than the first portion, supporting the panel body, of the door body.

The disclosure relates to a motor vehicle flap system, including a lateral wall having an inner side surface, an outer side surface and a through-opening, a flap which is mounted on the inner side surface such that it can move between a closed position closing the through-opening, in which the flap lies within the through-opening and runs perfectly flush with the outer side surface, and an open position releasing the through-opening, and having an actuation lever which is mounted on the inner side surface such that it can swivel between a starting position and an end position, and, with a movement into the end position, the actuation lever is designed to move the flap into the open position, wherein the flap and the actuation lever are swivellably mounted on a guide axis arranged on the inner side surface.

In a lid opening and closing device for vehicle, a rod can move forward and backward between pushed-in and protruding positions, and is supported on a case so that the rod can attain a lid closed position where the rod returns from pushed-in position toward protruding position only by predetermined movement amount. An axial position-restricting groove has a pin-receiving portion and is formed on the rod or a coupling member. An elastic member has a pin inserted into the groove while being receivable by the portion when the rod is at lid closed position, the elastic member being supported on the case and exhibiting resilient force making the pin resiliently abut against the rod or coupling member. The case is provided with a restricting part capable of abutting against the elastic member, and restricting displacement of the elastic member to a side where the pin is disengaged from the groove.

Provided is a fuel adapter cover structure of a vehicle which can hide a fixing portion for fixing a hinge to a body and can reduce the number of components. A fuel adapter cover structure of a vehicle includes: an oil supply port side recessed portion, a first cover portion, a second cover portion, and a hinge storage portion. The oil supply port side recessed portion has an oil supply port side flange. The hinge storage portion stores a hinge supporting a fuel lid. The first cover portion and the second cover portion are continuous to the oil supply port side flange. By the first cover portion and the second cover portion, a first rivet and a second rivet which support the hinge on a vehicle-body are covered from the outside.

A vehicle mounted fuel filler pocket and hingedly attachable door assembly, having a housing with an upper rim edge defining a pocket shaped body to which is communicated a fuel filler tube. A door overlays the upper rim edge in a closed position. A hinge bracket secures to an underside location of the door at a first end, the hinge bracket having a widthwise extending pin at a second end which is pivotally supported within circular capture recesses defined in a subset area of the pocket shaped body to permit the door to be pivoted from the upper rim edge to an open position. A detent cam mechanism is provided for biasing the door at each of the closed and open positions.