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.

A latching assembly includes a hinge defining a slot, the slot having a slot length and a slot width, wherein the slot length is greater than the slot width, and a latching actuator having a housing and a plunger partially disposed in the housing, the plunger configured to translate and rotate relative to the housing, the plunger having a distal end with a plunger end length and a plunger end width, wherein the plunger end length is greater than the plunger end width, the plunger configured to be inserted into the slot. The plunger end length is greater than the slot width and the plunger end length is less than the slot length by a clearance amount.

The invention describes a locking device for a fuelling or charging recess, and a fuelling or charging recess, wherein the locking device has a locking pin (12) that has a locking section (14) on one end and can be translationally and rotationally moved for locking. The locking pin (12) has, on the locking section (14), a first holder (16) in which a pressure piece (20) is received that provides a tolerance compensation over the long term. A fuelling or charging recess having a locking device (10) of this kind further has a recess body, a lever arm and a tank filling pipe or charging module, wherein in an opening of the recess body, a tank filling pipe or charging module is inserted and the lever arm is pivotally mounted. The locking device (10) is arranged such that in the closed state of the fuelling or charging recess, a ball (26) or pressure pin of the pressure piece (20) is at least partially pressed by means of the lever arm into the second holder (22) of the pressure piece (20) against the force of a spring (24).

An electric vehicle includes a charge port configured to selectively lock a charge plug to the charge port, a charge port door configured to provide access to the charge port, a charge port door lock configured to selectively lock the charge port door in a closed position, a primary manual release cable operably coupled to the charge port to manually unlock the charge plug from the charge port, and a secondary tension cable system coupled between the primary manual release cable and the charge port door lock. Actuation of the primary manual release cable simultaneously unlocks the charge plug from the charge port and actuates the secondary tension cable system to unlock the charge port door lock.

A fuel door opener assembly is configured to lock or unlock a fuel door of a vehicle and includes: an opener housing in which a space is formed; a locking lever slidably installed inside the opener housing, elastically supported in a direction to be drawn out from the opener housing, and configured to lock and unlock the fuel door; a locking pin configured to be moved along a heart cam formed on the locking lever to restrict a location of the locking lever in accordance with a position thereof on a profile of the heart cam; and an elastic member disposed in the opener housing and elastically supporting the locking pin to allow the locking pin to be positioned on the profile of the heart cam.

A reciprocating device includes; a reciprocating component, a forward-backward position control mechanism that controls the reciprocating component in a forward-backward movement, and a restricting member that puts the reciprocating component in a restricted state in which the forward-backward movement is restricted. The reciprocating component is provided on the casing such that the reciprocating component moves forward or backward while rotating relative to the casing. The forward-backward position control mechanism includes; a casing-side member, and a reciprocating component-side member fitted with the reciprocating component such that the reciprocating component is rotatable relative to the reciprocating component-side member. The restricting member is movable between a restriction position where the reciprocating component is in the restricted state and a restriction-lift position where the restricted state is cleared. The restricting member located at the restriction position engages with the reciprocating component-side member to put the reciprocating component in the restricted state.

An urging structure for a lid includes a spring member having one spring end linked to a supply-port-forming member and the other spring end linked to a lid, and provided so as to be most elastically deformed at an intermediate position between a closed position and a maximum open position of the lid to urge the lid. The spring member is linked to the lid in such a way so as to vary a distance between the other spring end and a turning center of the lid, and the distance stays constant when the lid is in the closed position and in the intermediate position, increases in a process of moving from the intermediate position to the maximum open position, and becomes maximum when the lid is in the maximum open position.

A fuel lid opener-has: a heart cam mechanism that is structured so as to, each time a lifter is push-operated via a fuel lid, cause the lifter to alternately repeat advancing-out and withdrawing, and so as to push the fuel lid open due to advancing-out of the lifter; and a locking mechanism-that can restrict operation of the heart cam mechanism. At the locking mechanism, a time when a stopper is moved by operation of a motor, and the aforementioned restricting is released, the aforementioned stopper engages with the heart cam mechanism and operates the heart cam mechanism. Due thereto, the lifter advances-out, and the fuel lid is pushed open.

A flip cover actuation structure for actuating a flip cover includes a locking device, a rocker, and a driving device. The locking device locks and releases the flip cover. The rocker drives the flip cover to open and close. The driving device comprises a gear and an eccentric device. The driving device is configured to rotate the gear and the eccentric device. The gear drives the rocker. The eccentric device drives the locking device.

The forward/backward movement device includes: a case; a forward/backward member, and a drive mechanism. In the forward/backward movement device, the drive mechanism includes: a drive section including a drive section main body and a drive shaft; a gear section; an arm section; and a lock portion including a conversion mechanism and an engaging section. In the forward/backward movement device, the forward/backward member and the drive section are housed in the case such that respective axes of the forward/backward member and the drive section are substantially parallel to each other, and the arm section includes a rotation axis, in which a plane containing a rotation direction of the arm section with the rotation axis is substantially parallel with respect to a plane containing an axial direction of the drive section and an axial direction of the forward/backward member.