Provided is a vehicle including: an image acquisition unit; a cap provided on a body of the vehicle and configured to open and close a replenishing port for replenishing an energy source; a driving unit allowing the cap to be separated or connected from/to the body; and a controller configured to determine an intention of a user to replenish the energy source on the basis of an image acquired by the image acquisition unit, and control the driving unit such that the cap is automatically separated from the body in response to determining that the intention of the user to replenish the energy source exists.

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.

A closure cap for an operating medium tank is provided with a closure device projecting into a fill socket of the operating medium tank. The closure device has a first cap element, a second cap element, and a sealing ring arranged between the first and second cap elements. A lifting assembly axially moves by an axial travel the first and second cap elements relative to each other for opening and closing the fill socket. The lifting assembly has a pressure member acting axially on one of the first and second cap elements. A grip member is provided that is rotatable about a hub and actuates the lifting assembly. A cover disk covering at least partially the fill socket relative to an exterior is connected fixedly to the pressure member of the lifting assembly. The cover disk rotates, together with the pressure member, about the hub.

Provided is a vehicle body front structure including a front hood (7) provided in a front part of a vehicle body (3), and a port device (30) mounted to the vehicle body and positioned under the front hood. The front hood includes an outer panel (7A) and an inner panel (7B) attached to a back side of the outer panel, the outer panel and the inner panel defining a port opening (21) facing the port device and passed through the outer panel and the inner panel in a thicknesswise direction thereof, and being welded to each other along a peripheral edge (22) of the port opening, and a garnish (23) is provided on an outer surface of a peripheral part of the outer panel surrounding the port opening, and a lid (58) for selectively closing the port opening is provided on the vehicle body.

A fuel lid structure that includes: a lid body at which a latched portion is formed, the lid body opening and closing an open portion formed in a vehicle body outer panel for access to a fuel fill inlet; a lid lock having: a lock member provided so as to be movable between a latching position in which the lock member latches with the latched portion and a retracted position in which the lock member is retracted from the latched portion, and an urging member that urges the lock member toward the latched portion, the lid lock locking the lid body in a closed position in a case in which the latched portion is latched by the lock member; and an attenuating member provided at the latched portion, the attenuating member contacting the lock member to attenuate the urging force that acts on the lock member.

A vehicle assembly includes, among other things, a first and a second housing of a fuel inlet assembly. The first housing is securable to an outer panel of a vehicle. A fuel inlet fastener connects together the first and second housings. The fuel inlet fastener is configured to be accessed through a fuel inlet aperture of the outer panel to disconnect the first housing from the second housing. A panel removal method includes disconnecting a first and second housing of a fuel inlet assembly through a fuel inlet aperture in an outer panel of a vehicle. The method further includes removing the outer panel and the first housing from the vehicle.

Example methods and apparatus to ensure grounding between vehicles during a vehicle-to-vehicle refueling operation are described herein. An example vehicle described herein is to receive fuel from a refueling vehicle via a vehicle-to-vehicle refueling operation. The example vehicle includes a fuel door to cover an inlet nozzle of a fuel tank, a lock to lock or unlock the fuel door, and a controller to cause the lock to unlock the fuel door if the vehicle and the refueling vehicle are electrically coupled.

A push to release fuel filler door assembly for a motor vehicle includes a door on the exterior of the vehicle having a latch that cooperates with a spring biased plunger which rotates and translates axially. The plunger includes radially extending pins which are received in complementary helical tracks on the inner surface of an inner housing. The tracks define a closed path having a first segment, in which the pins travel while the fuel door is being closed, a second segment in which they travel while the fuel door is opening and a latching recess between the first and second segments in which the pins reside when the door is closed. The inner housing typically includes three segments or sections and is, in turn, received and retained within an outer housing which mounts on a fuel door inlet assembly.