A method for controlling a pressure inside a fuel tank system on board a vehicle, the fuel tank system having a fuel tank and a venting circuit having at least one controllable pressure relief valve, the vehicle having a source of energy adapted to activate said at least one pressure relief valve so as to move it from a closed position to a pressure relief position. The method entails: detecting a key off event indicative of the vehicle shut-down; determining an amount of energy available at the source of energy; starting at least one pressure relief operation by verifying whether the amount of energy available is lower than a first predetermined threshold amount and, if the verification is positive, activating the at least one pressure relief valve; and terminating the at least one pressure relief operation.

An electric vehicle (1) has a charging flap (10) articulated on a support structure by way of a four-bar linkage arrangement (14) so that the charging flap (10) can be moved between a closed position (FIG. 3A) and an open position (FIG. 3F). To simplify the actuation of the charging flap, the mechanism for actuating the charging flap (10) has a push-push element (20) combined with a spring device (15) that is assigned to the four-bar linkage arrangement (14).

A door lock assembly includes a housing having a hollow structure, a lifting shaft provided inside the housing, a driving spring, and a buffering device. A top end of the lifting shaft is configured for assembling a refueling or charging port flap, the lifting shaft being slidably engaged with the housing along a first portion and threadably engaged with the housing along a second portion. One end of the driving spring is fixed and the other end abuts against the lifting shaft for driving the lifting shaft to move relative to the housing. The buffering device provides a buffering function in the when the lifting shaft is threadably engaged with the housing.

A rotary type extension/retraction device includes a body member, a movement member, a spring member, a protrusion and a cam groove. The cam groove has a first fitting groove configured to hold the movement member in a state protruding from a cylindrical part of the body member, a second fitting groove configured to hold the movement member in a state pulled in the cylindrical part, a first guide groove configured to guide the protrusion from the first fitting groove to the second fitting groove, and a second guide groove configured to guide the protrusion from the second fitting groove to the first fitting groove. The first fitting groove, the first guide groove, the second fitting groove and the second guide groove are arranged circumferentially along an inner periphery of the cylindrical part in this order.

A control system is provided for a refuel or recharge door of a vehicle, which includes a vehicle controller. The system has a housing with a port, a door removably attached to the housing, a system controller, and at least one module. The system controller is communicably connected to a vehicle controller of the vehicle. Further, the system controller is configured to control the at least one module.

A vehicle port door includes a housing and an interlocking linkage assembly. The interlocking linkage assembly is pivotably connected to the housing.

A component that is assembled to a vehicle body can be temporarily fastened to a position different from an original assembling position, and can be favorably coated, without using a special jig. A fuel lid cover (33) is temporarily fastened to a rear door (43) that is different from a predetermined assembling position, with use of an opening portion (33K) of a hinge (33) that is attached to the fuel lid cover (32). Further, the vehicle body (10) is provided with a flange portion that functions as a step portion that forms a space between the hinge (33) of the fuel lid cover (32) and the vehicle body (10), when the fuel lid cover (32) is temporarily fastened.

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.

A reservoir cap closure indicator coupled to a cap comprises a body configured to move between a first position and a second position. An indicator coupled to the body indicates a position of the reservoir cap closure indicator as the body moves between the first position and the second position.

A link connecting a lid and a base member of a filler lid structure includes first and second link members. At an opening position, a distance between a distal end of the lid and the base member is larger than a distance between a proximal end of the lid and the base member. The first link member swings about a first support portion in a direction in which a second support portion is moved away from the base member, when the lid shifts from a closing position to the opening position. A distance between a base support point at which the base member or the first link member supports a third support portion at the closing position and an end support point at which the lid supports a fourth support portion at the closing position changes when the lid shifts from the closing position to the opening position.