An actuating device for opening and closing a cover in or on a vehicle includes a housing, a rotatable plunger, a spring that preloads the plunger into a discharge position, and an actuating sleeve into which the plunger can be introduced. At least one actuating groove extends helically around the longitudinal axis of the actuating sleeve and is formed on the inside of the sleeve. At least one actuating projection of the plunger engages into the actuating groove when the plunger is introduced into the actuating sleeve causing the plunger to rotate about its longitudinal axis during an axial relative movement between the actuating sleeve and the plunger. A blocking device blocks plunger movement into the discharge position to hold the plunger in a locked position. A spring element preloads the blocking device into a blocking position, and an actuator disengages the blocking device from the blocking position.

It is provided an adjustment mechanism, comprising a closure flap for at least partially closing a closure opening on a vehicle, via which, when the closure flap is opened, a connection element for connecting a line and/or a port for topping up a liquid, in particular a fuel, is accessible, a drive for adjusting the closure flap by external force in response to an operator control event, and an electronic control unit which is coupled to the drive and by means of which the drive is activated to open the closure flap in response to an operator control event which is detected in a contactless manner, and, on the other hand, is automatically stopped or reversed in so far as, when the closure flap closes, a possible obstacle is detected in a contactless manner in the adjustment path of the closure flap by means of an anti-pinch mechanism.

A fuel lid opener has: a case that is mounted to an outer peripheral surface of a side wall of a lid box at which a fuel lid is pivotally supported so as to be able to open and close; a lifter that is supported at the case so as to be able to rotate around an axis that runs along a plate surface direction of the fuel lid that is in a closed state, and that has an arm portion that extends in a rotation radial direction within the lid box, and a distal end portion of the arm portion engages with the fuel lid that is in the closed state from a reverse surface side; and a heart cam mechanism that is provided within the case, and that, each time the arm portion of the lifter is push-operated in one direction around the axis via the fuel lid, causes the lifter to alternately repeat rotation in one direction and in another direction around the axis, and that pushes the fuel lid open due to rotation of the lifter in the another direction.

An actuating apparatus for opening and closing a cover in or on a vehicle, having push-push kinematics which interact with the cover.

This disclosure is directed to vehicle fuel systems that include door opening modules for controlling a fuel door opening sequence. An exemplary door opening module may include an actuator (e.g., a motor, an electromagnet, a solenoid, etc.) for automatically moving the fuel door to an ajar position after a fuel tank depressurization sequence is completed. Sound messages may be communicated to a user during the depressurization sequence by an audio actuator.

This disclosure is directed to vehicle fuel fill control systems for anticipating vehicle refueling events in order to control the timing of fuel tank depressurization sequences. In a first embodiment, a global positioning system (GPS) is utilized to anticipate the vehicle refueling event prior to initializing the depressurization sequence. In another embodiment, a camera system is utilized to anticipate the refueling event prior to initializing the depressurization sequence. In yet another embodiment, both the GPS and the camera system may be utilized to anticipate the refueling event. By anticipating refueling events, customer wait time for gaining refueling access may be reduced.

An apparatus (1) for opening and closing a lid (lid body) of a vehicle includes a linearly-movable shaft (10) supported by a housing (90) such that the shaft (10) is linearly movable along, and nonrotatable around, an axial center (X10); and a rotary shaft (30) supported by the linearly-movable shaft (10) such that it is linearly movable along and rotatable around the axial center (X10). A stopper (50) is supported by the housing (90) and is displaceable between a blocking position at which the stopper (50) prohibits the linearly-movable shaft (10) from moving from a second position to a first position, and a nonblocking position at which the stopper (50) is separated from the linearly-movable shaft (10). The stopper (50) is biased toward the blocking position and displaces to the nonblocking position in response to a manual opening operation for displacing the lid to the open position.

An apparatus (1) for opening and closing a lid (lid body) of a vehicle includes a linearly-movable shaft (10) supported by a housing (90) such that the shaft is linearly movable along, and nonrotatable around, an axial center (X10); and a rotary shaft (30) supported by the shaft such that it is linearly movable along and rotatable around the axial center. A stopper mechanism (50, 60) selectively blocks or permits the shaft to move from moving from a second position to a first position. The shaft has a main body (11) disposed within the rotary shaft (30) and an elastic body (80) provided on a terminal end portion of the main body (11). The elastic body includes a cushioning part (81) on a tip, a sealing part (83) around the main body, and a connecting part (85) connecting the cushioning part to the sealing part within the main body.

This disclosure is directed to vehicle fuel fill control systems for anticipating vehicle refueling events in order to control the timing of fuel tank depressurization sequences. In a first embodiment, a global positioning system (GPS) is utilized to anticipate the vehicle refueling event prior to initializing the depressurization sequence. In another embodiment, a camera system is utilized to anticipate the refueling event prior to initializing the depressurization sequence. In yet another embodiment, both the GPS and the camera system may be utilized to anticipate the refueling event. By anticipating refueling events, customer wait time for gaining refueling access may be reduced.

The invention relates to a tank module for a motor vehicle, with a housing in which a recess is provided, wherein a connecting element is arranged in the recess, a protective element for the connecting element, which can be moved between at least two positions, namely: a rest position in which the recess can be closed by the protective element, and an operating position in which the recess can be released by the protective element so that the connecting element is exposed, the protective element having an outer surface, and at least one sensor for detecting an activation action of a user to transfer the protective element between the rest position and the operating position, wherein the protective element is mounted in such a way that the outer surface of the protective element in the rest position and the outer surface of the protective element in the operating position are aligned parallel to one another.