The present disclosure relates to a drive device for a movable vehicle flap, including a flap part associated with the vehicle flap, a body part associated with a vehicle body, a first joint arrangement being arranged between the flap part and the body part, including a first knee lever and a second knee lever. The first knee lever and the second knee lever each have at least a first control arm and a second control arm. The drive device further include a second joint arrangement for opening and closing the vehicle flap in a normal operation, at least a first actuator for raising the vehicle flap to a pedestrian protection position. The first actuator has a first connection element and a second connection element. The first connection element of the first actuator is hingedly coupled to the first knee lever of the first joint arrangement. The second connection element of the first actuator is hingedly coupled to the second knee lever of the first joint arrangement. A drive device for a vehicle flap, which is reliable and compact, is provided according to the present disclosure by the first connection element of the first actuator being hingedly coupled to the second control arm of the first knee lever and by the second connection element of the first actuator being hingedly coupled to the first control arm of the second knee lever.

A hinge base member (5) and a hinge upper member (15) of a hinge (1) for an engine hood (3) are provided with main bodies (5, 17) each having a laterally facing major plane, and link members (9, 10) are connected between the main bodies of the hinge base member and the hinge upper member and overlies the main bodies of the hinge base member and the hinge upper member from a first lateral side. The hinge upper member is provided with an extension (17) fixedly attached to the side part of the hood and extending forward from the main body of the hinge upper member with an offset to a second lateral side opposite to the first lateral side with respect to the main body of the hinge base member.

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.

A motor vehicle includes two hinge joints to swingably connect a front gate to the vehicle body. Each hinge joint includes a body-side hinge lower part and a gate-side hinge upper part that includes an upper part portion swingably arranged on another upper part portion, with the upper part portions being detachably secured by a locking member. Pivot struts swingably connect the hinge lower and upper parts to one another, with one pivot strut including a strut portion arranged on an upper part portion and movable translatorily in relation to another strut portion. To raise the front gate for protection, an actuator is activated to thereby release the locking member and pivot one upper part portion relative to the other one upper part portion, thereby translatorily moving one strut portion relative to the other strut portion, and with the one upper part portion pivoting relative to the other pivot strut.

A hinge assembly for securing a flap to a vehicle body includes a first hinge part which can be moved between a closed position and an open position for securing to a vehicle body, a second hinge part which can be moved between a closed position and an open position for securing the flap to be mounted relative to the vehicle body, and a deployment securing device for locking the second hinge part relative to the first hinge part. The deployment securing device has a first securing part which is paired with the first hinge part, a second securing part which is paired with the second hinge part, and a locking element and is configured such that the locking element is coupled to the first securing part in the closed position and is locked by the second securing part in a first locking position. The second securing part unlocks the locking element in the course of the movement of the second securing part from the closed position into the open position and thereby releases the locking element. The deployment securing device is configured such that after the locking element is unlocked in the first locking position, the locking element is moved into a second locking position in which the locking element produces a coupling between the first securing part and a third securing part paired with the first hinge part and locks the first securing part and the third securing part in the open position.

An active hood apparatus for a vehicle includes a hood configured to cover an engine compartment of vehicle, and at least one hinge device configured to rotatably connect a rear end portion of the hood to a vehicle body. The hinge device includes a fixing bracket fixed to the vehicle body. A rotation bracket is provided such that a rear end thereof is rotatably connected to a rear end portion of the fixing bracket. A hood bracket is fixed to an inner surface of the hood and fixed to the rotation bracket by a first breaking pin. A connecting link provided such that opposite ends thereof are rotatably connected to a rear end portion of the hood bracket and a middle portion of the rotation bracket respectively. An actuator is configured to push up the connecting link in the event that a collision occurs.

Aspects of the disclosure relate to adjusting a shear pin to minimize an impact force felt by an object in a collision with a vehicle. For example, one or more second computing devices may receive, from one or more first computing devices, information indicating that an impact with an object is imminent. In response to the received information, the second computing devices may determine a first shear force for a first shear pin, wherein the first shear force is a desired amount of shear force necessary to break the first shear pin. The second computing devices may send a triggering signal to activate an actuator prior to an impact with the identified impact target. The actuator, in response to receiving the triggering signal, may adjust the first shear pin in a first pinhole, so the first shear pin will break at the first shear force.

A hood hinge for a front hood of a vehicle includes a hinge lower part for attachment to a vehicle body, a hinge upper part for attachment to the front hood, and first and second link levers to connect the hinge lower part to the hinge upper part. A lifting actuator is connected to the hinge lower part via a bearing element and undergoes a change in length in relation to the bearing element between a passive state and an activated active state to raise the hinge upper part. A release device is operatively connected to the bearing element for releasing the telescoping function of the first link lever. The release device is actuated when the bearing element moves from a rest position to an active position.

A tonneau cover system includes a cover and a pivot mechanism. The cover includes a plurality of panels hingedly coupled together, and is foldable between an extended configuration and a folded configuration. The pivot mechanism includes a first link bar and a second link bar. The first link bar has an upper end pivotally connected to a forward panel and the second link bar has an upper end pivotally connected to the forward panel. With the cover in the folded configuration, the pivot mechanism may move the stack from an initial stack configuration in which the forward panel is in the first plane to a storage stack configuration in which the forward panel of the cover extends upright along a second plane, and to simultaneously move the forward edge of the forward panel rearwardly and above the first plane.

A hinge assembly for attaching a hood to a body of a vehicle includes a body-side bracket fixedly attached to the body and a hood-side bracket fixedly attached to the hood. A pivot mechanism is configured to place the hinge assembly in: a stowed position, in which the hood is adjacent the body; an access position, in which the hood rotates toward a rear of the vehicle; and an active position, in which the hood rotates toward a front of the vehicle. The hinge assembly also includes an actuator that configured to move the pivot mechanism to, or toward, the active position. A pin is attached to the body-side bracket and an upstop link is attached to the hood-side bracket. The upstop link defines a slot. The pin becomes engaged with the slot when the pivot mechanism is in the active position.