A glove box includes a cover embedded in a dashboard of a vehicle in a state in which a front of the cover is open, a housing having one open surface covered by the cover and selectively opening or closing the front of the cover through a preset rotational trajectory, transfer links each arranged between one of outer ends of the housing and a corresponding one of inner ends of the cover and providing a rotational trajectory of the housing, and an elastic member that corrects rotational forces of the transfer links. The transfer links includes first and second link parts each having a first end rotatably connected to an inner lower portion of the cover and a second end rotatably connected to an outer upper portion of the housing, and being spaced apart from each other with the same length and the same mounting angle.

A drive assembly, in particular for driving a flap (5), includes a hinge assembly (2), comprising a first hinge part (3) connectable to a vehicle body and a second hinge part (4) connectable to a vehicle flap (5), a joint assembly (7) comprising at least a first joint part (8) hingedly connecting said first hinge part (3) with said second hinge part (4) and a first actuator (10) for driving the second hinge part (4) to move between an opened and a closed position during a normal operation. The first actuator (10) has a first end (10a) coupleable to a vehicle body pivotally about a first pivot axis (P1) and a second end (10b). The drive assembly also includes a bearing element connected (16) to the first actuator (10) and a coupling assembly (14) for coupling the first actuator (10) to the hinge assembly (2), comprising a first coupling part (15) having a first end (15a) and a second end (15b). The first end (15a) of the first coupling part (15) is coupled to one of the second hinge part (4) and first joint part (8) pivotally about a second pivot axis (P2). The bearing element (16) of the first actuator (10) is coupled to the second end (15b) of the first coupling part (15) pivotally about a third pivot axis (P3) spaced apart from the second pivot axis (P2). The drive assembly provides a possibility to move a vehicle flap drivingly between a closed and an opened position and further provides a reliable pedestrian protection function.

A motor-driven cover device for covering and releasing a charging port arranged on the vehicle body of an electric vehicle with respect to a vehicle exterior. A cover plate can cover the charging port in a closed state, a motor can be operatively connected to the cover plate for driving an opening movement and a closing movement of the cover plate. A force transmission device can transmit a motor power for carrying out the opening movement and closing movement of the cover plate. A guide element can guide the cover plate along a movement path during the opening and closing movement of the cover plate. The cover plate can be moved along the vehicle body in a motor-driven manner during the opening and closing movement, the vehicle body covering the cover plate at least partially with respect to the vehicle exterior in an open state of the cover device.

A hinge assembly for an engine hood of a motor vehicle, having a hinge substructure, which can be attached to a body component of the motor vehicle, and having a hinge upper part, which can be attached to the engine hood. The hinge upper part is retained on the hinge substructure so as to pivot about a pivoting axis. The hinge assembly includes at least one support element, which enables deformation of the hinge substructure in a first direction, in which the hinge substructure can be moved away from a limit stop area of the at least one support element. The at least one support element limits deformation of the hinge substructure in a second direction opposite the first direction by means of the limit stop area. Furthermore, the invention relates to a motor vehicle having at least one such hinge assembly.

A mechanism (1) for pivoting a charging or tank flap (2) on a charging or filler neck housing (3), which is accommodated or can be accommodated in a body component of a motor vehicle, wherein the mechanism (1) is configured, by superposing at least two at least temporarily simultaneous circular rotational movements having different rotation radii or at least one at least temporarily simultaneous circular rotational movement and at least one linear movement, to pivot the charging or tank flap (2) reversibly between a first orientation, in particular a closed position of the charging or tank flap (2), and a second orientation, in particular an open position of the charging or tank flap (2).

An articulating prop to prop panels in an open position is disclosed. In one embodiment, the prop includes a protrusion that rests in a groove to lock members of the articulating prop in position. An external force causes the articulating prop members to rotate into a locked position. In another embodiment, an additional latch is disclosed which further locks the articulating prop in a locked position. An external force causes the articulating prop member to rotate out of a locked position. Shapes and interfaces of handles of the articulating prop are disclosed. Openings and pivotal axes of members of the articulating prop are also disclosed herein.

A tractor (1) includes a bonnet (2) and bonnet mover (10) suitable for guiding movement of the bonnet (2) in rotational translation between a closed position and an open position.

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 mechanism (1) for pivoting a charging or tank flap (2) on a charging or filler neck housing (3), which is accommodated or can be accommodated in a body component of a motor vehicle, wherein the mechanism (1) is configured, by superposing at least two at least temporarily simultaneous circular rotational movements having different rotation radii or at least one at least temporarily simultaneous circular rotational movement and at least one linear movement, to pivot the charging or tank flap (2) reversibly between a first orientation, in particular a closed position of the charging or tank flap (2), and a second orientation, in particular an open position of the charging or tank flap (2).

A drive assembly, in particular for driving a flap (5), includes a hinge assembly (2), comprising a first hinge part (3) connectable to a vehicle body and a second hinge part (4) connectable to a vehicle flap (5), a joint assembly (7) comprising at least a first joint part (8) hingedly connecting said first hinge part (3) with said second hinge part (4) and a first actuator (10) for driving the second hinge part (4) to move between an opened and a closed position during a normal operation. The first actuator (10) has a first end (10a) coupleable to a vehicle body pivotally about a first pivot axis (P1) and a second end (10b). The drive assembly also includes a bearing element connected (16) to the first actuator (10) and a coupling assembly (14) for coupling the first actuator (10) to the hinge assembly (2), comprising a first coupling part (15) having a first end (15a) and a second end (15b). The first end (15a) of the first coupling part (15) is coupled to one of the second hinge part (4) and first joint part (8) pivotally about a second pivot axis (P2). The bearing element (16) of the first actuator (10) is coupled to the second end (15b) of the first coupling part (15) pivotally about a third pivot axis (P3) spaced apart from the second pivot axis (P2). The drive assembly provides a possibility to move a vehicle flap drivingly between a closed and an opened position and further provides a reliable pedestrian protection function.