An active hinge including a hood bracket for attachment to a vehicle hood, a body bracket for attachment to a vehicle body, and a deploy bracket pivotally connected to the hood bracket and the body bracket. A pawl is pivotally connected to one of the hood bracket and the deploy bracket. A bolt is fixed to one of the hood bracket and the deploy bracket. The pawl is moveable between an unlocked position in which the pawl is spaced from the bolt, and a locked position wherein the pawl engages the bolt to fix the hood bracket to the deploy bracket. An actuator is configured to move the locking hook from the first to the second position and to cause the hood bracket to move. At least one locking element limits movement of the hood bracket relative to the body bracket.

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 lifting apparatus (100) includes a connector assembly (110) with a first connecting member (120), a second connecting member (130) and a connecting link (140), the first and second connecting members (120, 130) configured to be pivot-mounted at first ends (122, 132) to a first stationary component (200), and a pneumatic supporting member (150) is coupled to the first and second connecting members (120, 130) via the connecting link (140). The connector assembly (110) and the pneumatic supporting member (150) are configured to perform a lifting motion, wherein, when performing the lifting motion, the first and second connecting members (120, 130) transition from a first position (P1) to a second position (P2) and the pneumatic supporting member (150) transitions from an extended position (EP) to a compressed position (CP).

A hinge assembly for assisting in moving a pivotal closure member from a closed position toward an open position relative to a motor vehicle body and for releasably holding the closure member in the open position, and method of construction thereof are provided. The hinge assembly has a first mount member configured for operable connection to one of the closure member and the motor vehicle body; a second mount member configured for operable connection to the other of the closure member and the motor vehicle body; at least one linkage operably coupling the first mount member to the second mount member; and at least one elastically deformable joint coupling the at least one linkage to at least one of the first mount member and the second mount member.

The present invention is directed to a 4-bar kinematic link component and method for forming the 4-bar kinematic link using a single rotary molding tool. The invention eliminates the need to form individual components of the bracket from several different tools, which will then requires additional assembly steps. The 4-bar kinematic link is formed from two different materials each having a different in mold shrinkage value. This allows for hinge pins to be formed through a base component in a way that will prevent sticking of the components together thereby allowing the parts to have it relative to one another using the hinge pin. The final component is a 4-bar kinematic link that can be used as a 4 bar link mechanism for providing motion.

An active hinge including a hood bracket for attachment to a vehicle hood and a body bracket for attachment to a vehicle body. A deploy bracket is pivotally attached to the hood bracket and the body bracket. The hood bracket is pivotable relative to the deploy bracket between a non-deployed position and a deployed position. At least one link interconnects, and is pivotally connected to the deploy bracket and the body bracket. A pawl is pivotally mounted to one of the hood bracket, the body bracket, the deploy bracket, and the at least one link. A bolt for engagement by the pawl is connected to another of the hood bracket, the body bracket, the deploy bracket, and the at least one link. An actuator is provided for disengaging the pawl from the bolt to allow the deploy bracket to move relative to the hood bracket and the body bracket.

The disclosure provides a bonnet hinge structure. The bonnet hinge structure pivotally supports the bonnet to the vehicle body from the rear end of the bonnet, and includes: a lower hinge member fixed to the vehicle body; an upper hinge member fixed to the bonnet fixing portion of the bonnet, and pivotally connected to the lower hinge member in a manner of being able to rotate to a first height relative to the lower hinge member in the up-down direction of the vehicle body; and a rotation suppressing portion provided with a deviation restricting member. When the upper hinge member is deformed in the left-right direction of the vehicle body, the deviation restricting member comes into contact with the upper hinge member at a position of the second height lower than the first height from the top of the upper hinge member, and prevents the upper hinge member from rotating.

A power trunk device includes a hinge arm coupled to a trunk lid and configured to be rotatably coupled to a vehicle body panel to define a trunk space, the hinge arm being configured to open and close the trunk lid, a torsion bar link rotatably coupled to a middle of the hinge arm, a torsion bar connected between the torsion bar link and the vehicle body panel in front of the hinge arm, the torsion bar being configured to provide elastic force in a direction in which the trunk lid is opened, and an electric drive unit connected between the hinge arm and the torsion bar, the electric drive unit being configured to be moved together with the hinge arm while providing rotational force to the hinge arm.

The disclosure provides a bonnet hinge structure. The bonnet hinge structure pivotally supports the bonnet to the vehicle body from the rear end of the bonnet, and includes: a lower hinge member fixed to the vehicle body; an upper hinge member fixed to the bonnet fixing portion of the bonnet, and pivotally connected to the lower hinge member in a manner of being able to rotate to a first height relative to the lower hinge member in the up-down direction of the vehicle body; and a rotation suppressing portion provided with a deviation restricting member. When the upper hinge member is deformed in the left-right direction of the vehicle body, the deviation restricting member comes into contact with the upper hinge member at a position of the second height lower than the first height from the top of the upper hinge member, and prevents the upper hinge member from rotating.

A lifting apparatus (100) includes a connector assembly (110) with a first connecting member (120), a second connecting member (130) and a connecting link (140), the first and second connecting members (120, 130) configured to be pivot-mounted at first ends (122, 132) to a first stationary component (200), and a pneumatic supporting member (150) is coupled to the first and second connecting members (120, 130) via the connecting link (140). The connector assembly (110) and the pneumatic supporting member (150) are configured to perform a lifting motion, wherein, when performing the lifting motion, the first and second connecting members (120, 130) transition from a first position (P1) to a second position (P2) and the pneumatic supporting member (150) transitions from an extended position (EP) to a compressed position (CP).