According to examples, an apparatus may include a body on which a scanning surface is supported, a lid to cover the scanning surface, and a hinge to rotatably couple the lid to the body. In some examples, the apparatus may include a hinge support assembly disposed on the body. The hinge support assembly may include a first engagement member that may extend from the lid and a second engagement member that may extend from the body. The first engagement member may engage the second engagement member when the lid is in a certain position relative to the scanning surface. The first engagement member may contact the second engagement member to restrict a lateral movement of the lid relative to the hinge.

Disclosed is a door hinge limiting assembly for a motor vehicle comprising a pillar bracket, a door bracket, and a flexible check strap. The pillar bracket is configured to fit on the aft-side and interior-side of the door pillar and to complement the pillar's nonplanar profile. Rather than being secured to the door pillar, the pillar bracket is secured to the forward wall in the footwell region, with the aforesaid configuration producing an interference fit with the door pillar. The strap may be comprised of nylon webbing or similar material, and in some embodiments may comprise an elastic strap to promote convenient folding.

A vehicle barrier gate system which is positioned above a roadway through which vehicles pass. Some of the various embodiments of the present disclosure include a gate comprised of an arm and barrier which is adjustable between a raised position in which a vehicle may pass and a lowered position in which a vehicle is prevented from passing. The gate may be movably connected to a ceiling or an overhead support structure positioned above the roadway. Various types of actuators may be utilized to adjust the gate along a linear and/or angular path between the raised and lowered positions. A control unit may be in communication with one or more sensors and/or an authorization system to control the actuator. The gate may include a breakaway mechanism which allows the gate to be manually raised or lowered in the event of actuator failure or a vehicle ramming through the gate.

A system for managing opening and closing a pocket door includes a spindle, an actuator, and brackets. The spindle extends along a longitudinal axis between first and second ends, and is configured to be coupled to the pocket door. The actuator is coupled to the spindle and is configured to cause the spindle to move axially along the longitudinal axis. The brackets are connected to the spindle at each end and are constrained from longitudinal motion relative to the spindle. The brackets are configured to affix the spindle to the pocket door. A bushing system couples each bracket to the spindle and is configured to dampen impact between the spindle and the brackets. For example, the bushing system may include lobed elements, made of a rubber material, that engage each other to transmit azimuthal forces. In some embodiments, another actuator is included to improve cycle life and redundancy.

A vehicle body with a shell-type design includes at least one lateral frame, a tailgate frame which is connected to a node of the vehicle body by the lateral frame, and a reinforcing component which extends from the tailgate frame into the lateral frame. The tailgate frame and the lateral frame are each composed of an upper shell and a lower shell, and the reinforcing component is arranged between the upper and lower shells of the tailgate frame and the lateral frame. A hinge reinforcement for a hinge of a tailgate is formed in the reinforcing component in the region of the tailgate frame.

A window lift assembly for adjusting a window pane, including a carrier, a flexible traction means for transferring an adjusting force for adjusting the window pane and a deflecting piece, which is non-rotatably arranged on the carrier and has a guide channel for deflecting the traction means in a guide plane. To retain the traction means in the guide channel, at least one securing element on the carrier and at least one securing section are provided, the at least one securing element and the at least one securing section may be formed so that if sections of the traction means are displaced out of the guide channel toward the securing element and the traction means thus contacts the securing element, the securing section continues to block the traction means against a displacement transverse to the guide plane out of the guide channel.

A furnishing element hinge movably connecting a door to a fixed structure of a furnishing element is provided. The fixed structure rests on a support surface and delimits a compartment. The furnishing element hinge has a fixed hinge part connected to the fixed structure and a movable hinge part connected to the door. The movable hinge part is movable at least rotatably with respect to the fixed hinge part at least between a first position, adapted to open the compartment, and a second position, adapted to close the compartment. The furnishing element hinge has a support foot connected to the fixed hinge part and resting on the support surface to unload at least the weight of the door directly onto the support surface.

A hold-open arrester arrangement has a low power consumption, and therefore a battery lifetime is long in the embodiments of the invention utilizing the battery. The hold-open arrester arrangement has a hold-open arrester arrangement having a hold-open function to hold a door open. The arrangement has also an electric release arrangement. The release arrangement is arranged to release the hold-open function in a fire alarm situation. The hold-open arrester arrangement comprises a sliding block and an arrester unit. The sliding block is connectable with a slide rail in a sliding manner and also pivotable connectable to an arm of a door closer. The arrester unit is connectable to the slide rail and has a body, said electric release arrangement, and said hold-open function with the sliding block.

A furnishing element hinge movably connecting a door to a fixed structure of a furnishing element is provided. The fixed structure rests on a support surface and delimits a compartment. The furnishing element hinge has a fixed hinge part connected to the fixed structure and a movable hinge part connected to the door. The movable hinge part is movable at least rotatably with respect to the fixed hinge part at least between a first position, adapted to open the compartment, and a second position, adapted to close the compartment. The furnishing element hinge has a support foot connected to the fixed hinge part and resting on the support surface to unload at least the weight of the door directly onto the support surface.

A system for managing opening and closing a pocket door includes a spindle, an actuator, and brackets. The spindle extends along a longitudinal axis between first and second ends, and is configured to be coupled to the pocket door. The actuator is coupled to the spindle and is configured to cause the spindle to move axially along the longitudinal axis. The brackets are connected to the spindle at each end and are constrained from longitudinal motion relative to the spindle. The brackets are configured to affix the spindle to the pocket door. A bushing system couples each bracket to the spindle and is configured to dampen impact between the spindle and the brackets. For example, the bushing system may include lobed elements, made of a rubber material, that engage each other to transmit azimuthal forces. In some embodiments, another actuator is included to improve cycle like and redundancy.