Disclosed is a silent, soft-close compact hinge comprising of a hinge cup pivotally connected to a hinge body via a hinge arm. A set of coil springs biases the hinge to a closed position. A damping mechanism is removably attached to the hinge cup and acted on by the hinge arm. A set of spring sleeves are fitted to the coil springs to insulate the movement of the coil springs on the hinge arm providing the closing bias. The hinge body is comprised of three separate plates adjustably connected to each other with cam screws. The position of the hinge body with respect to the hinge arm is adjustable in three directions without the need for removal or loosening of mounting hardware used to attach the hinge body to a furniture piece.

A sliding door roller system comprises a roller housing comprising a pair of generally vertical side members and an integral base portion including a projection on an inner surface thereof, the roller housing at least partially disposed within an outer housing; at least one roller wheel rotatably coupled to the roller housing; an outer housing moveable relative to the roller housing and the at least one roller wheel in a direction perpendicular to a rotational axis of the at least one roller wheel; and a rotatable adjustment mechanism coupled to the roller housing and the outer housing. The adjustment mechanism is rotatable from an exterior of the outer housing and is adapted to index the outer housing relative to the roller housing in a plurality of height positions in situ under load of a panel secured to the outer housing.

A sliding device for doors and (24) wardrobe doors provided with multiple adjustments consists of a carriage or slider (10), provided with rollers or bearings (22) for sliding the doors to which a profile section (28) is secured having an embossed and shaped portion (22 of a shape complementary to the profile section of said rollers (22). The carriage or slider (10) comprises a first body or front body (12), having a substantially rectangular plan, and a second body or rear body (14) intended to be connected to the first front body (12); said rear body (14) is provided with opposed substantially cylindrical appendages (16, 18) with a vertical passing-through hole (32) in which respective cylindrical bodies are inserted along which an offset and passing-through threaded hole (36) is bored, to form as many eccentrics (34). In each of the holes (36) a threaded stem or screw (38) is entered, which protrudes from the upper side of the front body (12) on which corresponding holes or slots (32y) are bored.

The invention relates to a device for securing panes of glass for sliding doors, made up of a rear plate (3) on which a rolling element (2) is supported which is configured to enable the movement of the securing device (1) along a profile (F) of a sliding door (P), and a first front plate (4) and a second front plate (5) facing the rear plate (3) and able to be coupled to it, defining an intermediate mortise (7) for securing a pane of glass (H). Said securing device (1) comprises a third front plate (6) facing the rear plate (3) and able to be coupled to it, arranged between the first front plate (4) and the second front plate (5).

A hinge, in particular a multi-joint hinge, has a mounting plate fixable on a body or a door and a side part, which is held on the mounting plate and on which a hinge part is pivotably mounted, wherein the side part is displaceable on the mounting plate in a longitudinal direction via a depth adjustment unit and the side part is pivotable in relation to the mounting plate by a vertical adjustment unit.

A roller partition wall comprises a ceiling bracket, a floor bracket, a partition wall, and a plurality of rollers. A bottom surface of the ceiling bracket forms a first sliding slot, a top surface of the floor bracket forms a second sliding slot corresponding to the first sliding slot, a top surface and a bottom surface of the partition wall are respectively inserted into the first sliding slot and the second sliding slot, and the partition wall is capable of movably disposing between the first sliding slot and the second sliding slot. The rollers are disposed in the second sliding slot and are between the partition wall and the second sliding slot. Since the partition wall is disposed between the ceiling bracket and the floor bracket, the partition wall can be moved left and right between the ceiling bracket and the floor bracket during shaking in an earthquake.

The present invention relates to a door device for closing a door opening between two rooms of a building. The door device comprises a door leaf and a pivot hinge for pivotably suspending the door leaf in the door opening. The pivot hinge comprises a hinge foot which is attached to a hardening surrounding the door opening by means of wall attachment means. The pivot hinge furthermore comprises, for each wall attachment means, an insert with at least two pairs of parallel faces and a central opening which is eccentric with respect to the central axis, so that the orientation of the insert can influence the orientation of the door leaf in the closed position.

A door drive for a motor vehicle door or motor vehicle flap, which is provided with an electromotive drive, a transmission downstream of the drive, and a force-transmission element. The force-transmission element is operatively connected to a leaf of the motor vehicle door or motor vehicle flap. An output element of the transmission and the force-transmission element are coupled by a toothing with compensation for play. According to the invention, the output element and/or the force-transmission element are not only designed to be moveable for play compensation, but can also be permanently fixed after the compensation for play.

A pivot sliding door guiding device includes a longitudinal profile with a guiding track and slider, supported on support rollers in a linearly movable manner in the guiding track, and which is connected to a door leaf and transfers a bearing load onto the slider. In the guiding track, convex bearing members extending in the longitudinal direction are disposed, on which support rollers of the slider with, in each case, peripherally extending concave guiding grooves roll and are retained in the transverse direction. The door leaf is connected to the slider whereby a center of gravity acts off-center on the slider in running and transverse directions. The slider has support rollers which serve for the load transfer of the load acting from the door leaf on the slider. The rollers roll on upper and lower convex bearing members, and transfer load of the door leaf via the convex bearing members.

Systems and methods are disclosed for preventing a display component of a portable information handling system from opening when in an upside down position. The portable information handling system may include a base component coupled to the display component by a gravity lockout hinge. The gravity lockout hinge may include a shaft, a bearing channel having a bearing channel surface opposite the shaft, and a movable bearing disposed in the bearing channel. The gravity lockout hinge may, when the portable information handling system is in an upside down position and a gravitational force is exerted on the display component, exert a first frictional torque on the shaft that may cause the movable bearing to contact the shaft and the bearing channel surface, and exert a second frictional torque on the shaft that may prevent an angular position of the display component relative to the base component from being changed.