An articulated attachment assembly and a rail system and method of installation for rail installations in which there is an elevational change between vertical supports, in which the articulated attachment assembly eliminates the need for field mitering of components and provides instead a first articulated hinge assembly having a first mounting block to be attached to the first support, a second mounting block to be attached to the first rail connection block, and a hinge member to couple the second mounting block to the first mounting block and enable the second mounting block, the first rail connection block, and the rail to pivot together relative to the first mounting block and the first support.

A door which is adjustable in length and breadth is defined by an outer sash having a generally rectangular configuration. A hinge side of the sash nests within a U-sweep member running along its length. The U-sweep member interfaces with the sash through a step adjust adaptor secured to a hinge side member of the sash and extending along at least one of its inner and outer faces. The step adjust adaptor interfaces with the U-sweep member through a series of spaced apart detents which may be ridges and grooves to provide incremental adjustment of the breadth of the door. An L-sweeper is securable to a bottom member of the sash and is adjustable to vary a length (height) of the door.

A furniture fitting includes a first fitting portion to be fixed to a furniture carcass, and a second fitting portion to be fixed to a movable furniture part, the two fitting portions being pivotally connected by a hinge axis member. The first fitting portion can be inserted into a recess in the furniture carcass, and/or the second fitting portion can be inserted into a recess in the movable furniture part. The first fitting portion and/or the second fitting portion includes a longitudinal housing having two end sections spaced apart. The hinge axis member is arranged on a first end section of the housing, and the first fitting portion and/or the second fitting portion includes a fastening device having a movably-mounted actuating element formed as a rotatable screw. By actuating the actuating element, at least one fitting portion can be fixed within the recess on both end sections of the housing.

Disclosed is a hinge assembly comprising a first hinge leaf assembly and a second hinge leaf assembly, each having their respective hinge leaf. The first hinge leaf assembly is connectable to the second hinge leaf assembly and when so connected the first hinge leaf assembly is rotatable relative to the second hinge leaf assembly about an axis. The hinge assembly further comprises at least one mounting member fixable to a moveable barrier or a structure through a fixing arrangement. The first and/or second hinge leaf is connectable to the at least one mounting member so as to be adjustable relative thereto in a least one direction. A locking arrangement is also included to releasably lock the first and/or second hinge leaf to the at least one mounting member. The locking arrangement is operative to adopt a hold condition where relative movement between the first and/or second hinge leaf and the at least one mounting ember is prevented, and a released condition where the first and/or second hinge leaf is able to be adjusted relative to the at least one mounting member. The locking arrangement includes a locking element disposed between the first and/or second hinge leaf and the at least one mounting member, and movable relative to both the first and/or second hinge leaf and the at least one mounting member to cause the locking arrangement to adopt the hold condition or the released condition.

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 hinge for a swinging gate includes a base plate, a hinge base pivotally secured to the base plate and a mounting member connected in spaced apart relation to the hinge base by an elongate bolt. A gate-engaging member is secured to the mounting member so that pivoting of the hinge base effects conjoint pivoting of the mounting member, the gate-engaging member and a gate that it engages. An upstanding post has a pair of laterally spaced apart T-shaped slots that extend along its height. A bolt disposed within a T-shaped slot is disposed horizontally and cannot rotate. The bolts housed in a T-shaped slot screw-threadedly engage apertures formed in the corners of the base plate to secure the base plate to the upstanding post. In a second embodiment, a cantilever gate supported by a trolley assembly is secured in cantilever relation to at least one upstanding post.

A gate comprises a spring-loaded hinge arrangement defining a rotational axis. A gate structure having a first support arm connected to a first end of the hinge arrangement is also provided. The gate structure is rotatable about the rotational axis. A spring-loaded hinge arrangement includes an outer hinge tube fixedly connectable to an adjacent structure and an inner hinge tube received in the outer hinge tube. The inner hinge tube has a first portion and a second portion movable with respect to each other, the second portion of the inner hinge tube being fixed with respect to the outer hinge tube and the first portion of the inner hinge tube being fixed with respect to the support arm.

A mounting position adjustment mechanism for a rotating door that is mounted to be rotatable around a shaft includes a base member, a support member, an adjuster, and a fixing member. The base member is configured to be fixed to a door body of the rotating door. The support member is coupled to the base member at one end side of the shaft to be movable along a door surface of the rotation door in a direction orthogonal to the shaft. The adjuster is configured to adjust a position of the support member with respect to the base member in the direction orthogonal to the shaft. The fixing member is configured to fix the support member to the base member at two or more positions on the one end side of the shaft.

This disclosure relates to an adjustable hinge assembly for an automobile tailgate. The hinge assembly includes a first mounting plate configured for mounting to an automobile body, a first hinge member attached to the first mounting plate, a second mounting plate configured for mounting to a tailgate, and a second hinge member attached to the second mounting plate. The first and second hinge members are hingedly connected. Adjustment screws are positioned on the hinge assembly to adjust the position of the first hinge member on the first mounting plate in the x and y-directions. An adjustment screw is positioned on the hinge assembly to adjust the position of the second hinge member on the second mounting plate in the z-direction. This is accomplished with minimal effort and tooling.

The present disclosure provides a structure configured to preset an automatic positioning duration to enable hinge blades to be automatically closed, the structure two hinge blades, a threaded sleeve, a fixed rod, a first spring, a electromagnet suction disk, a DC power supply electromagnet, a DC power supply timing controller, a remote control, a plug, and an adjusting base. The two hinge blades are configured to rotate relative to each other, each of the two hinge blades comprises a shaft sleeve and a blade fixed on an outer side of the shaft sleeve, the fixed rod comprises a threaded rod, the threaded sleeve comprises a transmission rod fixed in the shaft sleeve of the two hinge blades, the plug is fixedly disposed in the shaft sleeve of the two hinge blades, the threaded sleeve is separated from the plug, and the fixed rod, the first spring, the electromagnet suction disk, the power supply electromagnet, a bearing, and the adjusting base are disposed between the threaded sleeve and the plug disposed in the shaft sleeve of the two hinge blades. When the hinge blades reach the automatic positioning time preset by the timing controller, so that the hinge blades synchronously cooperates with the demagnetization time point preset by the timing controller. At the same time, the elastic force energy storage of the first spring changes and releases. An application of the present disclosure is wide, and has good industrial applicability.