A tubular first housing, a motor part that is provided in the first housing, and an end damper and a damper member, one of which is provided on each of both ends in an axial direction of the motor part and absorbs vibration are provided, wherein the motor part is supported in a floating state by the first housing via the end damper and the damper member.

A top-loadable cargo trailer has one or more top doors mounted to a container using hinge assemblies which are located entirely within a perimeter of the container when the top door is closed. In this way, no part of the full width, length, or height of the container is taken up by overhanding hinges, and in jurisdictions limiting container width, length, and height no amount of container volume is sacrificed due to hinge overhang. The hinge assemblies have a compound, or dual hinge biased by a resistance mechanism such as a coil spring to provide an orderly opening and closing sequence of the top door. When fully open, the top door hangs vertically flush against the container wall, thus minimize hazard to works and equipment moving about the container.

A corner fitting for a door element, in particular for a glass door element, includes a first fitting element and a second fitting element, which each include, at least sectionwise, a locating portion. The locating portion includes an intermediate layer able to contact the door element. The fitting elements delimit the restraining area, wherein a holding element is in operative connection with a connecting element, which serves for supporting the door element on a center of rotation and/or an axis. At least one variably adjustable distancing element is disposed between the fitting elements outside the locating portions, wherein the distancing element forms a counter-bearing to the locating portions and the door element, which can be restrained in the restraining area.

A hinge for recessed installation between a door frame and a door panel that has first and second housings adapted for recessing in the door frame and an edge of the door panel, a pair of links having ends pivoted in the housings and pivoted together about a vertical axis extending in a vertical direction perpendicular to mutually perpendicular first and second horizontal directions, and two supports in the second housing in which the respective ends of the links are pivoted. A vertical connector body to which the supports are fixed is limitedly vertically movable in the first housing along with the supports and links. Respective pairs of guide faces on the connector body spaced apart in the vertical direction flank each of the supports.

A corner fitting for a door element, in particular for a glass door element, includes first and second fitting elements, which each include, at least sectionwise, a locating portion, which includes an intermediate layer able to contact the door element. The fitting elements delimit the restraining area, wherein a holding element is in operative connection with a connecting element, which serves for supporting the door element on a center of rotation and/or an axis. At least one exchangeable rigid distancing element is disposed between the fitting elements outside the locating portions. The distancing element forms a counter-bearing to the locating portions and the door element which can be restrained in the restraining area.

A sliding door mounting system for a vehicle includes a center track configured to support a sliding door between open and closed positions. The center track member includes a first zone and a second zone with a first bend disposed therebetween at a first angle. The center track member further includes a third zone and a second bend disposed between the second zone and the third zone at a second angle. A support part includes first and second zones and a portion of the center track member is coupled to an outer surface of the support part. The first zone of the support part includes a first thickness, and the second zone of the support part includes a second thickness. The second thickness of the second zone increases from a first end to a second end thereof

A three-dimensionally adjustable pivot set may support a pivotable element such as a door. A pivot set housing has an adjustable pivot hub adjustable in lateral dimensions by set screws passing through the housing, the set screws bearing against the pivot hub and being adapted to move the pivot hub in corresponding independent directions when turned. The pivot set is attached to a pivotable element by an adjustable-height assembly for adjustment in a third dimension.

A door hinge having two hinge leaves joined together at a knuckle defining a hinge axis about which the leaves are relatively pivotal and top and bottom sheet-metal parts forming a housing surrounding one of the hinge leaves. Two rotatable adjustment spindles are each journaled in the housing, rotatable about respective axes extending in a first direction perpendicular to the hinge axis, and operatively threadedly connected to the one leaf so that rotation of the spindles moves the one leaf in a first direction perpendicular to the hinge axis. A base plate between the parts is formed with respective threaded hole receiving the spindles, the base plate being secured to the one leaf for movement of the one leaf in a second direction perpendicular to the first direction relative to the base plate.

The invention relates to a three-dimensional adjustable hardware system. According to the invention, at least one of the hardware bodies (18) comprises at least one guide pin (28) for the purpose of adjusting the hardware system (10) in the z-direction and the housing, in which the at least hardware body is arranged, comprises at least one threaded pin (30, 32), wherein the guide pin (28) and thereby the hardware body (18) are moved relative to the housing in the z-direction when the threaded pin (30) is rotated. For the purpose of adjusting the hardware system in the x-direction at least one of the hardware bodies (16) accommodates at least one adjusting pin (34), which can be moved along the y-axis located in the xy-plane, and at least one surface (36, 38) of the adjusting pin (34) which is inclined with respect to the y-axis interacts with at least one sliding pin (40, 42), the movement of which along the x-axis located in the xy-plane being restricted by the housing (12) accommodating the at least one hardware body (16), and so the hardware body (16) can be moved relative to the housing (12) in the x-direction by adjusting the adjustment pin (34). For the purpose of adjusting the hardware system in the y-direction at least one housing (14) and the hardware body (18) arranged in said housing have at least one sliding guide (44) extending along the y-axis, along which the hardware body can be moved relative to the housing (14) in the y-direction.

A three-dimensionally adjustable hinge receives a pivotable element. A housing has an adjustable pivot support block inside adjusted in two directions by bolts extending through different walls of the housing and threaded into the pivot support to move the block in two different directions by turning the two different bolts. A supporting wedge with a threaded bolt moves the block the box-like enclosure in a third direction. Alternately, stacked adjusting plates with longitudinal bolts threaded through threaded openings in center sliders move the sliders in center slots aligned in different directions in the different plates to adjust a pivotable element attached to a top plate in two different directions. The plate assembly is pivotally attached to a base by an adjustable height bolt assembly for adjustment in a third direction.