In an aspect, a vehicular door hinge is provided and includes a door-hinge component that is configured to mount to a vehicle door and a body-hinge component that is configured to mount to a vehicle body. The door hinge component is pivotally mounted to the body hinge component. A first one of the door- and body-hinge components is made from folded sheet metal and has a fold. Each of the door- and body-hinge components has a stop surface that is engageable with the stop surface on the other of the door- and body-hinge components to limit relative pivoting movement between the door- and body-hinge components. The stop surface on the first of the door- and body-hinge components is at the fold.

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 sliding door assembly (200) comprising at least one sliding door leaf (121, 122), a sliding door rail (110), a door operating assembly (100) for operating the at least one sliding door leaf (121, 122), comprising a drive unit (112) being configured to drive the at least one sliding door leaf (121, 122) along the sliding door rail (110), at least one wagon member (130) movable along the sliding door rail (110), each sliding door leaf (121, 122) having one of the at least one wagon member (130) attached thereto, said one of the at least one wagon member (130) being in driving connection with the drive unit (112), an electric component (61, 62) mounted to the sliding door leaf (121, 122) and a cable arrangement (70) for transferring power and/or communication signals between the door operating assembly (100) and the electric component (61, 62). The cable arrangement (70) is routed to the electric component (61, 62) from the door operating assembly (100). The cable arrangement (70) comprises a flexible portion (73, 74) having an end section which is fix in relation to the sliding door leaf (121, 122) to allow for extension of the flexible portion (73, 74) to compensate for the movement of said sliding door leaf (121, 122).

Theft-resistant enclosure systems may include an enclosure having an enclosure interior. An enclosure door may be carried by the enclosure. The enclosure door may be selectively positional in opened and closed positions and selectively lockable in the closed position. At least one enclosure mount member may extend through the enclosure interior of the enclosure. At least one anchoring device may anchor the at least one enclosure mount member outside the enclosure interior of the enclosure. At least one enclosure mounting assembly may be disposed in the enclosure interior of the enclosure. The at least one enclosure mounting assembly may secure the enclosure to the at least one enclosure mount member. Theft-resistant enclosure installation methods are also disclosed.

A first side wall portion forming a body portion of a clamping member includes first convex members projecting toward a second side wall portion and being softer than the first side wall portion. The first convex members are disposed at positions of the first side wall portion adjacent to respective ends of the first side wall portion in an X axial direction (third direction).

Provided is a damping hinge for controlled closing of a door or gate. The damping hinge includes a first clamp plate configured to be mounted to a fixed supporting panel; a second clamp plate configured to be mounted to a panel of the door or gate, wherein the second clamp plate is connected with the first clamp plate for relative rotation about a hinge axis; and a damping mechanism arranged on at least one of the first clamp plate and the second clamp plate including a damper arranged substantially parallel to the hinge axis and configured to impact relative rotation of the second clamp plate towards the first clamp plate during closing of the hinge. The damping mechanism may be arranged such that the damping mechanism may be located outside of a plane of the respective panel and adjacent or next to an outer or facing surface of that panel.

A sliding door roller assembly includes a roller housing being at least partially disposed within an outer housing moveable relative to the roller housing and at least one roller wheel in a direction perpendicular to a rotational axis of the at least one roller wheel. At least one resilient member is positioned at an end of the outer housing, and includes a fixed termination section coupled to an end member of the outer housing, a compliant section extending from the fixed termination section, a curved engagement section, and a resilient section between the compliant section and the curved engagement section and pivotable about the compliant section. The at least one resilient member is flexible from a first position to a second position when the curved engagement section mates with an inner surface of a slot defining a bottom edge of a panel secured to the outer housing to provide a holding force between the resilient member and the inner surface of the slot.

A first side wall portion forming a body portion of a clamping member includes first convex members projecting toward a second side wall portion and being softer than the first side wall portion. The first convex members are disposed at positions of the first side wall portion adjacent to respective ends of the first side wall portion in an X axial direction (third direction).

An object is to provide a hinge which can attach a supporting part for supporting rotatably a holder part easily to the holder part holding the door. A hinge comprises a holder part for holding a door (front-side body receiving a left-and-right adjustment segment and back-side body), a supporting part for supporting rotatably the holder part (resin bush inserted in a rotation shaft), and a connection part (resin catcher) for connecting the holder part to the supporting part, and the resin catcher comprises an attachment part (recesses) for attaching to the holder part and a pawl for gripping elastically the supporting part.

A hinge bracket assembly includes an anchor plate. A retention member extends perpendicular to the anchor plate. The anchor plate defines a first receiving aperture. A hinge plate is aligned with the anchor plate and includes a hinge arm and a protrusion. The protrusion extends from an edge of the hinge plate opposite the hinge arm. The hinge plate defines a second receiving aperture aligned with the first receiving aperture when the protrusion is received by a space defined by the retention member. A locking arm is rotatable between an unlocked position and a locked position and is configured to be at least partially received by the first and second receiving apertures to couple the anchor plate and the hinge plate.