The present invention discloses a sliding rail type low-obstacle linkage shower room and an installation method thereof. The shower room includes an upper rail and a lower rail, a fixed glass, a primary shower glass and a secondary shower glass. The lower rail is correspondingly provided at the secondary shower glass. A sliding block unit is installed on the secondary shower glass. The sliding block unit includes a fixed portion, a sliding groove and a guidance sliding portion. The fixed portion is provided correspondingly to the secondary shower glass. The sliding groove is used for receiving the primary shower glass to form a linkage. The guidance sliding portion is glidingly engaged with the lower rail. The linkage shower room has a simple structure which can be easily manufactured.

A horizontal garage door assembly includes a plurality of panels, which are pivotally connected at adjacent side edges. A top rail receives the plurality of panels and includes a first straight portion, a curved portion, and a second straight portion. A motor is positioned at a first end of the first straight portion, a tensioning mechanism is disposed on a first panel, a gear mechanism is positioned at a second end of the first straight portion. A connecting band connects the motor, the gear mechanism, and the tensioning mechanism to form a loop along a length of the top rail. The motor drives the connecting band such that the plurality of panels moves between a closed position, in which the plurality of panels is substantially received in the first straight portion, and an open position, in which the plurality of panels is substantially received in the second straight portion.

A magnetically levitating door is disclosed herein. The door may have a magnet that is repelled from a magnet of a track. The track may be disposed adjacent to a door opening. The track may have a stabilizing roller to maintain vertical alignment of the magnets used to levitate the door off of the track.

The present disclosure provides for a sliding (barn-style) door and methods and hardware for mounting. The sliding barn door includes a door slab and mounting hardware including a top extension and a bottom extension. The top and bottom extensions each have a rectangular face having substantially the same dimensions and configured to lengthen the height of the door slab.

Methods for releasably latching a sliding panel can include providing a striker coupled to a structure such that a sliding panel is movable relative to the striker, and providing a latch coupled to the sliding panel. The latch can be rotatable and include a striker interface to engage the striker, and the striker interface can at least partially define a striker opening to receive the striker. The latch can be rotatable to a latch position and to a receive/release position. The methods can include moving the sliding panel toward the striker with the latch in the receive/release position until the striker engages the striker interface of the latch causing the latch to move to the latch position where the striker is secured for striker opening of the latch, and causing the latch to move to the receive/release position facilitating release of the striker from the striker opening of the latch.

Panel assemblies for movable partitions include a panel and a protective clip covering at least a portion of a bottom surface of the panel. The panel includes channels defined between lateral edge portions and a back side surface of the panel. Tabs of the protective clip are positioned within corresponding channels. Movable partitions include at least one panel and at least one protective clip, which is assembled with the at least one panel and is coupled to a back side surface of the at least one panel. Tabs of the back portion of the at least one protective clip are inserted at least partially within two opposing channels of the at least one panel. Methods of attaching a protective clip to a panel of a movable partition include positioning tabs extending from longitudinal ends of the back portion of the protective clip within channels of the panel.

A movable wall panel system is disclosed. The movable wall panel system may include at least one monitoring system to monitor at least one area adjacent the movable wall panel system. The movable wall panel system may include a touch screen as part of an operator interface.

Provided is a tower of a wind turbine, having a hollow inner space and a door for opening and closing an aperture into the inner space, wherein the door is a sliding door, which is slidingly arranged on a tower aperture member attached to the tower, and which sliding door is at least partially sealed by a seal to the tower aperture member at least when the door is in the closed position.

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).

Elevator door arrangement includes door panel connected to door mechanism by an interface member. Door panel first fixation plate section and door mechanism second fixation plate section extend in horizontal and vertical planes respectively. Interface member has first and second interconnection plate sections extending parallel to the horizontal and vertical planes respectively. Third oblong through-hole extends in second horizontal direction in first fixation plate section, first oblong through-hole extends in first horizontal direction in first interconnection plate section transverse to the second horizontal direction, and second oblong through-hole extends in vertical direction in second fixation plate section. Door panel is fixed to interface member by a first fixation member vertically extending through the first and optionally the third through-holes and interface member is fixed to door mechanism by a second fixation member horizontally extending through the second through-hole establishing 2-dimensional or 3-dimensional door panel adjustability.