Interlock assemblies for sliding fenestration systems that provide for adjustment of the position and/or shape of the interlock assemblies and methods of adjusting the position and/or shape of the interlock assemblies are described herein. The interlock assemblies for sliding fenestration systems may be adjusted after installation to accommodate changes in the position and/or shape of the sides of building opening on which a stationary interlock structure is mounted.

A frame assembly with sliding panels is described. The frame assembly includes a frame having an upper section opposite of a lower section. The lower section of the frame defines a first channel and a second channel. A first sliding panel includes a first lower edge. A first panel support is removably engaged to the first lower edge. The first panel support includes a first holding member that engages to the first lower edge. The first panel support slides in the first channel. A second sliding panel includes a second lower edge. A second panel support is removably engaged to the second lower edge. The second panel support includes a second holding member that engages to the second lower edge. The second panel support slides in the second channel.

A frame assembly, for use in window and door applications configured to retain a panel, comprising a frame with a cover assembly and a support assembly having a track assembly, and a sill assembly and a header assembly both interconnected to a securing surface. The cover assembly is interconnected to the support assembly. The sill assembly comprises a roller member disposed in supporting relation to the track assembly, and the header assembly is disposed in supporting relation to the support assembly so that the frame is movable relative to both the header assembly and the sill assembly. At least a portion of the frame comprises a predetermined thickness and a predetermined width. The predetermined thickness is substantially less than the predetermined width so that both cooperatively and concurrently enhance viewing through the panel and the frame's stability.

A fitting assembly has a device for securing against operating errors that has a first protrusion which can be moved relative to a second protrusion by means of a first operating rod assembly. A buffer can be provided between the end sides of the first protrusion and the second protrusion. The first protrusion can be a cylinder and/or the second protrusion can extend in an elongated manner. The fitting assembly can have an anti-lifting device with a third protrusion which prevents a lifting of the first leaf. The fitting assembly has multiple carriages and multiple sliders in order to position leaves of the window or the door into their slide position in parallel with the main plane of the window or the door. In the blocking position, the leaves can be pressed against a fixed frame of the window or the door via the fitting assembly with multiple carriages and multiple sliders, in order to reliably seal the window or the door.

A door pusher for a multi-rail sliding door is described. An example door pusher includes (i) a mounting portion secured to the at least one stile of the a sliding door panel using a fastener aligned with a sliding direction of the sliding door panel, and (ii) a bumper portion configured to contact an edge of an adjacent sliding door panel.

A sliding rail low-obstacle linkage shower room include an upper rail and a lower rail, a fixed glass, a primary shower glass and a secondary shower glass. The lower rail is correspondingly fixed on a bottom of the secondary shower glass. A sliding block unit is installed on the lower rail. The sliding block unit includes a fixed portion, a sliding groove and a guidance sliding portion. The fixed portion is fixed on the bottom of the secondary shower glass. A bottom of the primary shower glass is inserted into the sliding groove 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.

Provided are door systems having a plurality of door panels and a frame, the door panels being movable between an extended position closing an opening in a building structure, and a folded retracted position. When in the extended position, the door panels interlock with each other forming a barrier to wind, dirt, dust and insects. The frame is movably attached to the building structure and when the door panels are in the extended position, the frame moves and engages the door panels with a sealing member to provide an airtight seal of the opening in the building structure.

A door apparatus for closing an access opening and to a parking apparatus equipped therewith. The door apparatus has two vertically aligned guide rails and an inner and an outer door element which are each movably mounted in/on a vertically aligned inner or outer guide of the guide rails. In a closed position, the inner door element is arranged in a first region of the access opening which is situated lower than a second region in which the outer door element is arranged. In an open position, the inner and the outer door element are arranged in a third region of the access opening which is situated higher than the first and the second region. Furthermore, the door apparatus has a locking element and a coupling element.

A sliding door assembly comprises a plurality of door panels for coordinated movement along an upper guide track. A bracket is mounted to the upper end of one of the door panels. The bracket comprises an elongated member and defines a plurality of openings for receiving fasteners and roller mechanisms. At least one roller mechanism is secured to each of the door panels and slidably received within the upper guide track. A pair of pulleys is secured to the bracket for carrying an endless cable and the door panels are secured to the cable. In a fully open position, a first outer door panel of the door panels is secured to the cable of the immediately adjacent door panel at a side of the immediately adjacent door panel opposite to the lead edge.

A door system includes a track spanning a doorway defined by a trailing jamb and an opposing lead jamb, a sidelite panel coupled to the trailing jamb by a swing clear hinge, and first and second slide panels moveable within the track. The trailing jamb includes a jamb face facing in a first direction. The swing clear hinge includes a fixed portion engaged with a revolving portion. The fixed portion is offset from the jamb face in a second direction and secured by a jamb attachment member to the jamb face. The first and second slide panels have an open configuration in the track with the revolving portion offset from the jamb face in the second direction. The panels are configured to pivot out of the track into a breakout configuration. The sidelite panel is offset from the jamb face in the second direction in the breakout configuration.