A set containing a first building element, a first building panel a second building panel and a coupling element for assembling the first building panel and the second building panel to the first building element. The coupling element has a locking portion configured to cooperate with a first mechanical locking device of a first edge or of a second edge of the first building element. The coupling element also has a connecting portion configured to cooperate with a second mechanical locking device of an edge of a building panel. The second mechanical locking device is configured for locking the first and second building panels and including a locking tongue and a tongue groove having a locking strip with an upper surface.

In certain embodiments, a panel installation method includes attaching first and second support anchors to a substrate, with the second support anchor spaced apart from the first support anchor. Each support anchor is elongated and includes a base for attaching to the substrate and respective projections extending outwardly from the bases. A tab extends upwardly from the first support anchor's projection, and a prong extends from the second support anchor's base. The method includes mounting a panel having first and second ends to the substrate via the first and second support anchors, including coupling the first end to the first support anchor, coupling an interlocking bracket to the second end, and coupling the second end to the second support anchor by engaging the interlocking bracket with the prong. The method includes positioning a stabilizing insert in a gap between the interlocking bracket and the projection of the second support anchor.

In certain embodiments, a system includes a curtain wall member and a first curtain wall member mounting apparatus coupled to a first end of the curtain wall member. The first curtain wall member mounting apparatus includes a mounting plate and an arm having one or more projections. The first curtain wall member mounting apparatus engages with a first curtain wall member supporting channel having a vertically-disposed member and a horizontally-disposed supporting member having a receiving-and-retaining member extending from an end opposite the vertically-disposed member. The receiving-and-retaining member engages with a channel adjacent to one or more projections of the first curtain wall member mounting apparatus. The first curtain wall member mounting apparatus is adapted to be rotated into position such that a connection mechanism at a second end of the curtain wall member engages with a second curtain wall member supporting channel to retain the curtain wall member in position.

The present disclosure relates to a system of providing a façade wall for a building. In particular, the disclosure presents a series of frames and frameworks which are adapted to integrate with a number of different designs of masonry slips. These masonry slips are parts of bricks, or other building items and the like, which by means of appropriately placed slots can integrate and be held by lips and extensions on the frames. Corner units, soffit panelling and free standing archways are also possible by appropriate combination of the concepts described herein.

A wall cladding system includes a slab bracket, a connector tube, first and second façade panels, and first and second attachment rails. The slab bracket includes a base wall and first and second forward extending flanges defining a gap in which the connector tube is secured. The first attachment rail is secured along an upper edge the first façade panel and includes a mounting wall fastened to the connector tube and a support wall extending upward from the mounting wall, spaced from the connector tube to define a first slot. The second attachment rail is secured along a lower edge of the second façade panel and includes a downward extending hanger wall spaced apart from a rear surface of the second façade panel to define a second slot, with the hanger wall received in the first slot and the support wall received in the second slot.

Façade structure and/or wall structure for a building including tiles (1) and a support structure (2), in which the tiles (1) are received oriented in each case in a vertical plane. The support structure (2) has vertical tension elements (3), to which bearing bodies (4) are attached axially fixed. The vertical tension elements (3) are allocated to the tiles (1) in such a way that at least one of the vertical tension elements (3) allocated to a tile in each case passes through two holding elements (5) of the tile (1), namely a first holding element (5), which is arranged in a lower area of the tile, and a second holding element (5), which is arranged in an upper area of the tile (1). To mount the tiles on the vertical tension elements (3) it is provided that the bearing bodies (4) attached to the vertical tension elements cooperate with the holding elements (5).

A mounting rail for mounting tiles to a backing system of a building wall structure comprises a tile support linked with a back-fixing rail via a tile-support carrier. The tile-support carrier comprises an acoustic damper between the tile support and the back-fixing rail. This impedes the transmission of acoustic energy from the tiles to the backing system, and so improves the acoustic insolation while the mechanical stiffness of the tile-support carrying arm is maintained. The acoustic damper may be provided in the form of one or more angled bends, apertures, an obtusely angled connection of the tile-support carrier to the back-fixing rail or a connection of the tile-support carrier at an upper or lower end of the back-fixing rail, or combinations of two or more of these features.

A façade structure and/or wall structure for a building which includes comprises tiles (1) and a support structure (2), in which the tiles (1) are received oriented in each case in the vertical plane. The support structure (2) has taut tension elements (3) with bearing bodies (4) fastened thereto, wherein the taut tension elements (3) are preferably formed as taut support cables or as taut tension rods or the like. The several, or at least one, of the tiles (1) received in the support structure (2) are held directly or indirectly supported on the bearing bodies (4) with a weight-supporting bearing, and/or are held locked by means of the bearing bodies (4). The several or at least one of the bearing bodies (4) are or is attached axially fixed exclusively to tension elements (3) oriented vertically in the support structure (2).

An attachment system for attaching architectural facade panels to a wall, the attachment system having an elongated base rail, a Z-adjustment clip, an X-Y adjustment clip, and architectural panel. The base rail is configured to fasten to the wall. The Z-adjustment clip is configured to couple to the base rail. One or both of the fastening holes of the base rail or the fastening hole of the Z-adjustment clip are slots. The X-Y adjustment clip is configured to couple to the Z-adjustment clip. One or both of the fastening hole of the Z-adjustment clip or the fastening holes of the X-Y adjustment clip are slots. The architectural panel is configured to be secured to and supported by the X-Y adjustment clip. The slots allow for adjustment in each of the X, Y, and Z directions.

Girts, systems incorporating girts, and methods of using girts are disclosed. In some embodiments, the girts are formed via an efficient metal stamping and folding process. The girts have a high mechanical strength, are easily manufactured, allow for water drainage and air circulation, improve thermal performance, decrease sound transmission, and reduce material, transportation and labor costs relative to traditional girts.