A coupling system for mounting a tile to an outer surface of a building is disclosed. In one embodiment, the coupling system includes support tracks arranged and configured to couple the tile to the building. The support tracks may include integrally formed clips for coupling with the tiles. The clips may be arranged and configured to couple to a top portion of a lower tile and a bottom portion of an upper tile. Additionally, and/or alternatively, the coupling system may include a gasket coupled to the support tracks. The gasket may include first and second arms. The support tracks may include integrally formed, first and second inwardly extending legs for receiving the first and second arms, respectively, of the gasket. In use, the coupling system facilitates faster and easier manufacturability and assembly as compared to other known systems thus providing a more cost-effective solution, particularly when used with smaller tiles.

A connecting device for connecting a first building element and first building panel, the connecting device including at least one primary connecting means extending in a direction along a primary axis and configured to cooperate with a first mechanical locking system of a first edge of the first building element, to obtain an assembled position therewith, preferably by means of a folding displacement of the connecting device about the primary axis, to thereby lock the connecting device from displacement along a secondary axis and a perpendicular tertiary axis each being orthogonal the primary axis. The connecting device includes secondary connecting means extending in a direction along the tertiary axis and configured to cooperate with a second mechanical locking system of respective first and opposite second edges of the first and preferably second building panel, wherein the connecting device further includes tertiary means for cooperating with the first panel.

A fastener unit and related method for securing a board to a support is provided. The fastener unit includes a spacer block, a grip element extending from the spacer block and configured to fit in and engage a groove of the board, and one or more board engagement elements. The board engagement elements can engage the groove of the board, thereby securing the spacer block in a position adjacent the groove to establish a gap between the board and another board. Related methods of use also are provided.

A cladding or siding assembly for use as cladding or siding for a wall of a building or structure having a face includes at least one panel member and at least two parallel and spaced support rail members which are arranged to allow at least one panel member to slidably interfit in between the support rail members, to be located and be removable at any time during construction or any time later after completion. The panel member is slotted between an upper support rail member and a parallel lower support rail member, whereby at an upper end of the panel member recess slidably interfits with the lower tab member of the upper support rail member having second end leg of perimeter frame within lower recess and the recess at a lower end of the same panel member slidably captures shorter upper tab member of the lower support rail member whereby second end leg is captured in upper recess of lower support rail member. A panel member and method of assembly are also disclosed.

A frame for retaining one or more masonry slips is provided. The one or more masonry slips each have at least two slots formed on at least two sides thereof. The frame includes a supporting structure including a back plate, and is configured to house two or more masonry slips, and two or more face rails positioned on the back plate of the supporting structure. Each face rail is configured to house at least one masonry sup, and includes a projection directed away from the back plate of the supporting structure, and a retaining element positioned at the end of the projection so that the retaining element is approximately parallel to the back plate of the supporting structure, and the retaining element is configured to be positioned within one of the two slots formed on the sides of the masonry slip.

A connector 100, a rail system (600), and a panel-mounting system (1) for connecting a lateral rail (200) to a longitudinal rail (300). The connector 100 comprising a first portion 110 configured to attach to the lateral rail (200); and a second portion 112 configured to attach to the longitudinal rail (300), the second portion 112 extending perpendicularly from the first portion 110 to form an L-shape with the first portion 110, the second portion 112 comprising a first retaining lip 120a for engagement with a first corresponding feature (316) of the longitudinal rail (300), wherein the connector 100 is rotatable between an unlocked orientation, in which the first portion 110 may be freely inserted and removed from the lateral rail 200, and a locked orientation, in which the first portion 110 is secured to the lateral rail 200.

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.

Provided are a wall structure that has high strength and can stably support a wall material, and a securing member that is used in the wall structure. The wall structure includes a securing member 10 that fixes a wall material 2 to a building frame 8. The securing member 10 includes a substrate portion 15, a bulging portion 30 that bulges from the substrate portion 15 and extends in a left-right direction, a contact surface 31 that comes into contact with the rear surface of the wall material 2, and a locking portion 13 that engages the wall material 2. The bulging portion 30 has bulging portions 30E and 30F, the substrate portion 15 includes an end-side fixing portion 17 on an end side in the left-right direction, the end-side fixing portion 17 is surrounded in the left-right direction and on the lower side by the bulging portions 30, 30E, and 30F, and the inner-side bulging portion 30F adjacent on the inner side to the end-side fixing portion 17 of the bulging portions 30E and 30F is inclined such that the width in the left-right direction increases toward the locking portion 13. In the securing member 10, the end-side fixing portion 17 on one end side is fixed to the building frame 8, and the end-side fixing portion 17 on the other end side supports the wall material 2 using the locking portion 13 in a state of not being fixed.

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).

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.