A wall fastener assembly for retaining an exterior wall covering alongside a wall includes a screw, an elongated shank and a washer. The shank is configured to provide a space for a layer of insulation between the exterior wall covering and the wall. The shank comprises a center bore extending along the length of the shank for receiving the screw configured to secure the wall fastener assembly to the wall. The shank also includes a pair of flanges positioned opposite the wall. The pair of flanges form a groove between them. The groove configured to receive a masonry tie, wire tie or a girt track. The washer includes a central portion comprising a center hole for receiving the shank. The wire tie includes a narrow portion configured to be retained by the groove. A seal may be provided on the shank to seal the wall fastener assembly with the insulation.

The invention relates to a panel for constructing a floor or wall covering. The panel comprises a substantially planar top surface, at least one core layer composed of a composite material which core layer is provided with at least one cavity, and a bottom surface. The panel further comprises at least one pair of opposite edges, said pair of opposite edges preferably comprising complementary coupling parts configured for mutual coupling of adjacent panels.

In a facade assembly (14) for a building (10) with at least one facade element (16), which can be fastened to a wall or an inter-story ceiling (12) of the building (10), and with at least one fire-protection element (18), which can be mounted between the facade element (16) and the wall or the inter-story ceiling (12), the fire-protection element (18) has at least one fire-protection course (32) of an intumescent material.

Furthermore, a method for mounting such a facade assembly is provided, as is a building structure using the facade assembly.

An exterior insulation structure includes a first board member, first supporting members, a first thermal insulator, second supporting members disposed on the exterior side of the first supporting members, a second thermal insulator disposed on the exterior side of the first thermal insulator and between the second supporting members, securing members fixed to the exterior side of the second supporting members, and exterior wall members attached to the securing members. The adjacent exterior wall members are joined together without leaving a gap therebetween. Each securing member is long enough, in the second direction, to be fixable to at least two second supporting members and shorter, in the second direction, than each exterior wall member. A first gap is left between the securing members adjacent in the second direction. At least part of each second supporting member is made of a material having a thermal conductivity lower than that of steel.

The invention relates to a composite tile for an installation system, more particularly for the production of a floor covering or wall covering, comprising a tile of a floor covering or wall covering and a backing disposed on the lay-on face of the tile. The invention also relates to a connecting element for the connection of two composite tiles and to an installation system composed of composite tiles and also to a method for the fabrication of a composite tile. The backing consists of a fiber composite material, more particularly fiber cement.

A concentric-ring single-sided dovetail groove ceramic tile back mold core is disclosed. A back mold core surface vulcanized rubber comprises raised patterns and recessed patterns integrally formed, pasted and covered on a back mold core iron substrate. The raised patterns are equidistantly offset outwards layer by layer with a central position of the back mold core as a center; and a side of each raised pattern close to the center is of an equiangular obtuse angle, and a side of each raised pattern far away from the center is of an acute angle with an angular equal difference gradually decreasing.

A method for manufacturing a bullnose tile comprising the steps of: providing a ceramic tile that comprises a base body made of a ceramic material, wherein the base body has a main surface and a bullnose edge; providing a decorative layer on top of said bullnose edge, by inkjet printing a curable ink to form a dcor; curing said curable ink; wherein said curable ink, after printing, is in direct contact with the ceramic material of the base body.

The present invention relates to a method for the preparation of dies for moulds for the production of tiles with three dimensional texture.

Reinforced tiles, as well as systems and methods for reinforcing tiles, are provided. The reinforced tiles have enhanced durability, compressive strength, shear strength, and modulus of elasticity.

A support assembly for mounting masonry veneer to supporting wall structure has a first shelf angle, a second shelf angle, and a first shelf angle mounting bracket. Each shelf angle mounting bracket has an upwardly extending back that mounts to the supporting wall structure, and a web extending forwardly away from the wall structure. The web has at least a first shelf angle mounting seats formed in a lower region thereof that hangs downwardly of a vertical load shear transfer connection. A brace is mounted to the bracket. The brace underhangs the cantilevered supporting structure, and provides a moment reaction. The brace has a non-intrusive interface with the supporting structure. That interface may be in compression and the brace may act as a strut. The brace may be thermally isolated from the bracket. The brace may fit within the space envelope of a stud wall.