A wall surface covering system comprising: a wall surface covering for covering an underlying vertical support surface constituted by a wall, said wall surface covering comprising a rigid body; a first component of a hook-and-loop fastener fixable to the rigid body of the wall surface covering; and a second component of the hook-and-loop fastener that is fixable to the underlying vertical surface. The first and second components are cooperable such that,when the first component is fixed to the surface covering and the second component is fixed to the underlying vertical surface, the first and second components can be engaged to cause the wall surface covering to grip the wall. The first and second components are configured to cooperate to provide a fastening having a pull strength and a shear strength that are high enough to hold the surface covering in position on the vertical support surface, and a peel strength that is low enough to allow removal of the surface covering from the underlying surface by peeling the rigid body away from the wall.

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.

A device (2) for thermally insulating a building wall (1) from the outside, being applicable in particular to walls and roofs, includes, starting from the wall, a layer (3) of impermeable rigid insulation, spacers (4) and a perforated rigid facing sheet (6) at a distance from the layer (3) of rigid insulation so as to form an air gap (7) between the facing sheet and the layer (3) of rigid insulation. A layer (8) of granular insulation (9) in divided form is contained in synthetic textile bags (10) placed in the air gap (7). A method for implementing such a device is also described.

A structural insulated sheathing including a rigid foam insulation board having a first face, a structural member having a second face, wherein the first face of the foam insulation board is laminated to the second face of the structural member over substantially 100% of the interface between the first face and the second face.

Panels usable for construction of a surface, to provide the surface with a desired appearance, durability, water, air, and fire resistance, dimensions, and weight include a layer of substrate material having first and second sides. Finish elements are positioned on the first side, while a backing material is positioned on the second side, such that the substrate bonds the finish elements to the backing material. Particulate material can also be included, such as within spaces between finish elements. Manufacture of such panels can include use of a vacuum system that acquires finish elements in a selected orientation, acquires particulate material into spaces unoccupied by finish elements, then deposits the arranged finish elements and particulate material into a mold for subsequent manufacturing steps. Use of lightweight, durable materials, such as magnesium oxide, can enable panels having a reduced thickness and weight to be manufactured, without sacrificing durability or longevity.

A new surface covering system (1) comprising a panel (10) and a base (20), suitable for covering at least a portion of a surface of a building or at least being part of a portion of such surface is presented, wherein the panel (10) and the base (20) are provided with complementary mechanical means (30), (40) for removably fixing or securing the panel (10) on the base (20).

A slip brick arrangement for use in a façade cladding system comprises a slip brick and a spacer element (20c). The slip brick comprises at least one rail-engaging groove to engage with a brick-retaining rail to be provided. The spacer element (20c) comprises a main spacer body (22c) to be positioned inside the rail-engaging groove. The main spacer body (22c) comprises a protrusion (32c) to hinder sliding of the spacer element (20c) towards the brick-retaining rail. A variant of the spacer element (20c) is made from an unitary sheet providing a main spacer body (22c) and an arm (24) extending from the main spacer body (22c) to engage in the rail-engaging groove, wherein the main spacer body (22c) comprises a lanced portion (28) providing the protrusion (32c). The spacer element (20c) helps to retain a slip brick in an intended position.

A support base, a tile joint and a method of attaching tiles to a wall structure. The support base includes a gripper arrangement protruding from the front surface. The gripper arrangement includes a first locking part arranged to connect the tile to the support base, and a second form locking part arranged to connect mortar to the support base.

An architectural enclosure comprising a plurality of interwoven flexible rods (10) forming a lattice of first rods (11) parallel to each other attached to the structural element (60) and of second rods (12) parallel to each other orthogonal to the first rods (11), and a plurality of bricks (20) with grooves (21) on their sides containing at least parts of some of said rods (10) wherein some of the first rods (11) are facing portions of the structural element (60) their entire length, and are joined thereto at regular intervals by means of clamps (50), attached to said portions of the structural element (60), surrounding the corresponding first rod (11).