A wall panel may have a rigid layer, a first insulation layer made from a two-part rigid urethane pour foam, and a second insulation layer made from a phase change material. The first insulation layer may be chemically bonded to the rigid layer and may also be bonded to the phase change layer. The first insulation layer may be positioned between the second insulation layer and the rigid layer. The rigid layer may be a finished surface or a veneer layer may be applied to the rigid layer.

The present disclosure relates to interior material attachment structure with wall attachment part bolt grooves, including: binding protrusions formed at the outermost part of the interior material attachment structure in order to attach the metal interior material; and connection part grooves formed adjacent to the binding protrusions in order to connect the plurality of interior material attachment structures to each other.

A wall panel may have a rigid layer, a first insulation layer made from a two-part rigid urethane pour foam, and a second insulation layer made from a phase change material. The first insulation layer may be chemically bonded to the rigid layer and may also be bonded to the phase change layer. The first insulation layer may be positioned between the second insulation layer and the rigid layer. The rigid layer may be a finished surface or a veneer layer may be applied to the rigid layer.

A covering element support arrangement for attaching covering elements to a building or building component. The covering element support arrangement has a carrier means for receiving covering elements thereon. The covering element support arrangement further has an attachment means for attaching covering elements to the carrier means. The attachment means involves mechanical fastening means that can be fastened to the carrier means and that are engageable with covering elements to fix the covering elements to the carrier means. The carrier means is formed at least partially from a perforated sheet and the mechanical fastening means is engageable with the perforations. The frequency of the perforations is such that a covering element can be attached to the carrier means without requiring the covering element to be initially aligned relative to any single perforation. This thereby reduces the time required to fit covering elements.

The present invention relates to methods of manufacturing moulded products, for example building panels, and in particular, but not exclusively, to manufacturing a panel comprising natural stone or rock set into a polymeric layer. The method of manufacturing a moulded product as described herein comprises at least one article being set into a polymeric layer, followed by placing the at least one article and particulate ferrous material in a container so that at least a portion of the or each article is embedded in the particulate ferrous material, introducing a polymeric material into the container to form the moulded product, and removing the moulded product from the container.

A method of assembling a deck board by using a step clip fastening device is disclosed. The method comprising the steps of fastening the step clip fastening device onto a joist by using a plurality of fastening tools; sliding a first end of the deck board into an inner cavity of a step clip attached at a first end of the step clip fastening device; and snapping a second end of the deck board into an inner cavity of a corresponding step clip facing the step clip attached at the first end of the step clip fastening device to form a mating relationship between the deck board and the step clip fastening device.

A facing building member, a method of forming a facing building member and a method of forming a cladding panel. The facing building member is usable with other building members in forming a cladding panel. The building member has a front face and a rear side, the rear side being profiled by cutting with a water jet so as to provide at least one mechanical key on the facing building member.

Provided is a construction assembly comprising: a. a base; b. a layer of glass fiber placed directly on the base; and c. a decorative layer having a plurality of tiles placed immediately on the glass fiber, wherein the glass fiber is mixed with a hardener and a resin to attach the glass fiber directly to the base and the decorative layer.

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).

The tile cladding system having a mounting plate and a number of tile elements. Each tile element has a front side adapted to face away from a building surface and a back side adapted to be connected to a front side of the mounting plate. The front side of the mounting plate and the back side of each tile element are provided with a number of protrusions and/or indentations in such a way that protrusions may fit into indentations in order to form a snap-fit or friction fit connection. The mounting plate have such a configuration that the mounting plate is able to bend.