A method for manufacturing a folded panel including the following steps: providing a longitudinal recess at the rear side, such that at the front side between remaining panel sections on both sides of the recess a flexible transition section remains, bending the panel sections relative to each other and applying an adhesive in the recess. Before the panel sections are bent relative to each other, a template is inserted into the recess.

The present invention relates to a floor panel 10, in particular for the outdoor area or wet areas, with a carrier plate 11 having a front face and rear face, wherein the carrier plate 11 is provided on its front face with a décor and/or protective layer 16. For drainage of liquids and in particular of water, on the rear face of the carrier plate 11 drainage protrusions 22, 24, 26, 32 are applied.

The invention relates to a glue-down decorative floor covering system. The invention also relates to a glue-down floor covering realized by a plurality of tiles of the glue-down floor covering system according to the invention. The invention further relates to a tile for use in a glue-down floor covering system according to the invention.

A shock absorbing mat/tile comprises a body having a generally planar, major top surface and an opposite bottom surface and a plurality of shock absorbing members depending from the bottom surface. At least one of the shock absorbing members has at least one relief formation formed therein configured to accommodate lateral expansion of the shock absorbing member during axial compression thereof.

It is provided a cross-laminated wood façade element (1) that has an upper end (12) and a lower end (13), an inner surface (3), an outer surface (2) and a longitudinal axis (28) in the direction from the upper end (12) to the lower end (13), said element (1) comprising an inner layer (4) of timber elements (7) and at least one intermediate layer (5) of timber elements (7) where the grain of the timber elements (7) of the inner layer (4) and grain of the timber elements (7) of the at least one intermediate layer (5) are at least partially oriented in different directions, the façade element (1) further comprising an outer layer (6) comprising timber elements (7) in which the grain direction is oriented approximately parallel to the longitudinal axis (28), characterized in that the outer surface (2) of the façade element (1) has grooves (11) that are approximately parallel to the longitudinal axis (28).

A floor assembly includes a plurality of boards and bases. Each board is provided on the bottom surface thereof with a sliding groove. Each base includes a main body, a positioning member, and first and second buckling members. The positioning member is slidably disposed in the sliding groove of the board. The first buckling member is located at the left side of the main body and has a buckling block and a notch. The second buckling member is located at the right side of the main body and has an accommodating space and a protrusion. The adjacent bases are connected with each other in a way that the buckling block is disposed in the accommodating space and the protrusion is embedded in the notch. As a result, the floor assembly is simplified in structure and assembling process, thereby convenient in construction and stable in structure.

The invention comprises a relatively lightweight cementitious-based material panel. The cementitious-based material panel comprises a foam insulating panel having a first surface and a second surface; a first structural layer of cementitious-based material formed on the first surface of the foam insulating panel and affixed thereto; and a second non-structural layer of cementitious-based material formed on the second surface of the foam insulating panel and affixed thereto. The second non-structural layer of cementitious-based material is substantially thinner than the first structural layer of concrete. The second non-structural layer of cementitious-based material is preferably formed from polymer modified concrete, plaster or mortar. A method of making the cementitious-based material panel is also disclosed.

A method of making a pultruded deck board attachment fastened to a substructure to provide a stiffer and stronger deck board than a wood, wood composite, or plastic deck board, wherein the pultruded deck board attachment, along with any fasteners, is covered and protected with a walking surface that is, in examples, snapped in to place.

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).

A façade structure and/or wall structure for a building which includes 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). The tiles (1) received in the support structure (2) are mounted in a weight-supporting manner and/or held locked by means of one or more of the allocated tension elements (3), directly and/or via bearing bodies (4) attached to the tension elements (3). The several or at least one of the tiles (1) are or is allocated in each case at least one holding element (5). For anchoring to the tile (1), the holding element (5) has at least one anchoring portion that can be anchored in a receiver (1hn) of the tile, and/or cooperates with an anchor (6) received in a receiver (1hn) of the tile (1), and wherein the holding element (5) has at least one tension element gripping portion for gripping on at least one of the tension elements (3) allocated to the tiles (1).