Waterproof engineered floor and wall planks have a veneer layer bonded with a plastic composite core, and an underlayer, preferably an underlayer of cork.

A prefabricated tiling system includes a tiled panel assembly and a mounting adhesive configured to affix the tiled panel assembly on a planar surface. The tiled panel assembly further includes a tiling material configured to couple with a mounting substrate through the use of a tiling adhesive. The prefabricated tiling system is useful for providing a lightweight and waterproof system for applying a plurality of tiles to a planar surface with minimal equipment and technical knowledge required.

The invention relates to a panel suitable for constructing a waterproof floor or wall covering, wherein the panel has a substantially planar top surface, a substantially planar bottom surface, and at least four substantially linear side edges. The invention also relates to a process for producing a panel according to the invention. The invention further relates to a panel obtainable by said process according to the invention.

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 dcor 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 method for arranging an element, such as a shower board or shower drain, in a floor, which method includes the steps of: providing an element which has an upper surface with at least two straight edges lying at an angle, preferably an angle of 90 degrees. The element has a strip of a flexible watertight layer standing upright from the upper surface along the corner of the two straight edges; folding the upright strip downward, wherein the folding edge is shaped adjacently of the two straight edges of the corner and wherein the strip of the flexible watertight layer hangs downward from this folding edge; and arranging the element in the floor. The upper surface of the floor lies flush with the upper surface of the element.

The invention relates to the use of a melt-in-place acrylic binder that is applied to a substrate in the form of a powder, followed by a fusing together of the binder powder by heat or radiation. Particulate filler is present either on the substrate, mixed with the binder powder, or admixed into the binder powder prior to fusion. The fused binder helps adhere the particulate fillers to the substrate, and may or may not cover the particulate filler.

A linear drain system may include a main body including a first end, a second end longitudinally opposed to the first end, and a top surface, a drain opening formed through the main body, and a drain channel formed in the top surface and extending longitudinally from proximate the first end to proximate the second end and in fluid communication with the drain opening, wherein the drain channel includes a V-shape in cross-section.

An expansion joint profile system for producing an expansion joint in the manufacture of a rigid floor covering includes a profile (1) comprising a first profile element (3) having a first support leg (5) provided for bearing on a substrate (18) and a first abutment leg (6) projecting upwardly therefrom. A second profile element (4) has a second abutment leg (6). A connection element (9) is formed in a ridge-like manner and extends in the longitudinal direction between the two profile elements (3, 4) and connects them to one another in the lower region. An insertion opening (10) is formed between the abutment legs and is open at the top and extends in the longitudinal direction (L). A sealing element (11) is formed in a T-shaped cross-section with a downwardly projecting insertion leg (12) for insertion into the insertion opening (10).

The invention relates to a floor panel, in particular a magnesium oxide based floor panel, which is preferably provided with interconnecting coupling parts for mutually connecting adjacent floor panels to each other. The invention also relates to a method of producing a floor panel, in particular a magnesium oxide based floor panel.

Reinforced floor components of prefabricated bathroom pods. The floor components are reinforced and integrated into bathroom pods or other building units in such a manner as to add significant strength to the bathroom pods to resist bending, twisting and sagging, and/or to aid in lifting and supporting the weight of the bathroom pods, and thereby add to the structural integrity of the prefabricated bathroom pods to which they are attached.