A cladding element, for use in a building envelope, comprising a first face, a second face and a plurality of edges. One or more of the plurality of edges includes a mating feature configured to resist moisture passage between cladding elements when the cladding elements are installed on a wall or other structure. The mating features of each cladding element including one or more concave arcuate bevelled edges designed to improve the overall aesthetic appearance of the mating interface between adjacent cladding elements when installed on a wall or other structure.

The cushioning preform comprises two layers of foam material, e.g. polyethylene foam, laminated together in a laterally offset relation to one another, with or without a polyethylene film therebetween. Each of the foam layers is of rectangular cross-section has a surface section of greater density than the remaining section thereof. Rolls of the preform may be unrolled into a flattened condition on a substrate, such as a concrete floor, with a stepped edge of each unrolled preform overlaid by an adjacent unrolled preform and adhered thereto by a glue on the stepped edge.

A rigid polymeric modular flooring plank can be one continuous piece having a top surface, a bottom surface and multiple sides defining the edges of said rigid polymeric modular flooring plank. The rigid polymeric modular flooring plank can include the appearance of multiple tiles or one tile as part of the top surface, with each of the multiple tiles having multiple simulated sides and a decorative surface, and each tile is completely surrounded by simulated grout lines that have a depth and either have a full width W or a half width ½W. Any simulated grout line that is located at any of said multiple sides has the half width and all other simulated grout lines have the full width. The rigid polymeric modular flooring plank has at least a polymeric base layer, a decorative layer, and a wear layer located above the decorative layer.

A flooring buckle has a buckle body with opposite sides and opposite ends that are transverse to the sides. The buckle body has four locking members extending outward from the buckle body. The flooring buckle has a I-shaped cross-section when viewed from the ends of the buckle body. The flooring buckle is symmetric about its vertical and horizontal center. The buckle body has a hole on an end that is configured to receive an expansion body. A diameter of the hole is sized smaller than a diameter of the expansion body. The flooring buckle is configured such that at least one of the four locking members is deformed and a portion of the deformed locking member engages a slot of a flooring panel when the locking member is inserted in the slot of the flooring panel and the expansion body is inserted in the hole of the buckle body.

A panel can have a face surface having a length and a width. The panel can include a first tongue that extends along the length and a second tongue that extends along the width. The pane can further include first front and back legs that extend along the length of the panel and define a first groove therebetween and second front and back legs that extends along the width of the panel and define a second groove. At least one of the first tongue or the first back leg can a longitudinal dimension that is greater than the length of the face surface; or at least one of the second tongue or the second back leg can have a longitudinal dimension that is greater than the width of the face surface.

A panel having a panel upper side and a panel lower side and at least two opposing panel edges, which have each an edge break on the panel upper side, the edge breaks forming in the connected state a joint in a covering surface. The edge break of one of the panel edges is formed larger than the edge break of the opposing panel edge, and a lower part of the large edge break of the one panel edge is overlapped in the connected state by the small edge break of the opposing panel edge.

A ballast block is provided with a body and a plurality of fluid receiving channels. The body includes a top surface, a bottom surface positioned opposite the top surface, and a first side extending between the top surface and the bottom surface. The plurality of fluid receiving channels are disposed along the first side in a plurality of units and extending from the top surface to the bottom surface to form a zigzag pattern. Each unit of the plurality of units having an adjacent pair of fluid receiving channels extending at opposing angles toward each other from the top surface to the bottom surface in an approximate V-shape.

The present application relates to the technical field of assembled panels in buildings, and discloses an easy-to-assemble panel. In one embodiment, an extension block is provided on a side surface of one side of the splicing panel, a convex block is provided on a side surface of the other side of the splicing panel, and a self-adhesive layer is provided on a bottom surface of the splicing panel. A limiting groove is formed between a bottom wall of the extension block and the side surface, close to the extension block, of the splicing panel. An engaging block is provided at one end, away from the splicing panel, of the extension block, and an engaging groove matching with the engaging block is provided in the side surface, close to the convex block, of the splicing panel.

A floor panel is of synthetic material and forms a layer-shaped substrate with first and second pairs of opposite edges. The first pair of opposite edges has coupling parts forming a first mechanical locking system, which, in a coupled condition of two of such floor panels, effects a locking in the plane of the floor panels and perpendicular to the respective edges, and forms a second mechanical locking system, which, in a coupled condition of two of such floor panels, effects a locking transverse to the plane of the panels. The coupling parts on the first pair of opposite edges are realized substantially in the material of the floor panel itself. The floor panel is provided with an edge configuration on the second pair of edges allowing two of such floor panels to be positioned with their respective edge alongside each other and free from mechanical horizontally active locking systems.

An outdoor laminate floor includes a substrate made from PVC foaming and a wear-resistant, anti-aging covering film that is adhered to the surface of the substrate. The covering film overlays the surface of the substrate after being adhered by hot glue. The covering film is a modified weather-resistant polymeric film. In this way, the outdoor laminate floor has a simple and compact structure, and solid wood is replaced with the substrate and the covering film, which not only protects environment by reducing the use of solid wood, but also reduces the manufacturing cost and improves the competitive edge on the market, owing to the low-cost substrate and covering film.