The current invention concerns coverings such as a floor covering, wall covering or ceiling covering, said covering comprising at least one substrate and at least one surface layer, said surface layer comprising a print pattern and a wear layer, whereby said print pattern is directly applied to said substrate, and further concerns a method to produce such coverings.

The invention relates to a composite tile for an installation system, more particularly for the production of a floor covering or wall covering, comprising a tile of a floor covering or wall covering and a backing disposed on the lay-on face of the tile. The invention also relates to a connecting element for the connection of two composite tiles and to an installation system composed of composite tiles and also to a method for the fabrication of a composite tile. The backing consists of a fiber composite material, more particularly fiber cement.

A method is provided for manufacturing a paper layer having a printed pattern for use in panels that at least include a substrate and a top layer. The top layer includes the paper layer. The method may involve providing the paper layer with an inkjet receiver coating by transporting the paper layer relative to a coater in a coating direction. The coated paper layer may be provided with at least a portion of the printed pattern using a digital inkjet printer that includes a housing containing print heads. Providing the printed pattern may involve using water based pigment containing inks. The printed pattern may include a wood motif having wood nerves extending generally in a nerve direction substantially corresponding to the coating direction. Providing the printed pattern may involve a relative motion between the digital inkjet printer and the paper layer during a printing operation in a printing direction substantially corresponding or substantially opposite to the coating direction. The paper layer may be maintained flat inside the housing, or the minimum radius over which the paper layer is bent inside the housing may be larger than 25 centimeters. The paper layer may be fed from a roll, printed upon, and rolled back up again. The inkjet receiver coating may be obtained from a liquid substance that is deposited on the paper layer. The liquid substance may have a viscosity of 10 to 75 seconds Din cup 4 at 20° C.

A coupling device couples first and second edges of first and second flooring or covering panels. The coupling device includes a projection on at least a portion of the first edge and a groove in at least a portion of the second edge, the coupling device locking the first and second edges one in a first direction perpendicular to the lying plane of the panels and in a second direction parallel to the lying plane. The projection includes first and second retaining appendages, the first projecting from the first edge along an axis inclined by a first angle with respect to the main plane of the first panel, the second being arranged below the first appendage and projecting along an axis orthogonal to the lying plane of the first panel, the groove having a first and second retaining seats counter-shaped with respect to the first and second retaining appendages.

Building panels, such as floor panels or wall panels. The panels including a first mechanical locking system at respective parallel and opposite third and fourth edges, such as long edges, configured to cooperate for horizontal and vertical locking between two adjacent building panels, preferably by means of a folding motion. The panels further including a second locking system at respective parallel and opposite first and second edges, such as short edges, configured to cooperate for horizontal and vertical locking of two adjacent building panels. An upper edge portion of one of the third edge or fourth edge, preferably the third edge, includes a first lower lip portion configured to cooperate with a first upper lip portion of an upper edge portion of the other of the third and fourth edge of an adjacent panel when the third and fourth edges are arranged in locking engagement.

Panels for floor coverings, wall coverings or ceilings have a first pair of opposite edges and a second pair of opposite edges. The opposite edges are provided with coupling parts that allow opposite edges of such panels to be coupled in a more easy way; and/or that allow that installation patterns can be made using the panels, without requiring a second type or second configuration of panels. The panel is provided with locking elements that create a locking of the so-coupled panels in the direction perpendicular to the plane of the panels; and in the direction parallel with the panels and perpendicular to the coupled panel edges.

The present disclosure relates generally to building surface panels, for example, suitable for covering a support structure of a building. The present disclosure relates more particularly to a building surface panel including a hollow panel body, a fastening strip attached to the panel body, and an overhang attached to the panel body and extending along the lower side of the building surface panel. The building surface panel includes a rear-facing engagement surface disposed at the upper side of the building surface panel and a front-facing engagement surface disposed at the lower side of the building surface panel. The front facing engagement surface is configured to engage a rear facing engagement surface of a lower neighboring building surface panel.

A siding material for a building configured to hold one or more solar panels is disclosed including a siding shell including a first section and/or a second section, wherein each first and/or second section includes an essentially flat face disposed at an angle ranging from about 30 degrees to about 90 degrees relative to the ground or a perpendicular plane extending from a side of the building. In addition, one or more surfaces of the first section and/or the second section are perforated, and the first section and/or the second section each include a channel configured to hold an electrical cable.

A fastener unit and related method for securing a board to a support is provided. The fastener unit includes a spacer block, a grip element extending from the spacer block and configured to fit in and engage a groove of the board, and one or more resilient compression elements extending from the spacer block. The one or more resilient compression elements can be a joist leg configured to engage a joist, or it can be vertically compressible toward a first plane that is transverse to a vertical axis of the spacer block so that portions of it can compress from an open mode to a compressed mode and fit within, then forcibly expand within the groove, thereby securing the spacer block in a position adjacent the groove to establish a gap between the board and another board. A related method of use also is provided.

A floor panel includes a substrate and a top layer provided on the substrate. The top layer is composed of a print and a transparent thermoplastic layer having a thickness of 0.5 mm or less and being situated above said print. The floor panel, at least on two opposite edges, is provided with a straight or curved chamfer extending to below the global level of the print.