Floor element for forming a floor covering, wherein the floor element comprises a decorative layer, a support layer, and an intermediate layer disposed between the decorative layer and the support layer, wherein the decorative layer is made of a brittle material, wherein the floor elements comprises edges provided with coupling elements adapted to cooperate with coupling elements of an adjacent similar floor element in said floor covering and wherein the intermediate layer comprises at least one edge that is offset relative to a respective edge of the decorative layer.

Floor panels which are provided with a mechanical locking system including a displaceable tongue in a displacement groove. The tongue is moulded and provided with bendable protrusions. A building panel having an edge portion provided with a groove, in which a tongue formed as a separate part is received, wherein the tongue includes at least two bow shaped protrusions at a first long edge of the tongue, and wherein the protrusions are arranged bendable in the groove.

Floor panels which are provided with a mechanical locking system including a displaceable tongue in a displacement groove. The tongue is moulded and provided with bendable protrusions. A building panel having an edge portion provided with a groove, in which a tongue formed as a separate part is received, wherein the tongue includes at least two bow shaped protrusions at a first long edge of the tongue, and wherein the protrusions are arranged bendable in the groove.

A wireless electrical power transmission system includes a panel having a recessed area for receiving a wireless power transmitter, such as an electric field resonant transmitter. The panel has a first outer surface and a second outer surface opposite the first outer surface, with a thickness defined between the first and second outer surfaces. The recessed area is formed in the first outer surface, and the recessed area has a depth that is less than the thickness of the panel. Electrical wiring is coupled to the wireless power transmitter and passes through an opening formed in the panel, which opening is accessible from the recessed area, and the electrical wiring is in communication with an electrical power source.

A concentric-ring single-sided dovetail groove ceramic tile back mold core is disclosed. A back mold core surface vulcanized rubber comprises raised patterns and recessed patterns integrally formed, pasted and covered on a back mold core iron substrate. The raised patterns are equidistantly offset outwards layer by layer with a central position of the back mold core as a center; and a side of each raised pattern close to the center is of an equiangular obtuse angle, and a side of each raised pattern far away from the center is of an acute angle with an angular equal difference gradually decreasing.

A concentric-ring single-sided dovetail groove ceramic tile back mold core is disclosed. A back mold core surface vulcanized rubber comprises raised patterns and recessed patterns integrally formed, pasted and covered on a back mold core iron substrate. The raised patterns are equidistantly offset outwards layer by layer with a central position of the back mold core as a center; and a side of each raised pattern close to the center is of an equiangular obtuse angle, and a side of each raised pattern far away from the center is of an acute angle with an angular equal difference gradually decreasing.

The present invention relates to the field of tile printing. More particularly, it relates to designing random phases for continuous layout ceramic tile applications. The present invention further provides a method [200] for producing a continuous design layout comprising of random faced tiles with joint free pattern of a tile comprising creating [103] prints or design on horizontal and vertical ends of a subset of workpiece obtaining joint free workpiece with random faces and creating [104] design on the middle or center part of each random phase/face. Advantageously the present invention relates to a joint free tile to make easy inventor management in ceramic industry and the final product looks aesthetically very superior.

The present invention relates to the field of tile printing. More particularly, it relates to designing random phases for continuous layout ceramic tile applications. The present invention further provides a method [200] for producing a continuous design layout comprising of random faced tiles with joint free pattern of a tile comprising creating [103] prints or design on horizontal and vertical ends of a subset of workpiece obtaining joint free workpiece with random faces and creating [104] design on the middle or center part of each random phase/face. Advantageously the present invention relates to a joint free tile to make easy inventor management in ceramic industry and the final product looks aesthetically very superior.

The present invention relates to floor panels for outdoor use, which front side is provided with a decorative—respectively protective layer and which comprises at its sides coupling means inform of groove and tongue elements. The material of the carrier plate is thereby MDF or HDF board of acetylated wood, a fiber cement board or is based on polyvinylchloride and the decorative—respectively protective layer consisting of a radiation cured acrylate-containing film or a polymeric layer with hardness gradient, wherein the hardness of the polymeric layer decreases in particular continuously with increasing depth seen from the surface of the polymeric layer.

A method for manufacturing a bullnose tile comprising the steps of: providing a ceramic tile that comprises a base body made of a ceramic material, wherein the base body has a main surface and a bullnose edge; providing a decorative layer on top of said bullnose edge, by inkjet printing a curable ink to form a dcor; curing said curable ink; wherein said curable ink, after printing, is in direct contact with the ceramic material of the base body.