Floor covering, made of floor elements, which, at least at two opposite sides, comprise a male and a female coupling part, which allow that two of such floor elements can be interconnected at the respective sides at the respective sides by pushing one of these floor elements with the associated male coupling part, by means of a downward movement, home into the female coupling part of the other floor element, wherein at least one of said coupling parts, either the male coupling part or the female coupling part, is made as least partially in a filled synthetic material composite, such as extruded wood.

Floor covering, made of floor elements, which, at least at two opposite sides, comprise a male and a female coupling part, which allow that two of such floor elements can be interconnected at the respective sides at the respective sides by pushing one of these floor elements with the associated male coupling part, by means of a downward movement, home into the female coupling part of the other floor element, wherein at least one of said coupling parts, either the male coupling part or the female coupling part, is made as least partially in a filled synthetic material composite, such as extruded wood.

An engineered wood plank made using a unique lamella layer. The lamella layer has a number of lamella layer sections joined together by lap splice joints which allow the lamella layer to be pressure adhered onto a backing material without breaking, and wear in a manner similar to known engineered hardwood flooring.

Floor covering, made of floor elements, which, at least at two opposite sides, comprise a male and a female coupling part, which allow that two of such floor elements can be interconnected at the respective sides at the respective sides by pushing one of these floor elements with the associated male coupling part, by means of a downward movement, home into the female coupling part of the other floor element, wherein at least one of said coupling parts, either the male coupling part or the female coupling part, is made as least partially in a filled synthetic material composite, such as extruded wood.

An edge finishing structure includes a spring plate base and an edge trimmer strip. The spring plate base includes a hook-up seat, an intermediate plate extending from a lower end of the hook-up seat, and a stop plate connected to the intermediate plate. The spring plate base is also provided with at least one coupling unit. The edge trimmer strip has a bottom portion mounted on the hook-up seat and the intermediate plate. The bottom portion is formed with a positioning groove corresponding to the hook-up seat. As such, the spring plate base and the edge trimmer strip can be mounted to an external circumference of board member. Various advantages can be achieved, including easily mounting of the edge trimmer strip, causing no deterioration to an outside appearance of the edge trimmer strip, and enhancing flexibility of variation of stylish shaping on a top portion of the edge trimmer strip.

The invention discloses a high stable and environment-friendly two-layer parquet and a production method thereof. The parquet comprises a face board and multiple solid wood boards below the face board, the solid wood boards comprise multiple solid wood strips inserted side by side; any adjacent two solid wood strips of the same solid wood board are arranged tightly and alternately, and the face board and solid wood boards are closely bonded with each other by an adhesive. The length directions of the solid wood strips of any adjacent two solid wood boards are vertical to each other; and the length direction of the solid wood strips of the solid wood boards at the two ends of the parquet is vertical to the length direction of the parquet. The invention can effectively reduce the use of high-quality solid wood, save the wood resources and has high stability and high strength.

The invention relates to a bamboo floor, in particular to a composite bamboo floor. The composite bamboo floor comprises a floor surface board provided with a body, a pressed surface, a connecting surface connected with the core board, at least one cut surface board side face and surface board end faces, and the core board arranged under the floor surface board and provided with a core board surface connected with the floor surface board, a core board bottom surface, core board side faces and core board end faces, and the positions of the core board side faces or the core board side faces and the surface board side faces are provided with notch structures processed in two sides in the length direction of the composite bamboo floor. The composite bamboo floor is high in strength, high in processing efficiency and low in production cost.

Floor covering, made of floor elements, which, at least at two opposite sides, comprise a male and a female coupling part, which allow that two of such floor elements can be interconnected at the respective sides at the respective sides by pushing one of these floor elements with the associated male coupling part, by means of a downward movement, home into the female coupling part of the other floor element, wherein at least one of said coupling parts, either the male coupling part or the female coupling part, is made as least partially in a filled synthetic material composite, such as extruded wood.

An engineered wood plank made using a unique lamella layer. The lamella layer has a number of lamella layer sections joined together by lap splice joints which allow the lamella layer to be pressure adhered onto a backing material without breaking, and wear in a manner similar to known engineered hardwood flooring.

A cargo-carrying apparatus and a floor for a cargo-carrying apparatus, the floor comprising: a floor body having a top floor surface; and a slip-resistant layer extending partially over the top floor surface such that the top floor surface includes at least one covered portion covered by the slip-resistant layer and at least one uncovered portion adjacent the at least one covered portion.