Various embodiments of the present invention are directed to carpet components and methods of making the carpet components. In one embodiment, a carpet component is provided. The carpet component includes a carpet substrate having a texture comprising a pattern, wherein the pattern comprises a plurality of adjoining design elements each defining a design and a boundary and wherein the design elements are arranged so that the design of one design element is not predictable from the design of an adjoining design element; and an overprint disposed onto the carpet substrate wherein the overprint comprises a plurality of adjoining design elements each defining a design and a boundary and wherein the design elements are arranged so that the design of at least one design element is predictable from the design of an adjoining design element.

A carpet tile having a contrast pattern intermixed with a portion of a background pattern. The contrast pattern is positioned proximate a selected side edge of the carpet tile and has a contrast color different than the colors of the background pattern. Within a floor covering, the rotational position of the carpet tile can be varied to thereby achieve a desired visual appearance with respect to the contrast patterns of adjacent carpet tiles.

A carpet or carpet tile containing a plurality of individually dispersed fibers and processes for making the same, wherein the carpet or carpet tile comprises a facecloth and a polymer sheet. The polymer sheet comprises a polymer-based resin and a plurality of individually dispersed fibers and may be formed by applying the plurality of individually dispersed fibers onto the facecloth's primary backing, or optionally, onto a polymer coating disposed on the facecloth's primary backing and extruding the polymer-based resin onto the plurality of individually dispersed fibers, or by incorporating the plurality of individually dispersed fibers into the polymer-based resin and extruding the mixture onto the primary backing.

A carpet tile having a contrast pattern intermixed with a portion of a background pattern. The contrast pattern is positioned proximate a selected side edge of the carpet tile and has a contrast color different than the colors of the background pattern. Within a floor covering, the rotational position of the carpet tile can be varied to thereby achieve a desired visual appearance with respect to the contrast patterns of adjacent carpet tiles.

An object of the present invention is to provide a carpet exhibiting excellent antifouling property against both dry soil and wet soil. The carpet is a carpet including a pile yarn having a coated pile single yarn, in which the coated pile single yarn is a pile single yarn to which a layer A containing organopolysiloxane and a fluorine-based compound is attached, a fineness of the coated pile single yarn is 8 to 40 dtex, a crimp elongation of the pile yarn is 10% to 30%, a carpet staining degree (E) in an antifouling dry test is 30 or less, and a carpet staining degree (E) in an antifouling wet test is 30 or less.

A moisture resistant carpet exhibiting exceptional delamination strength and methods of making same are disclosed.

The present disclosure relates to an intelligent disinfection carpet, a carpet disinfection method, and a carpet disinfection device. The intelligent disinfection carpet can include a control module and a plurality of mutually independent disinfection elements. The control module is communicatively connected with the disinfection elements for controlling some or all of the plurality of mutually independent disinfection elements to release disinfection media.

Disclosed herein is tufted article including a backing having a vertical axis. The backing includes an open structure material having a first surface and an opposed second surface. The open structure material includes a plurality of fibers. The plurality of fibers define void spaces through the open structure material from the first surface to the second surface in part based on variability of fibers along the vertical axis. The void spaces are configured to permit passage of liquid or vapor from the first surface to the second surface of the open structure material. A scrim layer is coupled to the opposed second surface of the open structure material. The scrim layer has an open mesh structure. A second plurality of fibers are tufted through the backing and extend upwardly from the first surface of the open structure material.

Disclosed is a method for embedding an electronic device, for instance an RFID tag, into a mat, the mat having a bottom support intended to contact a floor, in use, and including a first material, a walkable layer arranged on top of the bottom support, including a second material. The electronic device is supported by a solid carrier. The bottom support and the walkable layer of the mat are fully assembled, so as the mat is already available for use to walk on, before embedding the electronic device; a material of the solid carrier and the first material of the bottom support of the mat are suitable to join if contacted each other and subject to a temperature and/or a pressure above predetermined thresholds, the pressure pushing the electronic device against the bottom support. Embedding the electronic device to the mat includes placing the solid carrier on a flat portion of the bottom support of the mat; applying the pressure and/or temperature to the solid carrier; ending application of pressure and/or temperature. The step of applying pressure and/or temperature is ended after the solid carrier is melted in the solid carrier and/or dissolved, and the electronic device remains embedded in the bottom support. Embedding is not reversible and the solid carrier is no longer detachable from the bottom substrate.