Provided are protector articles, comprising: a plurality of sheets overlaid one to the next, the plurality of sheets comprising a bottommost sheet, a sheet comprising a comfort face and a barrier face, the comfort face comprising a biodegradable spunlace nonwoven material, the barrier face comprising a water-resistant biodegradable material, and at least one of the plurality of sheets being releasable (e.g., releasably attached) to the article. The articles can be used in bedding, apparel, and furniture.

An upholstered comfort member, comprising a resilient comfort material and a cover fabric. The resilient comfort material comprises lignocellulosic fibres, which provides resilient properties to the resilient comfort material, and a binder at a concentration of between 1 and 30 wt %. The binder binds the lignocellulosic fibres together. The invention further relates to a method for manufacturing of such an upholstered comfort member.

The present invention refers to a coated textile product comprising a fabric substrate layer; a resin-based intermediate layer; and a protecting coating upper layer, wherein the protective layer comprises at least a first primer sublayer, a second printing sublayer, a third transparent sublayer, and a fourth protection sublayer, wherein the first sublayer is on top of the resin-based intermediate layer, and the protection sublayer is the most external layer of the textile product. In addition, the invention refers to a manufacture process to produce the coated textile product, including the surface treatment of the intermediate layer carried out to improve the adhesion of top coating layers avoiding the use of foams or adhesives.

Nonwoven multilayer structures having at least two nanofiber layers are described herein. The nonwoven multilayer structure may have two nanofibers layers that have different properties from each other, such as fiber diameter. One nanofiber layer may be produced by an electrospinning process, while another nanofiber layer may be produced by a melt blown process.

An inflatable cushion comprises an inflatable cushion body. The inflatable cushion body comprises a first region and a second region formed by pressing an upper and a lower fabric layers; the first region and the second region are adjacent; a cavity is arranged in the first region; a sponge is arranged in the cavity; the inflatable cushion body is provided with an air guide part for inflating and deflating the cavity; the second region is evenly provided with transverse sealing lines; the transverse sealing lines separate the second region into mutually communicated inflating cavities; and the second region is provided with a first inflating port for inflation and deflation. By arranging the first region and the second region, the sponge is arranged in the first region and the inflating cavities are arranged in the second region.

A shock absorbing mat/tile comprises a body having a generally planar, major top surface and an opposite bottom surface and a plurality of shock absorbing members depending from the bottom surface. At least one of the shock absorbing members has at least one relief formation formed therein configured to accommodate lateral expansion of the shock absorbing member during axial compression thereof.

A cover for a cushion includes a first panel, a second panel, and a primary receptacle defined between the first panel and the second panel. The primary receptacle may receive a primary cushioning element, such as a pillow, a pillow insert, or a fill material. At least one of the first panel and the second panel includes a secondary cushioning element. The secondary cushioning element may be defined from a compressible, resilient elastomeric material that defines a plurality of thin interconnected walls that in turn define an array of open cells or columns. Each cell or column may have a hexagonal shape, imparting the array of open cells or columns with a honeycomb appearance. Methods for assembling a primary cushioning element with such a cover are also disclosed.

Provided are certain cellulose ester compositions which serve as improved anti-tack additives for various thermoplastic polymers, in applications such as woven and non-woven fibers, laminates including the composition, fabrics including the composition, apparel and garments, textiles including the composition, etc.

A pad holder includes a base panel. The base panel includes a panel perimeter edge that defines a panel face. A lip material is connected to the panel face at a connection. A lip of the lip material extends from the connection towards a center of the panel face. The lip includes a lip perimeter edge, and the lip, panel face, and the connection collectively define an envelope. The envelope includes an opening defined by the lip perimeter edge. The envelope is sized to receive a liquid absorbent pad where the lip overlaps edges of the liquid absorbent pad when the liquid absorbent pad is disposed within the envelope.

An adaptive textile that includes a plurality of a first fiber having a first expansion coefficient and a plurality of a second fiber having a second expansion coefficient. There is a difference between the expansion coefficient of the first fiber and the expansion coefficient of the second fiber; at least one of the first or second fibers is a twisted coil actuator; and linear displacement of the twisted coil actuator causes the adaptive textile to bend.