The present invention relates to a disposable safety glove system featuring a plurality of layers of inter-nested gloves that are worn simultaneously by a user. The improved disposable glove system of the present invention allows a user to peel away the outermost layer of gloves to reveal a new and sterile set of gloves. The glove system also features a relatively thick wristband to support the plurality of glove layers, a tab that can be used to easily peel off the outermost glove layer once the same has been used and a new pair of gloves is desired, and a numbering system that alerts the user to how many glove layers remain in the glove stack.

A protective guard for a hand, finger or thumb includes a first thermoplastic layer heat welded to second thermoplastic layer. The second thermoplastic layer has a thickness that is greater than the thickness of the first thermoplastic layer.

A hygienic tissue includes a front side and a back side. The front side includes an absorbent material and the back side includes an absorbent material. A fluid resistant material is between the front side absorbent material and the back side absorbent material, and a pocket is on the back side for receiving one or more of a user's fingers. The back side defines an aperture for providing access to the pocket. The aperture is surrounded on one or more sides by the back side such that one or more pockets are formed along the back side. Attachments can be used to attach the tissue to a user's hand, wrist or ears. The tissue can be used, for example, when sneezing, coughing, nose blowing or touching contaminated surfaces, as a hygienic tissue, face mask, and wet wipe.

An object of the present invention is to provide a glove in which a glove main body and a film are less likely to peel from each other even when a load, especially a torsional load, is applied. A glove according to an aspect of the present invention includes: a glove main body made of fibers; a film which covers at least a part of an outer face of the glove main body and contains a rubber or a resin as a principal component; and an adhesive portion which bonds the glove main body and the film together, wherein the adhesive portion includes: a pressure-sensitive adhesive layer in contact with the film; and an adhesive layer which is in contact with the glove main body and is constituted by a hot-melt adhesive.

A protective glove suitable for use in hazardous environments is provided. The glove may include multiple layers, each providing different aspects of protection to the wearer's hands. Multiple layers may include layers that improve grip, protect against cuts and impact, provide breathability, and/or provide waterproof and/or water resistant protection. Additional safety features may include reflective striping and impact disbursement pads and ridges. Further, the glove may be constructed to enhance user dexterity.

A glove according to the present invention includes a glove body configured to cover a hand of a wearer. The glove body has an outermost layer including a matrix resin and cellulose particles and constituting an outer surface of the glove. The outermost layer includes the cellulose particles in the range of more than 1 part to 9 parts or less by mass based on 100 parts by mass of the matrix resin. At least some of the cellulose particles are at least partially exposed from the outer surface.

A thin, abrasion resistant supported glove, including a knitted liner and a polymeric layer disposed on and within individual strands of yarns of the knitted liner, are disclosed. Methods for manufacturing the thin, abrasion resistant supported glove are also disclosed.

Embodiments of the disclosure are directed to a ski glove that includes a hand member configured to cover a user's hand. The hand member includes one or more finger sheaths including a pinky portion, a pinky side aligned with the pinky portion, and a bottom edge defining an opening for insertion of the user's hand; wherein the hand member comprises at least one layer of insulation. The ski glove also includes a fastener configured to seal a sealable opening positioned on the pinky side and extending from the bottom edge upward to over the pinky portion; whereby the sealable opening when sealed during use faces away from the wind's force, and whereby the entire hand member can be turned inside out easily to allow moisture condensation inside the hand member to dry quickly.

Garments made from a composite, protective fabric are disclosed. The composite fabric has textile layers placed in proximity to metallic mesh layers of woven stainless steel mesh. The metal mesh layers formed from any metal which forms suitable fibers. The textile layers are fabric formed with well-known fabric fibers selected from those including para-aramid fibers, meta-aramid fibers, ultra-high molecular weight polyethylene fibers, polyethylene terephthalate fibers, cellulose fibers, polyamide fibers, a mixture of para-aramid fibers and meta-aramid fibers, and a mixture of para-aramid fibers and carbon fibers. Forming the non-metal textile layers is by any suitable method for interlacing yarns including weaving, knitting, crocheting, knotting, or felting, or combinations thereof. The garments made using the fabric include gloves, bullet proof vests and chain-saw resistant trousers.

The present disclosure relates to a protective glove, which has different polymer layers arranged in a multi-layered polymer composite material. According to the present disclosure, the protective glove contains polyvinyl alcohol and a protective layer on top of this containing a fluorinated elastomer. The present disclosure also relates to a method for manufacturing a protective glove of this kind. The combination of various polymers and their arrangement in the polymer composite material achieve a powerful protective action against a multitude of chemical compound classes while simultaneously producing advantageous mechanical properties.