A glove is provided and includes a cuff providing an opening to the glove. A back panel defines a first portion of finger sheaths and a thumb sheath and extends along the finger sheaths and the thumb sheath to the cuff. A palm panel is disposed on an opposite side of the glove from the back panel and defines a second portion of the finger sheaths and the thumb sheath. The palm panel is formed from a material having a greater coefficient of friction than a material of the back panel and extends along the finger sheaths and the thumb sheath to the cuff. The palm panel tapers in a direction from the finger sheaths to the cuff. A gusset extends between and is attached to the back panel and the palm panel and is formed from a different material than the back panel and the palm panel.

A seamless knitted glove that includes a knitted ridge is disclosed. Methods for forming the glove are disclosed.

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.

The present invention provides a signal gear for cyclist to give brake and turn signals to other road users while the cyclist has full control of the handle bar and brake. The signal gear of the present invention is preferably a glove with finger portions. Control and activation of the turn and/or brake signals is mainly by using electrical conductive nature of the signal glove as a switch of the signaling component which is either incorporated with the glove or with the vehicle (e.g. bicycle). The signaling component can emit turn/brake light signal or transmit an activation signal to a light emitting device to give turn/brake light signal. The turn and brake light signals are in yellow and red color, respectively.

The technical features of the Multi MIT are the retractable finger points on and/or near the metacarpo-interphalangeal joint on the middle, index and thumb fingers. On the dorsal side of the glove, are magnets that are sewn between the insulated material and the outer fabric which connect when the finger caps are retracted. The finger caps are held back by a positive and a negative magnet on the dorsal side of the glove that firmly holds the finger caps in place. The retracted caps access the inner spandex fleece glove that has touch screen material patches on the tips of the middle, index, and thumb fingers on the palmer side of the inner glove. The inner glove is designed to give the wearer fingertip sensory reception, dexterity and allow touch screen capabilities while providing mild fingertip protection with the finger caps retracted.

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.

A polymer latex composition for dip-molding applications includes the reaction product obtained by free-radical emulsion polymerization in aqueous medium of ethylenically unsaturated monomers including; (a) 19.9 to 90 wt.-% of at least one aliphatic conjugated diene; (b) 9.9 to 80 wt.-% of at least one unsaturated nitrile; (c) 0.1 to 10 wt.-% of at least one ethylenically unsaturated acid; (d) 0 to 19 wt.-% of at least one aromatic vinyl compound, and (e) 0 to 20 wt.-% of at least one further ethylenically unsaturated compound different from any of compounds (a) to (d), the weight percentages being based on the total amount of monomers, wherein the emulsion polymerization is conducted in presence of a degraded polysaccharide having a DE of 2 to 90 measured according to ISO 5377 (1981-12-15) to a method for making said polymer latex composition, to a curable polymer latex compound including said polymer latex composition, to a method for making dip molded latex films employing said curable polymer latex compound, to a film made from said polymer latex composition and to articles including said film or being coated with said polymer latex composition.

A polymer latex composition for dip-molding applications includes the reaction product obtained by free-radical emulsion polymerization in aqueous medium of ethylenically unsaturated monomers including; (a) 19.9 to 90 wt.-% of at least one aliphatic conjugated diene; (b) 9.9 to 80 wt.-% of at least one unsaturated nitrile; (c) 0.1 to 10 wt.-% of at least one ethylenically unsaturated acid; (d) 0 to 19 wt.-% of at least one aromatic vinyl compound, and (e) 0 to 20 wt.-% of at least one further ethylenically unsaturated compound different from any of compounds (a) to (d), the weight percentages being based on the total amount of monomers, wherein the emulsion polymerization is conducted in presence of a degraded polysaccharide having a DE of 2 to 90 measured according to ISO 5377 (1981-12-15) to a method for making said polymer latex composition, to a curable polymer latex compound including said polymer latex composition, to a method for making dip molded latex films employing said curable polymer latex compound, to a film made from said polymer latex composition and to articles including said film or being coated with said polymer latex composition.

The described invention relates to an ambidextrous working glove having fish scale-textured inner and outer surfaces and methods of making same.

A striking glove may comprise an inner glove, an outer shell, and at least one strap at least partially disposed within a dorsal cavity between the inner glove and the outer shell. A portion of the at least one strap disposed within the dorsal cavity may be configured in an overlapped and crossed configuration. The ends of the at least one strap may extend from the dorsal cavity to an exterior of the striking glove.