The present disclosure relates to a manufacturing process of a silicone glove, the silicon glove is divided into a liner, a glove blank and a silicon layer from the inside to the outside, and liquid silicon is sprayed on a surface of the glove blank for once; when spraying the liquid silicon, the glove blank also rotates around its axis while horizontally moving on an assembly line; during spraying, a liquid silicon outflow channel at least includes a finger gap spraying port and a tiger mouth spraying port that are arranged fixedly; an arranging length of the finger gap spraying port is greater than or equal to a length of a finger area of the glove blank; an arranging length of the tiger mouth spraying port is greater than or equal to a length of a tiger mouth area of the glove blank.

The present disclosure relates to a manufacturing process of a silicone glove, the silicon glove is divided into a liner, a glove blank and a silicon layer from the inside to the outside, and liquid silicon is sprayed on a surface of the glove blank for once; when spraying the liquid silicon, the glove blank also rotates around its axis while horizontally moving on an assembly line; during spraying, a liquid silicon outflow channel at least includes a finger gap spraying port and a tiger mouth spraying port that are arranged fixedly; an arranging length of the finger gap spraying port is greater than or equal to a length of a finger area of the glove blank; an arranging length of the tiger mouth spraying port is greater than or equal to a length of a tiger mouth area of the glove blank.

A method of processing non-sewing softball/baseball glove and glove therewith, comprising the following steps: setting a jacket mold and a web mold, wherein the jacket mold is a structure of an inner mold plus an outer mold, the outer mold is a metal mold provided with micropores for automatic exhaust while the inner mold is a plastic mold provided with supporting function and leaving space for each finger and the palm in the glove; injecting the jacket mold and web mold respectively for one-time molding with an injector; manually running a rope for connecting the jacket mold and web made in Step 2 to complete the fabrication of the non-sewing softball/baseball glove. The Invention can reduce the labor cost by virtue of its mechanization function instead of artificial process, and is capable of optimizing the functions, use comfort, and air ventilation for perspiration.

A method of processing non-sewing softball/baseball glove and glove therewith, comprising the following steps: setting a jacket mold and a web mold, wherein the jacket mold is a structure of an inner mold plus an outer mold, the outer mold is a metal mold provided with micropores for automatic exhaust while the inner mold is a plastic mold provided with supporting function and leaving space for each finger and the palm in the glove; injecting the jacket mold and web mold respectively for one-time molding with an injector; manually running a rope for connecting the jacket mold and web made in Step 2 to complete the fabrication of the non-sewing softball/baseball glove. The Invention can reduce the labor cost by virtue of its mechanization function instead of artificial process, and is capable of optimizing the functions, use comfort, and air ventilation for perspiration.

Disclosed is a dip-formed article obtained by dip-molding a latex composition for dip-forming, which contains a crosslinking agent and a latex for dip-forming containing a copolymer composed of 40-80% by weight of conjugated diene monomer units (A) containing an isoprene unit, 20-45% by weight of ethylenically unsaturated nitrile monomer units (B), and 2-15% by weight of ethylenically unsaturated acid monomer units (C), and having a weight ratio of butadiene unit content to isoprene unit content that falls within the range of 60:40 to 100:0. Tear strength is at least 50 N/mm, tensile strength is at least 25 MPa, and oil swelling rate does not exceed 5%.

An elastomeric article includes a first surface and a second surface which is treated with a friction treatment. The elastomeric article can be a glove in which the first surface is an inner donning surface and the second surface is an outer grip surface. The friction treatment reduces friction on the grip surface of the gloves in order to make it easier to don a second glove on top of the grip surface of the gloves of the present invention. The gloves of the present invention may be used as a first pair of gloves in a double-gloving configuration to conform with safety protocols.

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

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

Articles and methods for obtaining measurements for the design and/or manufacture of personalized and/or customized clothing, and/or alteration of existing patterns or clothing, and for measuring and/or monitoring one or more parameters, such as size(s), shape(s) and dimension(s), of one or more aspects of a body of the wearer of the article. The articles include a stretchable material interwoven with sensors and/or conductive fibers. The articles include socks, bodysuits, bras, gloves, hats, and so forth. The personalized and/or custom-fitted clothing includes shirts, suits, pants, shorts, dresses, skirts, bras and other undergarments, sleepwear, socks, shoes, gloves, hats, exercise/active wear, protective wear (e.g., helmet, shoulder pads, body armor, etc.), and so forth. The articles and methods may further be used for health and fitness assessment.

The described invention relates to an ambidextrous working glove having fish scale-textured inner and outer surfaces and methods of making same. The textured outer surfaces include a series of protruding ridges surrounded by depressions. The textured inner surfaces are the reverse of the textured outer surfaces and include a series of islands surrounded by channels. The textured outer surfaces and textured inner surfaces provide advantageous grip properties.