The shooting gloves of this invention improves the shooter's ability to maintain the proper grip and hand orientation on a handgun. The shooting gloves have select areas on the outside of the glove covered by a viscid coating or sections of material that provide a tacky surface texture to the gloves. The viscid areas are strategically located on the gloves so that the viscid areas of the opposite glove contact each other when the shooter takes a conventional two handed grip of a handgun. The contacting viscid areas provide enhanced tactile feel and increased mechanical friction between the gloves that helps the shooter maintain the proper grip and hand position as the handgun is discharged. It should be noted that the viscid areas are located on the gloves not so as to directly contact the handgun, but are located on the gloves to directly contact corresponding or mating viscid areas of the other glove. The viscid areas of both right and left handed gloves are symmetrical, which allows the pair to be used by either right or left handed shooters.

This invention relates to an elastomeric article with improved lubricity and donnablity and reduced stickiness/tackiness. According to the methods of the invention, the internal surface of the elastomeric article is coated with a polyisoprene coating. The coating of the invention is formed from synthetic polyisoprene rubber that may or may not contain minor amounts of other components. The coating is preferably directly bonded to the underlying elastomeric article.

The present disclosure relates to a passive-assist glove comprising an impact portion, having a plurality of palm sections configured and arranged in the glove to cover a palm of the hand and allow manipulation of the palm, such that the palm may configure to receive an object during use of the glove. The glove additionally includes a dexterity portion comprising (i) a thumb compartment configured and arranged in the glove to receive a thumb of the hand and allow manipulation of the thumb such that the thumb may configure to receive an object during use of the glove and (ii) at least one finger compartment to configured and arranged in the glove to receive at least one of multiple fingers of the hand and allow manipulation of the at least one finger such that the at least one finger may configure to receive an object during use of the glove.

A glove that is less prone to slip on the hand, and/or that provides for better tactile sensation, and/or that provides a better outer grip. The glove has an outer surface, an inner surface, and one or more of: ridges, an inner grip material, and one or more sensory windows at places where greater tactile sensation is desired. The inner grip material friction with the skin and/or is tacky to help maintain the glove in position on the hand. The glove may also include an outer material and/or throwing grip material.

Articles of clothing, such as gloves having a substantially seamless inner liner and methods of manufacturing the same are disclosed herein. In one embodiment, a process for manufacturing a glove comprises stretching an outer layer inside-out over a glove form, such that an interior surface of the outer layer faces outward. A liner having a first side and a second side opposite the first side is cut from a fabric, such as fleece. An adhesive is deposited in an adhesive pattern onto the first side of the liner. The adhesive fuses to the interior surface of the outer layer in a heat/pressure procedure, thereby affixing the first side of the liner to the interior surface of the outer layer to form the glove. The glove is removed from the glove form and inverted to a right-side-out configuration, thereby compressing the outer layer and the liner.

A utility glove having a palm side including a three dimensional molded palm portion formed of an elastomeric material with a thumb portion and at least one finger portion and a back side of the glove comprising a fabric material, with the molded palm portion formed in a pre-curved configuration to create a concave shape. The molded palm has one or more of thickened areas for abrasion resistance, padded areas for comfort, flex grooves for improved movement, textured grip areas for improved grip and/or perforations for breathability. The molded palm portion may be formed of different elastomeric materials to take advantage of the different characteristics of the particular materials.

A molded portion of the utility glove may be formed by placing a piece of fabric against a mold part formed in the shape of at least a portion of a hand, bringing a corresponding mold part having varying thicknesses into molding relation with the mold part in the shape of at least a portion of the hand and injecting an elastomeric material into the mold to form the molded portion.

An absorbent glove device for absorbing fluids during an oil-change includes a glove. The glove includes an inner layer that is formed of a resiliently deformable rubber material and an outer layer that is formed of an absorbent cloth material. The absorbent cloth material absorbs a fluid contacting the outer layer. The resiliently deformable rubber material inhibits the fluid from permeating the inner layer. The glove further includes a hand portion having a palm section for receiving a palm of the hand and a plurality of finger sections, each of which receive a respective finger of the hand. An arm portion is coupled to and extends outwardly from the hand portion. The arm portion receives the arm of the user and has sufficient length to cover the arm at least up to an elbow.

A coating fabric and method of manufacturing the same are provided. A coated fabric includes a base coating layer. The base coating layer defines a smooth coating to resist liquid penetration to the fabric. The coated fabric also includes a middle foam coating layer that is deposited on at least a portion of the base coating layer. The middle foam layer defines a middle layer foam density and is configured to absorb at least a portion of liquid. The coated fabric further includes an outer foam coating layer that is deposited on at least a portion of the middle foam coating later. The outer foam layer defines an outer layer foam density and is configured with holes to allow liquid to penetrate to the middle foam layer. The middle layer foam density is less than the outer layer foam density. A corresponding method of manufacturing is also provided.

The present invention belongs to the technical field of labor protection products, and specifically relates to an itaconate dipped glove and a surface treatment method, wherein a glove core is taken out after being dipped in an itaconate rubber solution, and directly immersed into a water grinding surface treatment solution for surface treatment of the rubber surface after the steps of rubber dripping and uniformizing, and the surface treated gloves are rinsed after being left to stand, and then dried after the rinsing is completed.

An inner-outer non-skid sleeve worn on a hand or foot, including a front sleeve portion and a rear sleeve portion coupled together. Inner surfaces of the front sleeve portion and the rear sleeve portion have an inner non-skid layer so as to be partially covered with the inner non-skid layer but partially exposed. The inner non-skid layer has a predetermined thickness and thus protrudes from the inner surfaces of the sleeve body. Outer surfaces of the front sleeve portion and the rear sleeve portion have an outer non-skid layer so as to be partially covered with the outer non-skid layer but partially exposed. The outer non-skid layer is in contact with an external object or the ground. The outer non-skid layer has a predetermined thickness and thus protrudes from the outer surface of the sleeve body.