A glove coating device capable of supplying a coating layer in which pores are uniformly mixed is provided. The glove coating device includes: i) a dipping bath that is adapted to receive a coating liquid; ii) a coating liquid circulation tank installed in the dipping bath and that is spaced apart from a bottom surface of the dipping bath; iii) an impeller located in the dipping bath and that is adapted to transfer the coating liquid to the coating liquid circulation tank; iv) a motor positioned above the impeller to drive the impeller; and v) a drive shaft extending in the vertical direction to interconnect the motor and the impeller. The coating liquid circulation tank includes i) a first side opened to allow the coating liquid to be introduced; a second side formed on the opposite side of the first side and opened in a direction away from the bottom side to apply the coating liquid to overflow; and a flow passage communicating with the first side and the second side. The flow passage includes i) a first flow passage portion that is adapted to communicate with the first side and having a predetermined width that is smaller than the width of the coating liquid circulation tank, and ii) a second flow passage portion communicating with the first flow passage portion and the second side and gradually widening a width of the second flow passage portion from the first flow passage portion to the second side.

A glove coating device capable of supplying a coating layer in which pores are uniformly mixed is provided. The glove coating device includes: i) a dipping bath that is adapted to receive a coating liquid; ii) a coating liquid circulation tank installed in the dipping bath and that is spaced apart from a bottom surface of the dipping bath; iii) an impeller located in the dipping bath and that is adapted to transfer the coating liquid to the coating liquid circulation tank; iv) a motor positioned above the impeller to drive the impeller; and v) a drive shaft extending in the vertical direction to interconnect the motor and the impeller. The coating liquid circulation tank includes i) a first side opened to allow the coating liquid to be introduced; a second side formed on the opposite side of the first side and opened in a direction away from the bottom side to apply the coating liquid to overflow; and a flow passage communicating with the first side and the second side. The flow passage includes i) a first flow passage portion that is adapted to communicate with the first side and having a predetermined width that is smaller than the width of the coating liquid circulation tank, and ii) a second flow passage portion communicating with the first flow passage portion and the second side and gradually widening a width of the second flow passage portion from the first flow passage portion to the second side.

The present disclosure describes a a protective glove for a human hand including a glove body comprised of flexible sheet material and configured to overlie the thumb, the second, third, fourth, and fifth digits, the back of the palm, and the knife edge of the hand of a wearer; for each of the second, third, fourth, and fifth digits, at least one elongate flexible lattice cushion connected to the glove body and overlying the dorsal surface of each digit; and at least one planar flexible lattice cushion configured to overlie the dorsal aspect of the palm.

The present disclosure describes a a protective glove for a human hand including a glove body comprised of flexible sheet material and configured to overlie the thumb, the second, third, fourth, and fifth digits, the back of the palm, and the knife edge of the hand of a wearer; for each of the second, third, fourth, and fifth digits, at least one elongate flexible lattice cushion connected to the glove body and overlying the dorsal surface of each digit; and at least one planar flexible lattice cushion configured to overlie the dorsal aspect of the palm.

An improved glove has both anatomically correlating stress relief zones and/or reinforced zones to add support in areas opposite the stress relief zones to keep bunching or slipping of the glove from interfering with the bending of the user's joints. The glove may have corrugated relief zones over some or all of the joints and knuckles of the hand, wherein the relief zones are formed of peaks and valleys. A relief zone can also be provided over the webbing between the thumb and the palm. The vertical or longitudinal relief zones provide for improved glove quality while keeping manufacturing difficulty and costs at a minimum.

A fixture, system, and method for coating a glove with a coating material are described. A fixture includes a support member and a clamping member movable relative to the support member to a closed position. The clamping member is configured to be at least partially received in a cuff of the glove. In the closed position, the cuff is captured between the clamping member and the support member. In this configuration, a majority of an external surface of the glove is exposed for being coated. A glove-coating system can include one or more fixtures on a conveyor that move the fixture around various processing stages of the glove-coating system. In certain methods of coating a glove, coating material is applied to the glove while the glove is suspended from the fixture. The coated glove can be removed from the fixture without being everted.

A fixture, system, and method for coating a glove with a coating material are described. A fixture includes a support member and a clamping member movable relative to the support member to a closed position. The clamping member is configured to be at least partially received in a cuff of the glove. In the closed position, the cuff is captured between the clamping member and the support member. In this configuration, a majority of an external surface of the glove is exposed for being coated. A glove-coating system can include one or more fixtures on a conveyor that move the fixture around various processing stages of the glove-coating system. In certain methods of coating a glove, coating material is applied to the glove while the glove is suspended from the fixture. The coated glove can be removed from the fixture without being everted.

Provided is: A glove dipping composition including, at least: an elastomer that contains a (meth)acrylonitrile-derived structural unit, an unsaturated carboxylic acid-derived structural unit and a butadiene-derived structural unit in a polymer main chain; a polycarbodiimide; zinc oxide and/or an aluminum complex; water; and at least one pH modifier selected from an ammonium compound and an amine compound, in which glove dipping composition the polycarbodiimide includes at least one polycarbodiimide containing a hydrophilic segment in its molecular structure and has an average polymerization degree of 3.8 or higher and a carbodiimide equivalent of 260 to 600; the polycarbodiimide is added in an amount of 0.1 to 4.0% by weight and zinc oxide and/or the aluminum complex is/are added in an amount of 0.1 to 5.6% by weight with respect to the total solid content of the glove dipping composition; and the glove dipping composition has a pH of 9.0 to 11.5.

Provided is: A glove dipping composition including, at least: an elastomer that contains a (meth)acrylonitrile-derived structural unit, an unsaturated carboxylic acid-derived structural unit and a butadiene-derived structural unit in a polymer main chain; a polycarbodiimide; zinc oxide and/or an aluminum complex; water; and at least one pH modifier selected from an ammonium compound and an amine compound, in which glove dipping composition the polycarbodiimide includes at least one polycarbodiimide containing a hydrophilic segment in its molecular structure and has an average polymerization degree of 3.8 or higher and a carbodiimide equivalent of 260 to 600; the polycarbodiimide is added in an amount of 0.1 to 4.0% by weight and zinc oxide and/or the aluminum complex is/are added in an amount of 0.1 to 5.6% by weight with respect to the total solid content of the glove dipping composition; and the glove dipping composition has a pH of 9.0 to 11.5.

A method of manufacturing a textured former and a glove made therefrom, wherein the method comprises preparing a hand-shaped ceramic greenware, scanning the hand-shaped ceramic greenware to generate a digital 3D hand-shaped greenware model, modelling a pair of stencil covers with curvy texture line based on the digital 3D hand-shaped greenware model, printing the stencil covers, creating a curvy palm texture on the hand-shaped ceramic greenware with the aid of the stencil covers, firing the hand-shaped ceramic greenware with curvy palm texture in a kiln and dipping the hand-shaped ceramic former with curvy palm texture in an aqueous colloidal dispersion to produce glove with curvy palm texture.