A glove apparatus is disclosed comprising a substantially glove-shaped first layer, a substantially glove-shaped second layer, and an attachment tab comprising a lower portion, an upper portion, and an extension portion. The attachment tab is attached to a finger portion of the second layer along the lower portion and along the upper portion. The extension portion extends from the attachment tab at a location distal from a fingertip of the second layer and overlies the upper portion to an attachment region on the first layer proximate a fingertip of the first layer, the fingertips of the first layer and of the second layer thereby lying substantially near or in contact with one another.

A glove made from a reinforced multilayer material can prevent cuts and/or abrasions. The glove can include and exterior layer and at least one interior layer, the interior layer consisting of an ultra-high molecular weight polyethylene filaments. While the interior layer can entirely cover a hand of a wearer of the glove, the exterior layer does not cover the index finger of the wearer, such that the wearer's dexterity, precision, and sensitivity in their index finger are improved.

The invention relates to a textile item of clothing (100, 200, 300, 400, 500, 600) equipped for ballistic protection. Said textile item of clothing (100, 200, 300, 400, 500, 600) has a knitted structure (1) or a darned structure made of at least two yarns (2, 3), the knitted structure (1) or darned structure having ballistic parts and fire-resistant parts.

The invention provides a core yarn of a tough yarn for knitting and weaving a glove and the other knitted and woven fabric which are suitable for a worker using a cutting tool to wear, are excellent in a flexibility and an economic efficiency, prevent a folded end of a hard fiber from being exposed to apply a sense of discomfort to a wearer, and have a cutting resistance, and a tough yarn which uses the core yarn. A core yarn of a tough yarn is formed by compounding a hard fiber and a molten fiber, and fusion bonding the molten fiber to the hard fiber. Further, the tough yarn is formed by winding a winding yarn to the core yarn. A lower layer fiber may be further included between the hard fiber and the molten fiber.

A glove (2) which defines a main body portion (4) and five digit elements (6, 8, 10, 12, 14) extending from main body portion, wherein each digit element includes a ring portion defined at a proximal end of the digit element and at least one of the ring portions includes a reinforcing element (16). The reinforcing element is suitably expandable in at least one direction.

A safety glove having a protective member or insert extending around the fingertip of the safety glove is provided. The protective member may be positioned along the outer surface or the inner surface of the glove. Alternatively, the protective member may be integrally formed between two layers of glove material. The protective member terminates distally from an interphalangeal joint line to enable finger flexion in order to grasp an item, such as a slab of meat to be deskinned in a skinning machine. The glove may include a rough outer surface formed from thrice dipping the glove and allowing the glove to cure. Additionally, the glove may have a width near the wrist that is wider than the width near the palm to enable the glove to be rapidly removed (i.e., doffed) in an emergency event of the glove getting caught in a rotating blade on the skinning machine.

A knitted glove includes a knitted fabric including, multiple stages of a first course each of which has a plurality of first loops and a first cross element to connect the first loops to each other and in which the plurality of first loops are aligned in the course direction; and multiple stages of a second course each of which has a plurality of second loops and in which the plurality of second loops are aligned in the course direction, the first knitting yarn constituting the first course has an elongation rate of 12.5% or more, a second knitting yarn includes a yarn containing a cut resistant fiber, between at least one set of two adjacent first loops in one stage of the first course, a loop in another stage of the courses is arranged, and the first cross element is knitted so as to cross over the loop.

Provided is a cut resistant glove having stretchability and being superior in the texture and fit while a string made of a metal or glass fiber is prevented from sticking out, irrespective of the gauge number. A cut resistant glove having a glove main body manufactured by plating knitting using a ground yarn and an additional yarn, in which the ground yarn includes a core material, and a cover yarn wound around the core material, the core material having a string made of a metal or glass fiber, and the additional yarn being made of an organic fiber, and in which the ratio of the average thickness of the additional yarn to the average thickness of the ground yarn is no less than 0.9 and no greater than 2.5. The core material preferably further has a support yarn made of an organic fiber arranged along the string.

A glove for use with capacitive touch screen devices features a main body portion, a finger portion and a thumb portion. At least the finger portion of the glove is constructed from a conductive and cut resistant yarn. The conductive and cut resistant yarn preferably includes a core that includes a cut resistant fiber and a sheath that include a conductive fiber.

A layered, laminated glove includes an outer layer, a membrane formed from a liquid-resistant, air permeable material positioned on an inner surface of the outer layer and a liner formed from a moisture absorbing material. The liner is positioned on an inner surface of the membrane. The outer layer, membrane and liner are laminated to form a single glove. The glove includes a plurality of fingertip portions in which the outer layer, membrane and liner are substantially fully laminated throughout. The glove may include a 3D pattern formed in one or more layers of the laminate. The glove may include an enlarged knuckle section. A hand mold and system for making the gloves and a method are also disclosed.