Garments made from a composite, protective fabric are disclosed. The composite fabric has textile layers placed in proximity to metallic mesh layers of woven stainless steel mesh. The metal mesh layers formed from any metal which forms suitable fibers. The textile layers are fabric formed with well-known fabric fibers selected from those including para-aramid fibers, meta-aramid fibers, ultra-high molecular weight polyethylene fibers, polyethylene terephthalate fibers, cellulose fibers, polyamide fibers, a mixture of para-aramid fibers and meta-aramid fibers, and a mixture of para-aramid fibers and carbon fibers. Forming the non-metal textile layers is by any suitable method for interlacing yarns including weaving, knitting, crocheting, knotting, or felting, or combinations thereof. The garments made using the fabric include gloves, bullet proof vests and chain-saw resistant trousers.

Protective materials and protective garments make using the materials are disclosed. The protective materials include metallic mesh layers sandwiched between inner and outer layers of fabric. The mesh is joined at one or both ends to pieces of elastic material that are also sandwiched between the layers of fabric and are joined to them. The metallic meshes are woven from stainless steel fiber having a diameter of less than 0.20 mm and have a largest space between fibers of less than 0.20 mm. The meshes may be regular cut or bias cut or a combination thereof. Multiple meshes may be overlaid such that their respective warp-fiber directions are oriented at an angle of 22.5 +/−5 degrees with respect to each other. The protective material may be used protective clothing such as, but not limited to, gloves, knee and elbow guards as described in detail in the specification.

The present disclosure provides a knitting apparatus, including: a frame; a primary yarn guide mounted on the frame; a primary yarn control rod connected to the primary yarn guide; a secondary yarn guide mounted on the frame; a secondary yarn control rod connected to the secondary yarn guide; a needle plate provided at lower ends of the primary yarn guide and the secondary yarn guide; a control cam separately drives the primary yarn control rod to control the primary yarn guide to move, and drives the secondary yarn control rod to control the secondary yarn guide to move; a tension spring connected to the control cam; and an electromagnet. A magnetic force of the electromagnet drives the tension spring to extend and retract, and further drives the control cam to rotate up and down.

Embodiments of golf gloves having a cut out portion and methods to manufacture gloves having a cut out portion are generally described herein. Other embodiments of gloves may be described and claimed.

Embodiments of golf gloves having a cut out portion and methods to manufacture gloves having a cut out portion are generally described herein. Other embodiments of gloves may be described and claimed.

Embodiments of golf gloves having a cut out portion and methods to manufacture gloves having a cut out portion are generally described herein. Other embodiments of gloves may be described and claimed.

A reusable protective glove with antimicrobial properties. The reusable protective glove is formed from several layers incorporated together. A palm side of the reusable protective glove is formed from a polyester base layer and an antimicrobial outer layer. The antimicrobial outer layer is manufactured from copper mesh fabric or copper metal powder mesh. A back side of the reusable protective glove is formed from an expandable fabric material which is attached to the palm side along a seam. The reusable protective glove is tear resistant. Additionally, the antimicrobial outer layer is capable of killing pathogens on contact preventing retransmission of the pathogens.

A protective glove includes a primary yarn that forms the palm, thumb and finger sections of the glove. The primary yarn has an interior surface forming the interior surface of the glove, and an exterior surface forming the exterior surface of the glove. A plaiting yarn can be plaited to portions of the exterior surface of the primary yarn to form a plurality of enhanced sections on the exterior surface of the glove. The enhanced sections can have at least one substantially enhanced physical characteristic in relation to the primary layer.

Embodiments of a glove including a cut out portion and a reinforcing panel are described herein. In many embodiments, a glove comprises a glove body with a dorsal side, a palmar side, a plurality of finger portions, a thumb portion, and a wrist portion. The wrist portion defines a glove opening in communication with an interior portion defined within the glove body. A reinforcing panel is secured on an outer surface of a palm portion adjacent the wrist portion of the glove body. A cut out portion defines an opening formed through the reinforcing panel and in communication with the interior portion of the glove body to minimize bunching up of the glove body. Other embodiments are also described herein.

The present disclosure provides a knitting apparatus, including: a frame; a primary yarn guide mounted on the frame; a primary yarn control rod connected to the primary yarn guide; a secondary yarn guide mounted on the frame; a secondary yarn control rod connected to the secondary yarn guide; a needle plate provided at lower ends of the primary yarn guide and the secondary yarn guide; a control cam separately drives the primary yarn control rod to control the primary yarn guide to move, and drives the secondary yarn control rod to control the secondary yarn guide to move; a tension spring connected to the control cam; and an electromagnet. A magnetic force of the electromagnet drives the tension spring to extend and retract, and further drives the control cam to rotate up and down.