Method for producing ultra-high molecular weight polyethylene cotton-type anti-cutting gloves

A technology of ultra-high molecular weight and polyethylene, applied in protective clothing, clothing, clothing, etc., can solve the problems of airtight sweat absorption and high cost, and achieve the effect of comfortable and convenient wearing, good elasticity, and not easy to snag

Active Publication Date: 2015-08-05
JIANGSU HANVO SAFETY PROD CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Most of the existing cut-resistant gloves use the method of adding steel wir

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Example Embodiment

Specific embodiment one:

[0023] A preparation method of ultra-high molecular weight polyethylene cotton-type cut-resistant gloves. The gloves pass yarns: ultra-high molecular weight polyethylene / polyester staple fiber blended yarn, polyester covered spandex covered yarn, and PVC covered glass fiber spandex long Mixed knitting of silk yarn and elastic yarn; knitted ribbed cuffs are used to close the cuffs of the knitted gloves. Under the condition of 120℃, the edging is formed by hot-melting machine and the surface is chemically treated with waterproof finishing agent. , Get the finished product.

[0024] Use a fully computerized U3 high-speed glove knitting machine for knitting. The needle pitch is 13-needle knitting program. When the palm and fingers are knitting, 40 parts of the said ultra-high molecular weight polyethylene / polyester blended yarn is selected, and the cotton-covered spandex core-spun 10 parts of yarn, 30 parts of PVC-coated glass fiber spandex filament yarn.

[...

Example Embodiment

Specific embodiment two:

[0026] A preparation method of ultra-high molecular weight polyethylene cotton-type cut-resistant gloves. The gloves pass yarns: ultra-high molecular weight polyethylene / polyester staple fiber blended yarn, polyester covered spandex covered yarn, and PVC covered glass fiber spandex long Mixed knitting of silk yarn and elastic thread; knitted ribbed cuffs are used to close the cuffs of the knitted gloves. Under the condition of a temperature of 180 ℃, the edging is formed by hot-melt machine and the surface is chemically treated with waterproof finishing agent. , Get the finished product.

[0027] Use a fully computerized U3 high-speed glove knitting machine for knitting, with a 15-needle knitting program. When knitting the palm and fingers, use 50 parts of the said yarn ultra-high molecular weight polyethylene / polyester blended yarn, cotton-covered spandex core-spun 30 parts of yarn and 40 parts of PVC coated glass fiber spandex filament yarn.

[0028] Wh...

Example Embodiment

Specific embodiment three:

[0029] A method for preparing ultra-high molecular weight polyethylene cotton-type cut-resistant gloves. The gloves pass yarns: ultra-high molecular weight polyethylene / polyester staple fiber blended yarn, polyester covered spandex covered yarn, PVC covered glass fiber spandex long Mixed knitting of silk yarn and elastic thread; knitted ribbed cuffs are used to close the cuffs of the knitted gloves. Under the condition of 130℃, the edging is formed by hot-melting machine and the surface is chemically treated with waterproof finishing agent. , Get the finished product.

[0030] Use a fully computerized U3 high-speed glove knitting machine for knitting. The needle pitch is 15-needle knitting program. When the palm and fingers are knitting, 42 parts of the said yarn ultra-high molecular weight polyethylene / polyester blended yarn is selected, and the cotton-covered spandex core-spun 16 parts of yarn, 33 parts of PVC coated glass fiber spandex filament yarn...

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Abstract

The invention discloses a method for producing ultra-high molecular weight polyethylene cotton-type anti-cutting gloves. The gloves are formed by mixing and weaving of yarns such as ultra-high molecular weight polyethylene/polyester staple fiber blended yarns, polyester spandex wrap yarns, polyvinyl chloride (PVC) coated glass fiber spandex filament yarns and elastic yarns, cuffs of woven gloves are closed up by knitted rib cuffs, hot melting edge wrapping and one-time forming are achieved through a hot melting machine at the temperature from 120 DEG C to 180 DEG C, and surface chemical processing is performed through water-proof finishing agents so that finished products can be obtained. According to the method for producing the ultra-high molecular weight polyethylene cotton-type anti-cutting gloves, the process is simple, large-scale automatic production can be achieved, the anti-cutting performance of the gloves is high, the elasticity is good, a user can conveniently and comfortably wear the gloves, and the operation is flexible. Besides, the dust-proof effect is good, and harm to products due to falling of fibers of the gloves can be avoided. The gloves can be widely applied to people in special industries such as automobile assembly industry, glass industry, metal rolling sheet industry, cutting industry, recovery processing industry, police and the like.

Description

Technical field [0001] The invention relates to a labor protection glove, in particular to a preparation method of an ultra-high molecular weight polyethylene blended yarn staple fiber cut-resistant protection glove. Background technique [0002] Most of the existing anti-cut gloves adopt a method of adding steel wire or carbon fiber inside the gloves, which has high cost and is not breathable and sweat-absorbent. Ultra High Molecular Weight Polyethylene Fiber PE (Ultra High Molecular Weight Polyethylene Fiber PE), also known as high-strength modulus polyethylene fiber, high-performance polyethylene fiber, high-orientation polyethylene fiber, has high modulus, high performance, corrosion resistance, Low density and other characteristics, together with aramid and carbon fiber, are called the three high-performance fibers. At present, PE fiber cut-resistant gloves and other industrialized application products are basically filament products. In contrast, PE staple fiber and yarn p...

Claims

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Application Information

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IPC IPC(8): A41D19/015A41D31/00
Inventor 张炜栋黄旭张娟
Owner JIANGSU HANVO SAFETY PROD CO LTD
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