CN108783680A - The production method of high-performance anti-cutting gloves core - Google Patents

Abstract

This application discloses the production method of high-performance anti-cutting gloves core, yarn passes through：Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn, superhigh molecular weight polyethylene fibers/spandex thread, shirr mixed weaving form；It is closed up at gloves cuff after braiding with being knitted hot melt side Ribknit cuff；After gloves are dried by special gum dipping process impregnation, finished product is obtained.Present invention process is stablized, can mass automatic production, the gloves thickness is moderate, and wearing comfort is convenient, and operation is nimbly and freely.And there is the anti-cutting force of high-performance, injury of the hand in high-risk operating process can be protected.Glass industry, metal-processing industry, wood-processing industry, recovery processing industry etc. be can be widely applied to the higher industry of hand protection level requirements.

Description

The production method of high-performance anti-cutting gloves core

Technical field

The present invention relates to labor-insurance protective glove more particularly to a kind of ultra-high molecular weight polyethylene/glass/stainless steel fibre are high The preparation method of performance anti-cutting gloves.

Background technology

Existing gloves are all common knitting and sewn glove in the market, and the anti-cutting grade of gloves is general, and gloves all compare More thick and solid, pliability is not good enough, and wearing is not very comfortable.

Invention content

The present invention provides a kind of systems of ultra-high molecular weight polyethylene/glass/stainless steel fibre high-performance anti-cutting gloves Preparation Method.The gloves ultrathin type prepared is super soft, has stronger anti-cutting force, and wearing comfort is convenient, pastes hand, gas permeability By force, nimbly and freely, gripping power is strong, and absorption of perspiration is strong for operation.And there is preferable dust-proof effect, avoid gloves itself from being fallen because of fiber And the pollution caused by product.It can be widely applied to glass industry, metal-processing industry, wood-processing industry, recovery processing industry etc. pair The higher industry of hand protection class requirement.

According to an aspect of the present invention, the production method for providing high-performance anti-cutting gloves core, gloves pass through yarn packet Rear double braid is covered to form；Yarn is selected from：Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn surpass One or more of high molecular weight polyethylene fiber/spandex thread, shirr；To be knitted hot melt side at gloves cuff after braiding Ribknit cuff closes up；After gloves are dried by special gum dipping process impregnation, finished product is obtained.

In some embodiments：Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn cladding Superhigh molecular weight polyethylene fibers specification in yarn is：One kind in 100D, 200D；Fiberglass size is：In 100D, 200D One kind；Stainless steel fibre specification is：One kind in 0.035mm, 0.050mm, 0.070mm, 0.10mm；Nylon yarn specification is： One kind in 70D/1,70D/2.

In some embodiments：Superhigh molecular weight polyethylene in superhigh molecular weight polyethylene fibers/spandex thread wrap yarn Alkene fiber dimensious is：One kind in 400D, 600D；Spandex thread specification is：One kind in 70D, 140D, 280D.

In some embodiments：Shirr specification is：The outer double-contracting 100D Polyamide Yarns of 100# rubber latex threads or 100D dacron threads In one kind；Or one kind in the outer double-contracting 140D Polyamide Yarns of 80# rubber latex threads or 150D dacron threads.

In some embodiments：Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn cladding Yarn is formed by full-computerized coating machine double-coating；25~45 parts of superhigh molecular weight polyethylene fibers of selection, glass fibre 25~ 45 parts, 25~45 parts of stainless steel fibre, 10~25 parts of nylon yarn.

In some embodiments：Superhigh molecular weight polyethylene fibers/spandex thread wrap yarn pass through full-computerized coating machine Double-coating forms；Select 75~90 parts of superhigh molecular weight polyethylene fibers, 10~25 parts of spandex thread.

In some embodiments：Ultra-high molecular weight polyethylene/glass/stainless steel fibre high-performance anti-cutting gloves are selected Full-computerized U2 glove knitting machines are knitted, and needle gage selects 10 needles, 13 needles, 15 needle boards；The yarn ultra-high molecular weight polyethylene of selection Fiber/glass fibre/45~65 parts of stainless steel fibre/nylon yarn, 35~55 parts of superhigh molecular weight polyethylene fibers/spandex thread, 5~10 parts of double braids of shirr form.

Advantageous effect：Present invention process stablize, can mass automatic production, the gloves thickness is moderate, wearing comfort side Just, it operates nimbly and freely.And there is the anti-cutting force of high-performance, injury of the hand in high-risk operating process can be protected.It can be extensive Applied to glass industry, metal-processing industry, wood-processing industry, recovery processing industry etc. to the higher row of hand protection level requirements Industry.

Specific implementation mode

Invention is further described in detail below.

The production method of high-performance anti-cutting gloves core, includes the following steps：

The present invention's is summarized as follows：Superhigh molecular weight polyethylene fibers specification is：In 100D, 200D, 400D, 600D It is a kind of.

Fiberglass size is：One kind in 100D, 200D.

Stainless steel fibre specification is：One kind in 0.035mm, 0.050mm, 0.070mm, 0.10mm.

Nylon yarn specification is：One kind in 70D/1,70D/2.

Spandex thread specification is：One kind in 70D, 140D, 280D.

Shirr specification is：One kind in the outer double-contracting 100D Polyamide Yarns of 100# rubber latex threads or 100D dacron threads；Or 80# latexes One kind in the outer double-contracting 140D Polyamide Yarns of silk or 150D dacron threads.

Case one：

Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn wrap yarn passes through full-computerized coating machine Double-coating forms；Select 26 parts of superhigh molecular weight polyethylene fibers, 28 parts of glass fibre, 28 parts of stainless steel fibre, nylon yarn 18 parts；Superhigh molecular weight polyethylene fibers/spandex thread wrap yarn formed by full-computerized coating machine double-coating；Select superelevation 91 parts of molecular weight polyethylene fiber, 9 parts of spandex thread；

Full-computerized U2 glove knitting machines are selected to be knitted, needle gage selects 13 needle boards；The yarn superhigh molecular weight polyethylene of selection Alkene fiber/glass fibre/58 parts of stainless steel fibre/nylon yarn, 36 parts of superhigh molecular weight polyethylene fibers/spandex thread, shirr 6 Part double braid is closed up with being knitted hot melt side Ribknit cuff at gloves cuff；The gloves core that knitting is completed is passed through into special leaching After the drying of adhesive process impregnation, finished product is obtained.

Case two：

Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn wrap yarn passes through full-computerized coating machine Double-coating forms；Select 30 parts of superhigh molecular weight polyethylene fibers, 15 parts of glass fibre, 45 parts of stainless steel fibre, nylon yarn 10 parts；Superhigh molecular weight polyethylene fibers/spandex thread wrap yarn formed by full-computerized coating machine double-coating；Select superelevation 75 parts of molecular weight polyethylene fiber, 25 parts of spandex thread；

Full-computerized U2 glove knitting machines are selected to be knitted, needle gage selects 13 needle boards；The yarn superhigh molecular weight polyethylene of selection Alkene fiber/glass fibre/52 parts of stainless steel fibre/nylon yarn, 42 parts of superhigh molecular weight polyethylene fibers/spandex thread, shirr 6 Part double braid is closed up with being knitted hot melt side Ribknit cuff at gloves cuff；The gloves core that knitting is completed is passed through into special leaching After the drying of adhesive process impregnation, finished product is obtained.

Case three：

Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn wrap yarn passes through full-computerized coating machine Double-coating forms；Select 18 parts of superhigh molecular weight polyethylene fibers, 30 parts of glass fibre, 32 parts of stainless steel fibre, nylon yarn 20 parts；Superhigh molecular weight polyethylene fibers/spandex thread wrap yarn formed by full-computerized coating machine double-coating；Select superelevation 84 parts of molecular weight polyethylene fiber, 16 parts of spandex thread；

Full-computerized U2 glove knitting machines are selected to be knitted, needle gage selects 15 needle boards；The yarn superhigh molecular weight polyethylene of selection Alkene fiber/glass fibre/54 parts of stainless steel fibre/nylon yarn, 39 parts of superhigh molecular weight polyethylene fibers/spandex thread, shirr 7 Part double braid is closed up with being knitted hot melt side Ribknit cuff at gloves cuff；The gloves core that knitting is completed is passed through into special leaching After the drying of adhesive process impregnation, finished product is obtained.

Case four：

Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn wrap yarn passes through full-computerized coating machine Double-coating forms；Select 20 parts of superhigh molecular weight polyethylene fibers, 35 parts of glass fibre, 25 parts of stainless steel fibre, nylon yarn 20 parts；Superhigh molecular weight polyethylene fibers/spandex thread wrap yarn formed by full-computerized coating machine double-coating；Select superelevation 90 parts of molecular weight polyethylene fiber, 10 parts of spandex thread；

Full-computerized U2 glove knitting machines are selected to be knitted, needle gage selects 13 needle boards；The yarn superhigh molecular weight polyethylene of selection Alkene fiber/glass fibre/44 parts of stainless steel fibre/nylon yarn, 50 parts of superhigh molecular weight polyethylene fibers/spandex thread, shirr 6 Part double braid is closed up with being knitted hot melt side Ribknit cuff at gloves cuff；The gloves core that knitting is completed is passed through into special leaching After the drying of adhesive process impregnation, finished product is obtained.

Case five：

Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn wrap yarn passes through full-computerized coating machine Double-coating forms；Select 20 parts of superhigh molecular weight polyethylene fibers, 35 parts of glass fibre, 25 parts of stainless steel fibre, nylon yarn 20 parts；Superhigh molecular weight polyethylene fibers/spandex thread wrap yarn formed by full-computerized coating machine double-coating；Select superelevation 85 parts of molecular weight polyethylene fiber, 15 parts of spandex thread；

Full-computerized U2 glove knitting machines are selected to be knitted, needle gage selects 13 needle boards；The yarn superhigh molecular weight polyethylene of selection Alkene fiber/glass fibre/45 parts of stainless steel fibre/nylon yarn, 50 parts of superhigh molecular weight polyethylene fibers/spandex thread, shirr 5 Part double braid is closed up with being knitted hot melt side Ribknit cuff at gloves cuff；The gloves core that knitting is completed is passed through into special leaching After the drying of adhesive process impregnation, finished product is obtained.

The above is only one embodiment of the present invention, it is noted that those skilled in the art, Without departing from the concept of the premise of the invention, several similar modification and improvement can also be made, these also should be regarded as this Within the protection domain of invention.

Claims (7)

1. the production method of high-performance anti-cutting gloves core, it is characterised in that：The gloves core is double-deck after being coated by yarn to be compiled It knits, the yarn is selected from：Superhigh molecular weight polyethylene fibers/glass fibre/stainless steel fibre/nylon yarn wrap yarn surpass One or more of high molecular weight polyethylene fiber/spandex thread wrap yarn, shirr；To be knitted at gloves cuff after braiding Side Ribknit cuff is heated to close up；After gloves are dried by special gum dipping process impregnation, finished product is obtained.

2. the production method of high-performance anti-cutting gloves core according to claim 1, it is characterised in that：The supra polymer Superhigh molecular weight polyethylene fibers specification in weight polyethylene fiber/glass fibre/stainless steel fibre/nylon yarn wrap yarn is： One kind in 100D, 200D；Fiberglass size is：One kind in 100D, 200D；Stainless steel fibre specification is：0.035mm, One kind in 0.050mm, 0.070mm, 0.10mm；Nylon yarn specification is：One kind in 70D/1,70D/2.

3. the production method of high-performance anti-cutting gloves core according to claim 1, it is characterised in that：The supra polymer Superhigh molecular weight polyethylene fibers specification in weight polyethylene fiber/spandex thread wrap yarn is：One kind in 400D, 600D；Ammonia Synthetic fibre silk specification is：One kind in 70D, 140D, 280D.

4. the production method of high-performance anti-cutting gloves core according to claim 1, it is characterised in that：The elastic line gauge Lattice are：One kind in the outer double-contracting 100D Polyamide Yarns of 100# rubber latex threads or 100D dacron threads；Or the outer double-contracting 140D polyamide fibres of 80# rubber latex threads One kind in silk or 150D dacron threads.

5. the production method of high-performance anti-cutting gloves core according to claim 2, it is characterised in that：By the superelevation point Sub- weight polyethylene fiber/glass fibre/stainless steel fibre/nylon yarn wrap yarn is formed by full-computerized coating machine double-coating； Select 25~45 parts of the superhigh molecular weight polyethylene fibers, 25~45 parts of glass fibre, 25~45 parts of stainless steel fibre, nylon 10~25 parts of silk.

6. the production method of high-performance anti-cutting gloves core according to claim 3, it is characterised in that：By the superelevation point Sub- weight polyethylene fiber/spandex thread wrap yarn is formed by full-computerized coating machine double-coating；Select the super high molecular weight poly- 75~90 parts of vinyl fiber, 10~25 parts of spandex thread.

7. the production method of high-performance anti-cutting gloves core according to claim 1, it is characterised in that：Select full-computerized U2 Glove knitting machine is knitted, and needle gage selects 13 needles, 15 needle boards；Select the yarn superhigh molecular weight polyethylene fibers/glass fibers Dimension/45~65 parts of stainless steel fibre/nylon yarn, 35~55 parts of superhigh molecular weight polyethylene fibers/spandex thread, shirr 5~10 Part double braid forms.