CN115216959A - Production process of graphite anti-static knitted gloves - Google Patents

Abstract

The invention discloses a production process of graphite anti-static knitted gloves, which comprise a woven layer, a graphite anti-static layer, an electric insulation layer, a heat preservation layer, a fire-proof layer, a wear-resistant layer and an anti-slip layer, wherein the fire-proof layer is made of aqueous solution of zinc silicate, aluminum hydroxide, chlorinated rubber and silica gel, the weight ratio of the components is 5-8 parts, 10-12 parts, 20-24 parts and 18-21 parts, and the anti-slip layer is made of quartz sand, a curing agent and polyester paint. The invention has the beneficial effects that: the electric insulation performance and the anti-static capacity of the knitted gloves are improved, the knitted gloves are insulated and heat-insulated, heat transfer is reduced at high temperature, the fire resistance and the fire resistance temperature are improved, abrasion on the surfaces of the knitted gloves is effectively reduced, the service life of the gloves is prolonged, meanwhile, the friction force of fingers is increased, and the possibility that an object slides relative to the knitted gloves is reduced.

Description

Production process of graphite anti-static knitted gloves

Technical Field

The invention relates to the technical field of textiles, in particular to a production process of graphite anti-static knitted gloves.

Background

The knitted gloves are made up of various kinds of textile fibre or blended yarn through knitting, sewing, napping or fulling, heat-setting and finishing, and features that when the knitted gloves are knitted, the yarn and elastic thread are used to increase the elasticity of the rib top. The existing knitted gloves do not have the functions of static resistance, skid resistance, fire resistance and the like, are relatively complex in production steps, high in manufacturing cost, inconvenient to use and limited to a certain extent.

Disclosure of Invention

The invention mainly aims to provide a production process of graphite anti-static knitted gloves, which can effectively solve the problems that the existing knitted gloves in the background technology do not have the functions of static resistance, skid resistance, fire resistance and the like, the production steps are complex, the manufacturing cost is high, the knitted gloves are inconvenient to use and have certain limitations.

In order to achieve the purpose, the invention adopts the technical scheme that:

the graphite antistatic knitted glove comprises a woven layer, a graphite antistatic layer, an electric insulating layer, a heat insulating layer, a fireproof layer, a wear-resistant layer and an anti-slip layer.

Preferably, the material of the fire-proof layer is composed of an aqueous solution of zinc silicate, aluminum hydroxide, chlorinated rubber and silica gel, and the weight ratio of each component is 5-8 parts, 10-12 parts, 20-24 parts and 18-21 parts.

Preferably, the material of the anti-skid layer is composed of quartz sand, a curing agent and polyester paint, and the weight ratio of each component is 20-23 parts, 3-4 parts and 5-7 parts.

Preferably, the heat insulation layer is a water-based copolymer emulsion coating, the wear-resistant layer is a polyurethane modified epoxy resin wear-resistant coating, and the electric insulation layer is a polystyrene coating.

Preferably, the production process of the graphite antistatic knitted glove comprises the following steps:

s1, soaking, namely sleeving a woven layer on a glove model, and further soaking;

s2, performing anti-static and electric insulation treatment, namely after the step S1 is finished, placing the glove model on a conveying device, sequentially performing graphite coating gum dipping treatment and polystyrene coating gum dipping treatment on the glove, and sequentially performing air drying and cooling treatment;

s3, fireproof heat preservation treatment, namely after the step S2 is finished, preparing fireproof paint, wherein zinc silicate, aluminum hydroxide, chlorinated rubber and silicon dioxide gel are prepared according to the weight ratio of 7 parts, 10 parts, 22 parts and 20 parts respectively, and then the gloves are sequentially subjected to fireproof paint dipping treatment and water-based copolymer emulsion paint dipping treatment, and are sequentially subjected to air drying and cooling treatment;

s4, wear-resistant and anti-skid treatment, namely after the step S3 is finished, preparing an anti-skid coating, wherein the quartz sand, the curing agent and the polyester paint are prepared according to the weight ratio of 22 parts, 3 parts and 6 parts respectively, then the gloves are subjected to polyurethane modified epoxy resin wear-resistant coating gum dipping treatment, then the finger parts of the gloves are subjected to anti-skid coating gum dipping treatment, and air drying and cooling treatment are sequentially carried out;

s5, vulcanizing, namely vulcanizing the gloves, and soaking and cleaning the gloves in warm water;

and S6, quality detection and warehousing, wherein the thread ends of the produced knitted gloves are cut, and after the thread ends are detected to be qualified, the thread ends are packaged, processed and warehoused.

Preferably, the time for the sulfurization in the step S5 is 1.2 hours.

Compared with the prior art, the invention has the following beneficial effects: through graphite antistatic backing and the polystyrene coating that sets up, knitted gloves electrical insulation performance has been increased and antistatic capacity, aqueous copolymerization emulsion coating and flame retardant coating through setting up, make knitted gloves heat insulation, reduce thermal transmission under high temperature, fire resistance and refractory temperature have been improved, polyurethane modified epoxy wear-resistant coating and skid resistant course through setting up, the wearing and tearing that effectual reduction knitted gloves surface received, and then the life of gloves has been prolonged, the frictional force of finger department has been increased simultaneously, reduce the gliding possibility of the relative knitted gloves of object.

Drawings

FIG. 1 is a process flow diagram of the production process of the antistatic knitted graphite glove of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

The graphite antistatic knitted glove comprises a woven layer, a graphite antistatic layer, an electric insulating layer, a heat insulating layer, a fireproof layer, a wear-resistant layer and an anti-slip layer.

In the embodiment, the material of the fire-proof layer is composed of zinc silicate, aluminum hydroxide, chlorinated rubber and aqueous solution of silicon dioxide gel, and the weight ratio of each component is 5-8 parts, 10-12 parts, 20-24 parts and 18-21 parts.

In the embodiment, the material of the anti-slip layer is composed of quartz sand, a curing agent and polyester paint, and the weight ratio of each component is 20-23 parts, 3-4 parts and 5-7 parts.

In this embodiment, the insulating layer is a water-based copolymer emulsion coating, the wear-resistant layer is a polyurethane-modified epoxy resin wear-resistant coating, and the electrical insulating layer is a polystyrene coating. In this embodiment, in step S1, the hard board core board and the soft board core board are fixed by the gap inner glue.

In this embodiment, a production process of a graphite antistatic knitted glove includes the following steps:

s1, soaking, namely sleeving a woven layer on a glove model, and further soaking;

s2, performing anti-static and electric insulation treatment, namely after the step S1 is finished, placing the glove mold on a conveying device, sequentially performing graphite coating gum dipping treatment and polystyrene coating gum dipping treatment on the glove, and sequentially performing air drying and cooling treatment;

s3, fireproof heat preservation treatment, namely after the step S2 is finished, preparing fireproof paint, wherein zinc silicate, aluminum hydroxide, chlorinated rubber and silicon dioxide gel are prepared according to the weight ratio of 7 parts, 10 parts, 22 parts and 20 parts respectively, and then the gloves are sequentially subjected to fireproof paint dipping treatment and water-based copolymer emulsion paint dipping treatment, and are sequentially subjected to air drying and cooling treatment;

s4, wear-resistant and anti-skid treatment, namely after the step S3 is finished, preparing an anti-skid coating, wherein the quartz sand, the curing agent and the polyester paint are prepared according to the weight ratio of 22 parts, 3 parts and 6 parts respectively, then the gloves are subjected to polyurethane modified epoxy resin wear-resistant coating gum dipping treatment, then the finger parts of the gloves are subjected to anti-skid coating gum dipping treatment, and air drying and cooling treatment are sequentially carried out;

s5, vulcanizing, namely vulcanizing the gloves, and soaking and cleaning the gloves in warm water;

and S6, quality detection and warehousing, wherein the thread ends of the produced knitted gloves are cut, and after the thread ends are detected to be qualified, the thread ends are packaged, processed and warehoused.

In this example, the time for the sulfurization in step S5 was 1.2 hours.

The invention relates to a production process of a graphite anti-static knitted glove, during the production, a weaving layer is sleeved on a glove model, the glove model is further soaked in water, the glove model is placed on a conveying device, the glove is sequentially subjected to graphite coating dipping treatment and polystyrene coating dipping treatment, and is sequentially subjected to air drying and cooling treatment, a fireproof coating is prepared, zinc silicate, aluminum hydroxide, chlorinated rubber and silicon dioxide gel are respectively prepared according to the weight ratios of 7 parts, 10 parts, 22 parts and 20 parts, the glove is sequentially subjected to fireproof coating dipping treatment and water-based copolymerization emulsion coating dipping treatment, is sequentially subjected to air drying and cooling treatment, is prepared, an anti-slip coating is prepared, quartz sand, a curing agent and polyester paint are respectively prepared according to the weight ratios of 22 parts, 3 parts and 6 parts, the glove is subjected to polyurethane modified epoxy resin wear-resistant coating dipping treatment, then the finger part of the glove is subjected to anti-slip coating dipping treatment, is sequentially subjected to air drying and cooling treatment, is subjected to vulcanization treatment, and is soaked in warm water for cleaning, wherein the vulcanization time is 1.2 hours, the produced knitted wire is subjected to dipping treatment, and is packaged, and the head of the glove is detected and cut and then is qualified.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (6)

1. A production process of graphite antistatic knitted gloves is characterized in that: the graphite anti-static knitted glove comprises a woven layer, a graphite anti-static layer, an electric insulating layer, a heat insulating layer, a fireproof layer, a wear-resistant layer and an anti-slip layer.

2. The production process of the graphite antistatic knitted gloves according to claim 1, wherein the fire-proof layer is made of an aqueous solution of zinc silicate, aluminum hydroxide, chlorinated rubber and silica gel, and the components are 5-8 parts, 10-12 parts, 20-24 parts and 18-21 parts by weight.

3. The production process of the graphite antistatic knitted gloves according to claim 2, wherein the material of the antiskid layer is composed of quartz sand, a curing agent and polyester paint, and the weight ratio of the components is 20-23 parts, 3-4 parts and 5-7 parts.

4. The production process of the graphite antistatic knitted gloves according to claim 3, wherein the heat-insulating layer is a water-based copolymer emulsion coating, the wear-resistant layer is a polyurethane modified epoxy resin wear-resistant coating, and the electric insulating layer is a polystyrene coating.

5. The production process of the graphite antistatic knitted glove according to claim 4, characterized by comprising the following steps:

s1, soaking, namely sleeving a woven layer on a glove model, and further soaking;

s2, performing anti-static and electric insulation treatment, namely after the step S1 is finished, placing the glove model on a conveying device, sequentially performing graphite coating gum dipping treatment and polystyrene coating gum dipping treatment on the glove, and sequentially performing air drying and cooling treatment;

s3, fireproof heat preservation treatment, namely after the step S2 is finished, preparing fireproof paint, wherein zinc silicate, aluminum hydroxide, chlorinated rubber and silicon dioxide gel are prepared according to the weight ratio of 7 parts, 10 parts, 22 parts and 20 parts respectively, and then the gloves are sequentially subjected to fireproof paint dipping treatment and water-based copolymer emulsion paint dipping treatment, and are sequentially subjected to air drying and cooling treatment;

s4, wear-resistant and anti-skid treatment, namely after the step S3 is finished, preparing an anti-skid coating, wherein the quartz sand, the curing agent and the polyester paint are prepared according to the weight ratio of 22 parts, 3 parts and 6 parts respectively, then the gloves are subjected to polyurethane modified epoxy resin wear-resistant coating gum dipping treatment, then the finger parts of the gloves are subjected to anti-skid coating gum dipping treatment, and air drying and cooling treatment are sequentially carried out;

s5, vulcanizing, namely vulcanizing the gloves, and soaking and cleaning the gloves in warm water;

and S6, quality detection and warehousing, wherein the thread ends of the produced knitted gloves are cut, and after the thread ends are detected to be qualified, the thread ends are packaged, processed and warehoused.

6. The process for producing graphite antistatic knitted gloves according to claim 5, wherein the vulcanization time in step S5 is 1.2 hours.

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