CN2372331Y - Anti-static radiation resistant fabric - Google Patents

Abstract

The utility model relates to an anti-static radiation resistant fabric which is used for places for preventing the generation of static electricity and shielding electromagnetic waves. Stainless steel super subtle wires 1 are embedded in a warp thread or a weft thread or the warp thread and the weft thread of an ordinary fabric. The diameter phi of the stainless steel super subtle wire of the ordinary fabric is from 0.02 to 0.08 mm, and a space is from 5 to 30 mm. The stainless steel super subtle wires in the warp thread or the weft thread can be used for preventing local overvoltage or oversize charge density. The stainless steel super subtle wires are distributed in both the warp thread and the weft thread, and the antistatic and radiation protection effects are very good. The utility model does not need constant maintenance and servicing, and can be manufactured into clothes, etc. The utility model has the advantages of simple operation, convenience and low cost.

Description

Antistatic, radiation-proof fabric

The utility model relates to a kind of antistatic, radiation-proof fabric.Be used to prevent the field boundary institute of generation of static electricity, shielding electromagnetic wave.Can be processed into clothes or widely-used as shielding material.

At microelectronic industry, quality is arrived in the release of static usually entail dangers to, even causes product rejection.At present, the Work Clothes of microelectronic industry generally uses carbon fiber fabric, and carbon fiber fabric is that fabric fibre is made it to have certain conducting function after carbonization treatment, thereby makes the rest potential balance of fabric, reduces partial charge density.This carbon fibre weaving performance is better, but is unable to undergo washing, repeatedly can reduce effect after the washing.Therefore this kind fabric needs frequent maintenance, and the carbon fibre price is higher.

Inflammable in petrochemical industry and other, explosive work field boundary institute, the Mars that occurs when static discharges is one of hidden danger that causes the fire generation.This type of field boundary Work Clothes generally adopt COTTON FABRIC, but COTTON FABRIC, chemical ﹠ blended fabric all can produce Mars after rubbing.Especially cotton fiber is non-conductive, the local high-pressure electrostatic that after rubbing, produces, and charge density is too high, works the mischief.

Raising along with social material civilization's degree, the modern brings unprecedentedly simultaneously easily for work, life enjoying the industry of electric power, electronic information, suffer all kinds of electromagnetic invisible injuries, the expert thinks the fourth-largest pollution after atmosphere pollution, water pollution and noise pollution also unavoidablely.Many reporting, electromagenetic wave radiation mainly shows as the harm of human body: cause headache, eyesight to weaken; Cause the human recycle system unusual; Destroy male reproductive function; Cause cancer, diabetes, genetic disease and immune function of human body are unusual; Influence human hormone's secretion etc.Electromagenetic wave radiation is more serious to the harm that pregnant woman and children cause, heavy leukemic the increasing of deformed child and youngster in recent years, and electromagenetic wave radiation is unable to escape its fault certainly.Though the harm people to electromagenetic wave radiation understand, there is not good solution temporarily, especially lack a kind of fairly simple material easily and tackle ubiquitous electromagenetic wave radiation.

The purpose of this utility model is to provide a kind of manufacturing fairly simple, use new eaily antistatic, radiation-proof fabric, offer at needs and prevent that the personnel that generation of static electricity and shielding electromagnetic wave field boundary are worked from using, to reach the purpose of antistatic, shielding electromagnetic wave.

Technical solution of the present utility model is: embed Stainless Steel ultra micro filament in the warp of common fabric or parallel or graticule.

In the fabric of the present utility model, the diameter of stainless steel ultra micro filament is Φ 0.02～0.08mm.

Compare with existing carbon fibre anti-static fabric, the utility model has good conductive capability after common fabric is embedded in stainless steel ultra micro filament, and is nonvolatil.Do not need as carbon fiber fabric, to want frequent maintaining as frock, reduced daily cost of use, and effect is better than carbon fiber fabric.Simultaneously cheap.

Fig. 1 is a structural representation of the present utility model.

Below in conjunction with accompanying drawing the utility model being done one describes in detail:

As shown in Figure 1, the utility model is a kind of antistatic, radiation-proof fabric, and it is to embed stainless steel ultra micro filament 1 in the warp of common fabric or parallel or graticule, and the diameter of phi 0.02～0.08mm of stainless steel ultra micro filament 1 is preferably Φ 0.02～0.04mm.Be used for anti-static fabric, arrange in warp or parallel, its spacing is between 5～30mm, and optimal spacing is between 8～10mm.Be used for radiation-proof fabric, then all should use stainless steel ultra micro filament 1 in the graticule.The material of common fabric is silk, string, animal fiber, synthetic fiber etc.

Claims (7)

1, a kind of antistatic, radiation-proof fabric is characterized in that it is to embed stainless steel ultra micro filament (1) in the warp of common fabric or parallel or graticule.

2, a kind of antistatic, radiation-proof fabric according to claim 1 is characterized in that the diameter of phi 0.02～0.08mm of stainless steel ultra micro filament (1).

3, a kind of antistatic, radiation-proof fabric according to claim 2, the diameter that it is characterized in that stainless steel ultra micro filament (1) is Φ 00.2～0.04mm.

4, a kind of antistatic, radiation-proof fabric according to claim 1 and 2, the spacing that it is characterized in that stainless steel ultra micro filament (1) in the fabric is between 5～30mm.

5, a kind of antistatic, radiation-proof fabric according to claim 4, the spacing that it is characterized in that stainless steel ultra micro filament in the fabric is between 8～10mm.

6,, it is characterized in that the material of common fabric is silk, animal, plant or synthetic fiber according to one of them described a kind of antistatic, radiation-proof fabric of claim 1-3.

7, a kind of antistatic, radiation-proof fabric according to claim 4 is characterized in that the material of common fabric is silk, animal, plant or synthetic fiber.