CN204626143U - A kind of electromagnetic shielding anti-radiation electric conduction cloth - Google Patents

Abstract

The utility model discloses a kind of electromagnetic shielding anti-radiation electric conduction cloth, it comprises the Ji Bu be formed by weaving by warp thread and weft yarn, and described warp thread and weft, of polyester fibers mixture are formed by weaving, and the surface of described base cloth is also coated with ambrose alloy nickel nano coating; Or described warp thread and weft, of polyester fibers mixture are formed by weaving, described Ji Bu is weaved by polyester fiber and silver-colored fibers mixture and synthesizes.The utility model effectively can shield the harm of electromagnetic wave, particularly frequency electromagnetic waves and Microwave Radiation On Human body, can shield by high-grade radiation-resisting electromagnetic, control spatial electromagnetic disturbs, but also there is anti-oxidant, antistatic, high-performance conductive, antiultraviolet, the effect such as antibacterial, can be widely used in the field such as civilian, industrial, medical, military.

Description

Electromagnetic shielding radiation-proof conductive cloth

Technical Field

The utility model relates to a novel multi-functional textile fabric cloth of high-tech especially relates to an electromagnetic shield radiation protection electrically conductive cloth, belongs to textile fabric technical field.

Background

After China has joined the international trade organization, the textile industry faces new opportunities and challenges. On one hand, the textile industry faces the continuous elimination of traditional products, the continuous development and production competition of new products, old products are gradually quitting the domestic and international markets due to the fact that the old products are not suitable for the continuous change of market development, and on the other hand, the traditional textile equipment in China is difficult to continue due to low efficiency, more labor, poor adaptability and high cost. Although the labor cost of the textile industry in China still has a certain advantage from the international market, the advantage is lost.

Nowadays, due to the rapid development of electronic technology, electromagnetic radiation is ubiquitous in modern society, so that people all receive radiation of electromagnetic waves from the nature and man-made production at any time and any place, and for example, televisions, refrigerators, air conditioners, microwave ovens, computers, mobile phones, electronic instruments, medical equipment and the like can release certain electromagnetic wave radiation. The existing various fabrics can not prevent electromagnetic wave from radiating human body and control space electromagnetic interference, and the radiation of electromagnetic wave on human body for a long time can cause various diseases and even gene idiosyncrasy, and the consequence is not imaginable.

The cloth sold in the market at present is various, and people have many wrong areas in the selection of raw materials due to the fact that people can not understand the cloth deeply; at present, most of the cloth sold in the market is made of yarns made of pure cotton fibers or other synthetic fibers through weaving and printing, most of the cloth does not have the radiation protection function, and some cloth with the radiation protection function is made of chemical antibacterial agents only by coating the surfaces of the cloth, and the antibacterial agents gradually run off after washing and use.

Therefore, as the fabric gradually develops to the aspects of lightness, thinness, environmental protection, health, functionality and the like, people urgently need a multifunctional new fabric which can be electromagnetically shielded from radiation and is conductive and antistatic.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: aiming at the defects in the prior art, the electromagnetic shielding radiation-proof conductive cloth is comfortable, antifouling, electromagnetic shielding, good in radiation-proof performance, conductive and antistatic, multifunctional and wide in application range.

The utility model provides a technical scheme that its technical problem adopted is:

an electromagnetic shielding radiation-proof conductive cloth comprises a base cloth woven by warps and wefts,

(1) the warp yarns and the weft yarns are both formed by mixing and spinning polyester fibers, and the surface of the base cloth is also coated with a nickel-copper-nickel nano coating; or,

(2) the warp yarns and the weft yarns are formed by mixing and spinning polyester fibers, and the base cloth is formed by mixing and spinning polyester fibers and silver fibers.

As a preferable embodiment, in the embodiment (1), the polyester fiber accounts for 60 to 80% of the total weight of the fabric, the nickel-copper-nickel nano coating accounts for 40 to 20% of the total weight of the fabric, and the nickel-copper metal has a super-strong metal electromagnetic shielding, conductive and antistatic function.

More preferably, in the scheme (1), the thickness of the nickel-copper-nickel nano coating is 0.01-0.5 mm.

Further, in the scheme (1), the nickel-copper-nickel nano coating is coated on the upper and/or lower surface of the base cloth.

As one of the preferable embodiments, the upper and/or lower surface of the base cloth is further coated with an oxidation-proof coating, and the oxidation-proof coating has an anti-pollution and anti-rust effect, and may not be coated with an oxidation-proof coating according to the requirement.

As one of preferred embodiments, in the aspect (2), the silver fiber is a 30D-600D silver fiber.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses can shield electromagnetic wave, especially high frequency electromagnetic wave and microwave radiation to the harm of human body very effectively, high-grade radiation protection electromagnetic shield, control space electromagnetic interference still has effects such as anti-oxidant, antistatic, high performance are electrically conductive, anti ultraviolet, antibacterial moreover, but wide application in fields such as civilian, industry, medical treatment, military affairs.

Drawings

In order to explain the structure of the present invention, the following description will explain embodiments of the present invention in further detail with reference to the accompanying drawings.

Fig. 1 is the utility model discloses a structural schematic diagram of electromagnetic shielding room radiation conductive cloth.

Description of reference numerals: 1-base cloth, 2-nickel-copper-nickel nano coating and 3-anti-oxidation coating.

Detailed Description

The invention will now be described in further detail with reference to the drawings and preferred embodiments. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1, the electromagnetic shielding, radiation protection and conductive fabric of the present embodiment includes a base fabric 1 woven by warp and weft, both the warp and the weft are formed by blending polyester fibers, and the upper surface of the base fabric 1 is further coated with a nickel-copper-nickel nano coating 2. In addition, the nickel-copper-nickel nano coating 2 can also be coated on the lower surface of the base cloth 1 or simultaneously coated on the upper surface and the lower surface. The polyester fiber accounts for 60-80% of the total weight of the fabric, the nickel-copper-nickel nano coating 2 accounts for 40-20% of the total weight of the fabric, the thickness of the nickel-copper-nickel nano coating 2 is 0.01mm-0.5mm, and the nickel-copper metal (copper-nickel or nickel-copper) has a super-strong metal electromagnetic shielding, conductive and antistatic function.

The lower surface of the base cloth 1 is coated with an anti-oxidation coating 3, the anti-oxidation coating 3 contains a high-performance antioxidant, the fabric cloth can be prevented from being oxidized due to long-time air contact in a natural environment, and the anti-oxidation and anti-rust fabric also has an anti-fouling and anti-rust effect. In addition, the anti-oxidation coating 3 can also be coated on the outer surface of the nickel-copper-nickel nano coating 2.

The other technical scheme of the utility model is: the warp yarns and the weft yarns are formed by Polyester fiber mixed spinning, the base cloth is formed by Polyester fiber (Polyester) and silver fiber through interweaving mixed spinning, and the silver fiber is 30D-600D silver fiber.

The two technical schemes of the utility model can effectively shield the electromagnetic wave, especially the high frequency electromagnetic wave, and the harm of the microwave radiation to the human body. In particular, the following advantages are provided:

the high-frequency electromagnetic shielding device is used for high-frequency electromagnetic shielding, high-frequency electromagnetic radiation protection in industries such as industrial equipment, mobile communication, power distribution rooms and medical instruments, can replace copper plates and lead plates to manufacture high-frequency electromagnetic shielding rooms, and is good in shielding effect; the electromagnetic shielding device is used for high-level electromagnetic shielding, controlling space electromagnetic interference, preventing electronic information leakage, ensuring information safety and worker safety, and is also suitable for requirements of field camouflage, field battle, electronic defense and the like; thirdly, the shielding gasket is suitable for processing electronic products, can replace conductive sponge in various shapes: fourthly, products such as electromagnetic shielding radiation-proof clothes, antistatic clothes, electromagnetic shielding radiation-proof curtains, electromagnetic shielding radiation-proof wall cloth, electromagnetic shielding radiation-proof tent cloth, radiation-proof mobile phone bags and the like are manufactured; fifthly, the electromagnetic shielding and electromagnetic radiation preventing fabric is widely applied to various high-quality places needing special functions, such as electromagnetic shielding and electromagnetic radiation preventing places, electronic telecommunication communication industries, army equipment, automobiles and ships, mechanical equipment, special clothes, home textile products and other special industries; and the paint also has excellent effects of antifouling, electromagnetic shielding, radiation protection, oxidation resistance, static resistance, high-performance electric conduction, ultraviolet resistance, bacteriostasis and the like.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and the above content does not limit the protection scope of the present invention, and any equivalent changes or modifications made according to the spirit of the present invention should fall within the protection scope of the present invention.

Claims (2)

1. An electromagnetic shielding radiation-proof conductive fabric comprises a base fabric woven by warps and wefts, and is characterized in that the surface of the base fabric is further coated with a nickel-copper-nickel nano coating, and the thickness of the nickel-copper-nickel nano coating is 0.01-0.5 mm;

the upper surface and/or the lower surface of the base cloth are/is also coated with an anti-oxidation coating, and the anti-oxidation coating is arranged on the outer surface of the nickel-copper-nickel nano coating.

2. The electromagnetic shielding radiation protection conductive fabric of claim 1, wherein the nickel-copper-nickel nano coating is coated on the upper and/or lower surface of the base fabric.