阅读说明：本技术 一种具有防辐射功能的无纺布面料 (nonwoven fabrics with radiation protection function ) 是由 陈万锐 于 2019-11-22 设计创作，主要内容包括：本发明公开了一种具有防辐射功能的无纺布面料,包括面料本体、第一固定块、磁性卡条、第二固定块和金属卡槽,所述面料本体的对应两侧分别安装有第一固定块和第二固定块,所述第一固定块的一侧通过焊接固定有磁性卡条,所述第二固定块的一侧开设有金属卡槽,所述磁性卡条和金属卡槽配合使用,所述面料本体由防水纳米布料层、海绵层、天然棉纤维布料层、基布层、金属纤维层、聚苯基硅氧烷纤维涂料层和感温变色涂料层组成,所述防水纳米布料层的顶部通过粘合剂连接有海绵层,所述海绵层的顶部通过粘合剂连接有天然棉纤维布料层,该面料,具有良好的防水、防辐射和减震功能,大大提升布料的使用范围。(The invention discloses non-woven fabric with radiation protection function, which comprises a fabric body, a fixed block, a magnetic clamping strip, a second fixed block and a metal clamping groove, wherein the corresponding two sides of the fabric body are respectively provided with a fixed block and the second fixed block, the magnetic clamping strip is fixed on the side of the fixed block through welding, the metal clamping groove is arranged on the side of the second fixed block, the magnetic clamping strip and the metal clamping groove are matched for use, the fabric body consists of a waterproof nano fabric layer, a sponge layer, a natural cotton fiber fabric layer, a base fabric layer, a metal fiber layer, a polyphenyl siloxane fiber coating layer and a temperature-sensitive color-changing coating layer, the top of the waterproof nano fabric layer is connected with the sponge layer through an adhesive, and the top of the sponge layer is connected with the natural cotton fiber fabric layer through the adhesive.)

The radiation-proof non-woven fabric comprises a fabric body (1), a fixing block (2), magnetic clamping strips (3), a second fixing block (4) and metal clamping grooves (5), and is characterized in that the fixing block (2) and the second fixing block (4) are respectively installed on two corresponding sides of the fabric body (1), the magnetic clamping strips (3) are fixed on a side of the fixing block (2) through welding, the metal clamping grooves (5) are formed in a side of the second fixing block (4), the magnetic clamping strips (3) and the metal clamping grooves (5) are matched for use, the fabric body (1) is composed of a waterproof nanometer fabric layer (6), a sponge layer (7), a natural cotton fiber fabric layer (8), a base fabric layer (9), a metal fiber layer (10), a polyphenylsiloxane fiber coating layer (11) and a temperature-sensitive coating layer (12), the top of the waterproof nanometer fabric layer (6) is connected with the sponge layer (7) through an adhesive, the top of the natural cotton fiber layer (8) is connected with the top of the base fabric layer (7) through the adhesive, and the top of the natural cotton fiber layer (8) is connected with the adhesive through the base fabric layer (9).

2. non-woven fabric with radiation protection function according to claim 1, wherein the outer diameter of the magnetic card strip (3) is equal to the inner diameter of the metal card slot (5).

3. The non-woven fabric with radiation protection function as claimed in claim 1, wherein the fabric body (1) is connected with the fixed block (2) and the second fixed block (4) through a buckle.

4. nonwoven fabric with radiation protection function, according to the claim 1, characterized in that the metal fiber layer (10) is composed of silver fibers (13) and copper fibers (14), and the metal fiber layer (10) is woven by mixing silver fibers (13) and copper fibers (14).

5. nonwoven fabric with radiation protection function, according to claim 1, characterized in that the top of the metal fiber layer (10) is connected with a polyphenylsiloxane fiber coating layer (11) through adhesive.

6. nonwoven fabric with radiation protection function, according to claim 1, characterized in that the top of the polyphenylsiloxane fiber coating layer (11) is connected with a thermochromic coating layer (12) by adhesive.

7. kinds of non-woven fabric with radiation protection function according to claim 1, wherein the top of the base fabric layer (9) is connected with the metal fiber layer (10) through the adhesive.

Technical Field

The invention relates to the technical field of fabrics, in particular to kinds of non-woven fabrics with radiation protection functions.

Background

At present, people's living environments are full of various natural radiation or electric appliance radiation, such as ultraviolet radiation, infrared radiation, electromagnetic oven radiation, mobile phone radiation and the like, if people live in the radiation environments for a long time, radiation-proof clothes are not available to shield radiation, the health of people can be seriously affected, especially for pregnant women, although radiation-proof textiles exist in the market at present, the radiation-proof textiles have a single function, such as only the function of preventing ultraviolet radiation or only the function of preventing electromagnetic wave radiation, and thus, the textiles with only radiation-proof functions obviously cannot meet the health requirements of people.

Disclosure of Invention

The invention aims to provide non-woven fabrics with radiation protection functions, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides non-woven fabric fabrics with radiation protection functions, which comprise fabric bodies, th fixed blocks, magnetic clamping strips, second fixed blocks and metal clamping grooves, wherein th fixed blocks and second fixed blocks are respectively arranged on two corresponding sides of the fabric bodies, the magnetic clamping strips are fixed on the side of the th fixed block through welding, the metal clamping grooves are formed in the side of the second fixed block, the magnetic clamping strips and the metal clamping grooves are matched for use, each fabric body comprises a waterproof nano fabric layer, a sponge layer, a natural cotton fiber fabric layer, a base fabric layer, a metal fiber layer, a polyphenylsiloxane fiber coating layer and a temperature-sensitive discoloration coating layer, the tops of the waterproof nano fabric layer are connected with the sponge layer through adhesives, the tops of the sponge layer are connected with the natural cotton fiber fabric layer through adhesives, the tops of the natural cotton fiber fabric layer are connected with the base fabric layer through adhesives, the tops of the base fabric layer are connected with the metal fiber layer through adhesives, the tops of the polyphenylsiloxane fiber coating layer are connected with the metal fiber coating layer through adhesives, and the copper fiber layer and the temperature-sensitive discoloration coating layer is formed by mixing copper fibers and copper fibers.

, the outer diameter of the magnetic card strip is equal to the inner diameter of the metal card slot.

, the fabric body is connected with the fixing block and the second fixing block through buckles.

Compared with the prior art, the non-woven fabric with the radiation protection function has the advantages that the th fixing block and the second fixing block are respectively installed on the two corresponding sides of the fabric body, the side of the th fixing block is fixedly provided with the magnetic clamping strip in a welded mode, the side of the second fixing block is provided with the metal clamping groove, the magnetic clamping strip and the metal clamping groove are matched for use, two pieces of fabric are connected to conveniently through the magnetic clamping strip and the metal clamping groove, the use range of the fabric can be effectively enlarged, the problem that the fabric cannot be used due to too short fabric is solved, the waterproof nanometer fabric layer can play a good waterproof role, meanwhile, ventilation is facilitated, the use safety is improved, the sponge layer has good elasticity, the shock absorption performance of the fabric can be improved conveniently, the metal fiber layer is formed by weaving of silver fibers and copper fibers in a mixed mode, the use amount of the silver fibers can be reduced, the production cost of an enterprise can be reduced, the radiation protection function of the fabric is improved, the polyphenylsiloxane fiber layer also has the radiation protection function, the metal fiber layer and the temperature change of the polyphenylsiloxane fiber layer is facilitated, and the temperature change of the.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and constitute a part of this specification, and are included to explain the invention and not to limit the invention by way of example .

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a fabric body of the present invention;

FIG. 3 is a schematic view of the structure of a metal fiber layer of the present invention;

in the figure, 1-a fabric body, 2-a th fixed block, 3-a magnetic clamping strip, 4-a second fixed block, 5-a metal clamping groove, 6-a waterproof nanometer cloth layer, 7-a sponge layer, 8-a natural cotton fiber cloth layer, 9-a base cloth layer, 10-a metal fiber layer, 11-a polyphenyl siloxane fiber coating layer, 12-a temperature-sensitive discoloration coating layer, 13-silver fibers and 14-copper fibers.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only partial embodiments of of the present invention, rather than all embodiments.

Referring to fig. 1-3, the invention provides technical solutions, including non-woven fabrics with radiation protection, including a fabric body 1, an th fixed block 2, a magnetic card strip 3, a second fixed block 4 and a metal card slot 5, th fixed block 2 and the second fixed block 4 are respectively installed on two corresponding sides of the fabric body 1, the magnetic card strip 3 is fixed on the side of the th fixed block 2 by welding, the metal card slot 5 is arranged on the side of the second fixed block 4, the magnetic card strip 3 and the metal card slot 5 are used in cooperation, the fabric body 1 is composed of a waterproof nano-fabric layer 6, a sponge layer 7, a natural cotton fiber fabric layer 8, a base fabric layer 9, a metal fiber layer 10, a polyphenylsiloxane fiber coating layer 11 and a temperature-sensitive color-changing coating layer 12, the top of the waterproof nano-fabric layer 6 is connected with the sponge layer 7 by an adhesive, the top of the sponge layer 7 is connected with the natural cotton fiber fabric layer 8 by an adhesive, the top of the natural cotton fiber fabric layer 8 is connected with the base fabric layer 9 by an adhesive, the top of the base fabric layer 9 is connected with the metal fiber layer 10 by an adhesive, the top of the metal fiber layer 10 is connected with the polyphenylsiloxane fiber layer 10, the coating layer is composed of a polyphenylsiloxane fiber layer 13 and a silver fiber layer 13, and a.

, the outer diameter of the magnetic card strip 3 is equal to the inner diameter of the metal card slot 5.

, the fabric body 1 is connected with the fixing block 2 and the second fixing block 4 through a buckle.

The fabric comprises a fabric body 1, wherein th fixing blocks 2 and a second fixing block 4 are respectively installed on two corresponding sides of the fabric body 1, magnetic clamping strips 3 are fixedly welded on the side of the th fixing block 2, metal clamping grooves 5 are formed in the side of the second fixing block 4, the magnetic clamping strips 3 and the metal clamping grooves 5 are matched for use, two pieces of cloth can be conveniently connected to through the magnetic clamping strips 3 and the metal clamping grooves 5, the use range of the cloth can be effectively enlarged, the cloth cannot be used due to over short cloth, a waterproof nanometer cloth layer 6 can play a good waterproof role and is convenient to ventilate and use, the safety of the cloth is improved, a sponge layer 7 has good elasticity and is convenient to improve the shock absorption performance of the cloth, a metal fiber layer 10 is formed by mixing silver fibers 13 and copper fibers 14, the using amount of the silver fibers 13 can be reduced, the production cost of an enterprise can be reduced, the radiation protection function of the cloth is improved, a polyphenylsiloxane fiber coating layer 11 also has a radiation protection function, the temperature sensing function of the polyphenylsiloxane fiber coating layer 10 and the temperature change of the polyphenylsiloxane fiber coating 11 can be improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.