CN201849030U - Electromagnetic radiation resistant silvered fiber double-layer fabric - Google Patents

Abstract

The utility model provides electromagnetic radiation resistant silvered fiber double-layer fabric, which comprises a surface layer and an inner layer. The surface layer is woven with fiber yarns, the inner layer is woven with silvered fibers, and the surface layer and the inner layer are connected via a connecting portion. The fabric is richer and more colorful in color of use by the aid of the surface layer woven with the fiber yarns, the fabric can be worn next to the skin since the inner layer woven with the silvered fibers can contact with the skin directly, the silvered fibers are capable of sterilizing and deodorizing, and furthermore, the shield efficacy of the fabric is superior to standard electromagnetic shielding efficacy since the inner layer and the surface layer are effectively connected via the connecting portion.

Description

Anti-electromagnetic radiation silver plated fiber two-layer fabric

Technical field

The utility model relates to the electromagnetic compatibility technology field, more specifically, relates to a kind of anti-electromagnetic radiation silver plated fiber two-layer fabric.

Background technology

The anti-electromagnetic radiation fabric is the shielding material of extensive use in the electromagnetic compatibility technology, especially carries out the requisite material of physical protection in this field.

Along with the continuous development of science and technology, electric equipment products more and more is employed in people's work, life, and the electromagnetic radiation that electronic and electrical equipment discharged can cause the injury to human body.Adopt the individual protection clothes that the anti-electromagnetic radiation fabric is processed into that human body is protected, can reduce or avoid hazards of Electromagnetic Radiation in a large number.

The chemical deposit shielding material that is used for the making of anti-electromagnetic radiation business wear and anti-electromagnetic radiation maternity dress in the existing market is mainly chemical plating material.The material that comprises chemical nickel plating, copper facing, process chemical plating such as silver-plated often comes off easily, the electric conductivity instability, and shield effectiveness is not high.And because these materials can not dye, dress ornament is very poor.In addition, chemical nickel plating, copper facing, shielding material such as silver-plated can not directly contact skin, and therefore the clothes made from these materials can not wear next to the skin.As from the foregoing, chemical nickel plating, copper facing, not only dress ornament is very poor when being used for clothing making for chemical plating material such as silver-plated, and can not directly contact skin, so its scope of application is very limited.

The utility model content

The utility model aims to provide a kind of shield effectiveness height, and the silver plated fiber two-layer fabric that dress ornament is effective is low to solve existing anti-electromagnetic radiation fabric shield effectiveness, the dress ornament weak effect, can not directly contact the problem of skin.

According to a kind of anti-electromagnetic radiation silver plated fiber two-layer fabric of the present utility model, comprise top layer and nexine, the top layer is formed by the fiber yarn braiding, and nexine is formed by the silver plated fiber braiding, and the top layer is connected by connecting portion with nexine.

Further, fiber yarn is the fiber yarn that dress ornament is used.

Further, fiber yarn is the cellulose fibre yarn.

Further, fiber yarn is a synthetic yarns.

Further, fiber yarn is the scribbled that cellulose fibre yarn and synthetic yarns blending form.

Further, silver plated fiber comprises: fiber base material is positioned at silver plated fiber inside; Silver coating is positioned at the fiber base material outside, is used to wrap up fiber base material.

Further, nexine comprises nexine warp thread and nexine weft yarn, and nexine warp thread and nexine weft yarn are in contact with one another and are interweaved.

Further, the top layer comprises top layer warp thread and top layer weft yarn, and top layer warp thread and top layer weft yarn are interweaved.

Further, connecting portion interweaves by top layer warp thread and nexine weft yarn and forms or the formation that interweaves of top layer weft yarn and nexine warp thread.

Further, connecting portion interweaves by top layer warp thread and nexine weft yarn and the formation that interweaves of top layer weft yarn and nexine warp thread.

Adopt anti-electromagnetic radiation silver plated fiber two-layer fabric of the present utility model, comprise top layer and nexine, the top layer is formed by the fiber yarn braiding, and nexine is formed by the silver plated fiber braiding, and the top layer is connected by connecting portion with nexine.By the top layer that the fiber yarn braiding forms, make fabric abundant, bright-coloured more on the use color; Nexine by the silver plated fiber braiding forms not only therefore can wear next to the skin owing to it can directly contact skin, and its silver plated fiber can also eliminate the unusual smell in sterilization; In addition, the top layer is connected by the effective of connecting portion with nexine, makes the shield effectiveness of this fabric be better than the electromagnet shield effect of standard code.

Description of drawings

Accompanying drawing is used to provide further understanding of the present utility model, constitutes the application's a part, and illustrative examples of the present utility model and explanation thereof are used to explain the utility model, do not constitute improper qualification of the present utility model.In the accompanying drawings:

Fig. 1 is the organization chart according to anti-electromagnetic radiation silver plated fiber two-layer fabric of the present utility model;

Fig. 2 is the side schematic view according to anti-electromagnetic radiation silver plated fiber two-layer fabric of the present utility model.

The specific embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

As depicted in figs. 1 and 2, anti-electromagnetic radiation silver plated fiber two-layer fabric comprises top layer 10 and nexine 20, and top layer 10 is formed by the fiber yarn braiding, and nexine 20 is formed by the silver plated fiber braiding, and top layer 10 is connected by connecting portion 30 with nexine 20.Fig. 1 is an organization chart of the present utility model, and connecting portion 30 is schematically irised out with circle in Fig. 1.Fig. 2 is the side schematic view of fabric, and connecting portion 30 is not shown in Figure 2.By the top layer 10 that the fiber yarn braiding forms, make fabric abundant, bright-coloured more on the use color, improved the dress ornament of fabric thus; Therefore nexine 20 by silver plated fiber braiding forms can wear next to the skin because it can directly contact skin, and its silver plated fiber can also eliminate the unusual smell in sterilization, has good snugness of fit; In addition, top layer 10 is connected by the effective of connecting portion 30 with nexine 20, makes the shield effectiveness of this fabric be better than the electromagnet shield effect of standard code.

According to anti-electromagnetic radiation silver plated fiber two-layer fabric of the present utility model, because its good dress ornament and snugness of fit, therefore its scope of application is very wide, not only can be used for the conventional anti-electromagnetic radiation business wear and the making of anti-electromagnetic radiation maternity dress, can also make the radiation proof clothing, for the ordinary consumer everyday general purpose.

Preferably, the fiber yarn that is used for protective graid 10 can have multiple, can be free to select to use certain fiber yarn according to the characteristics of the fiber yarn of particular types and the purposes of anti-electromagnetic radiation silver plated fiber two-layer fabric.As fiber yarn is the fiber yarn that dress ornament is used, and promptly makes the fiber yarn that clothes are used.Perhaps fiber yarn can also be synthetic yarns, the i.e. fiber yarn of chemical synthesis.The perhaps fiber yarn scribbled that can also form for cellulose fibre yarn and synthetic yarns blending.Perhaps the kind of fiber yarn can be silvalin line, i.e. plant fiber yarn.When fiber yarn is plant fiber yarn, during as the cotton fiber yarn, top layer 10 is the absorbing sweat material, the silver plated fiber of nexine 20 is absorbing sweat material not, like this, when the clothing of being made by fabric of the present utility model when dress was worn next to the skin, its nexine that wears next to the skin 20 was always dry and comfortable, and sweat can be by top layer 10 be drawn onto top layer 10, the comfortableness when having strengthened wearing next to the skin.

Preferably, silver plated fiber comprises: fiber base material is positioned at silver plated fiber inside; Silver coating is positioned at the fiber base material outside, is used to wrap up fiber base material.The outside of the fiber base material of silver plated fiber is coated with the silver metal layer of the difficult drop-off of one deck densification, because the fiber of braiding nexine 20 all be a silver plated fiber, so silver plated fiber weaves the metal radiation proof network that forms densification mutually, improved its shielding property.

As depicted in figs. 1 and 2, nexine 20 comprises nexine warp thread 21 and nexine weft yarn 22, and nexine warp thread 21 and nexine weft yarn 22 are in contact with one another and are interweaved.Because nexine 20 is formed by the silver plated fiber braiding, therefore in nexine 20, as between the silver plated fiber of nexine warp thread 21 and nexine weft yarn 22 when being interweaved, must be in contact with one another, guaranteed that so also silver plated fiber weaves the metal radiation proof network that forms densification mutually, has guaranteed the stability and the reliability of its shielding property.In addition, top layer 10 comprises top layer warp thread 11 and top layer weft yarn 12, and top layer warp thread 11 is interweaved with top layer weft yarn 12.

According to an embodiment of the present utility model, when weaving anti-electromagnetic radiation silver plated fiber two-layer fabric in the top layer 10 and the nexine 20 of picking ratio weaving fabric successively.

When knitting top layer 10, top layer warp thread 11 interweaves by tissue requirement and top layer weft yarn 12, and the silver plated fiber of nexine 20 does not all interweave with top layer weft yarn 12.When knitting nexine 20, when promptly dropping into nexine weft yarn 22, the top layer warp thread 11 in the top layer 10 does not all lift and interweaves with nexine weft yarn 22, and nexine warp thread 21 interweaves by tissue requirement and nexine weft yarn 22.For top layer 10, nexine 20 these two-layer fabrics are effectively linked, whenever after knitting certain tissue circulation, make the top layer warp thread 11 of some change a weave, when promptly knitting the nexine weft yarn 22 of nexine 20, the top layer warp thread 11 of this some does not lift, and interweaves with nexine weft yarn 22.In this embodiment, the connecting portion 30 of top layer 10 and nexine 20 is by the formation that interweaves of top layer warp thread 11 and nexine weft yarn 22.

In addition, in other embodiment of the present utility model, connecting portion 30 also can be by the formation that interweaves of top layer weft yarn 12 and nexine warp thread 21.Perhaps connecting portion 30 also can interweave and the common formation that interweaves of top layer weft yarn 12 and nexine warp thread 21 by top layer warp thread 11 and nexine weft yarn 22.

As can be seen from the above description, the utility model the above embodiments have realized following technique effect:

Anti-electromagnetic radiation silver plated fiber two-layer fabric of the present utility model comprises top layer and nexine, and the top layer is formed by the fiber yarn braiding, and nexine is formed by the silver plated fiber braiding, and the top layer is connected by connecting portion with nexine.By the top layer that the fiber yarn braiding forms, make fabric abundant, bright-coloured more on the use color; Nexine by the silver plated fiber braiding forms not only therefore can wear next to the skin owing to it can directly contact skin, and its silver plated fiber can also eliminate the unusual smell in sterilization; In addition, the top layer is connected by the effective of connecting portion with nexine, makes the shield effectiveness of this fabric be better than the electromagnet shield effect of standard code.In addition, anti-electromagnetic radiation silver plated fiber two-layer fabric of the present utility model not only can be used for conventional fields such as anti-electromagnetic radiation business wear and anti-electromagnetic radiation maternity dress, can also make the clothing with shielding property, uses for the ordinary consumer everyday general purpose.

The above is a preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (9)

1. anti-electromagnetic radiation silver plated fiber two-layer fabric, comprise top layer (10) and nexine (20), it is characterized in that, described top layer (10) is formed by the fiber yarn braiding, described nexine (20) is formed by the silver plated fiber braiding, and described top layer (10) are connected by connecting portion (30) with nexine (20).

2. anti-electromagnetic radiation silver plated fiber two-layer fabric according to claim 1 is characterized in that: described fiber yarn is the fiber yarn that dress ornament is used.

3. anti-electromagnetic radiation silver plated fiber two-layer fabric according to claim 1 is characterized in that: described fiber yarn is the cellulose fibre yarn.

4. anti-electromagnetic radiation silver plated fiber two-layer fabric according to claim 1 is characterized in that: described fiber yarn is a synthetic yarns.

5. anti-electromagnetic radiation silver plated fiber two-layer fabric according to claim 1, it is characterized in that: described silver plated fiber comprises:

Fiber base material is positioned at described silver plated fiber inside;

Silver coating is positioned at described fiber base material outside, is used to wrap up described fiber base material.

6. according to the described anti-electromagnetic radiation silver plated fiber of each claim two-layer fabric in the claim 2 to 5, it is characterized in that: described nexine (20) comprises nexine warp thread (21) and nexine weft yarn (22), and described nexine warp thread (21) and nexine weft yarn (22) are in contact with one another and are interweaved.

7. anti-electromagnetic radiation silver plated fiber two-layer fabric according to claim 6 is characterized in that: described top layer (10) comprise top layer warp thread (11) and top layer weft yarn (12), and described top layer warp thread (11) is interweaved with described top layer weft yarn (12).

8. anti-electromagnetic radiation silver plated fiber two-layer fabric according to claim 7 is characterized in that: described connecting portion (30) interweaves by described top layer warp thread (11) and described nexine weft yarn (22) and forms or the formation that interweaves of described top layer weft yarn (12) and described nexine warp thread (21).

9. anti-electromagnetic radiation silver plated fiber two-layer fabric according to claim 7 is characterized in that: formation that described connecting portion (30) interweaves by described top layer warp thread (11) and described nexine weft yarn (22) and described top layer weft yarn (12) and described nexine warp thread (21) interweave.

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