CN204375433U - A kind of radiation-resistant pocket and clothes - Google Patents

Abstract

The utility model discloses a kind of radiation-resistant pocket and clothes, comprise the pocket body, fixed mount precoat, radiation reflective precoat and the radiation absorption precoat that are socketed successively from the outer to the inner, wherein: radiation absorption precoat end to end circumferencial direction along pocket body forms receiving cavity; Radiation reflective precoat is wrapped in the receiving cavity outside surface that radiation absorption precoat is formed; Fixed mount precoat is wrapped in the skin of radiation reflective precoat; Fixed mount precoat becomes latticed by many one metal wires fiber interweaving and forms; Fixed mount precoat is for supporting pocket body; And radiation reflective precoat is continuous wave pattern shape is wrapped on the outside surface of radiation absorption precoat.Above-mentioned radiation-resistant pocket and clothes, have double absorption function.Radiation proof, electrostatic prevention, the technical characterstic such as antibacterial.

Description

A kind of radiation-resistant pocket and clothes

Technical field

The utility model relates to garment technology field, particularly relates to a kind of radiation-resistant pocket and clothes.

Background technology

In daily life, the electronic equipment such as mobile phone, undersized panel computer is arbitrarily placed in the pocket of clothes by the usual use habit of people.As everyone knows, these conventional electronic equipments, as panel computer, mobile phone, MP3 etc. produce a large amount of electromagnetic radiation, prove through scientific research and experiment, these Radiation On Human bodies are pernicious, should avoid, particularly pregnant woman and infant as far as possible, more should reduce and avoid receiving these radiation.

Existing a lot of garment pockets on the market adopt common fabric, and therefore it does not have radiation proof function; Also there is portion of garment to comprise its garment pocket (such as: pregnant woman's exposure suit) and there are some radiation protection ability, but it still exists the defect of the following aspects: one, exposure suit of the prior art carrys out reflect ambient electromagnetic radiation mainly through the screen layer of metal fibre, enter human body to avoid these radiation.But, this reflective screen layer of exposure suit can make these radiation multiple reflections and the superposition that crosses, thus the radiation intensity in exposure suit may be allowed to become large, make to wear the radiation injury that exposure suit may make human body be subject to larger, namely the radiation-proof effect of existing exposure suit is poor.Two, traditional garment pocket, not water-fastness, not anti-oxidant (being about to the comfortableness after causing clothes dressing poor), not wear-resistant, be not durable, use value and (being especially not suitable with the requirement of high-quality pockets of western-style suits) of low quality.

In sum, how overcoming the technological deficiency of garment pocket of the prior art and clothes, is those skilled in the art's technical matterss urgently to be resolved hurrily.

Utility model content

The purpose of this utility model is to provide a kind of radiation-resistant pocket and clothes, to solve the problem.

In order to achieve the above object, the technical solution of the utility model is achieved in that

The utility model provides a kind of radiation-resistant pocket, comprise the pocket body, fixed mount precoat, radiation reflective precoat and the radiation absorption precoat that are socketed successively from the outer to the inner, wherein: described radiation absorption precoat end to end circumferencial direction along described pocket body forms receiving cavity; Described radiation reflective precoat is wrapped in the receiving cavity outside surface that described radiation absorption precoat is formed; Described fixed mount precoat is wrapped in the skin of radiation reflective precoat; Described fixed mount precoat becomes latticed by many one metal wires fiber interweaving and forms; Described fixed mount precoat is for supporting described pocket body;

And described radiation reflective precoat is continuous wave pattern shape is wrapped on the outside surface of described radiation absorption precoat.

Preferably, as a kind of embodiment, described fixed mount precoat is fixedly connected on the internal layer of described pocket body.

Preferably, as a kind of embodiment, described radiation reflective precoat is fixedly connected with described radiation absorption precoat, and the precoat after described radiation reflective precoat and described radiation absorption precoat fix formation and described fixed mount precoat removably connect.

Preferably, as a kind of embodiment, between the precoat after described radiation reflective precoat and described radiation absorption precoat fix formation and described fixed mount precoat, be provided with VELCRO.

Preferably, as a kind of embodiment, the overall ovalize shape of xsect of described fixed mount precoat or rectangular shape.

Preferably, as a kind of embodiment, described radiation absorption precoat is the precoat of silicon carbide fibre blending or the precoat of polyion fabric fibre blending.

Preferably, as a kind of embodiment, described radiation absorption precoat is individual layer or multilayer.

Preferably, as a kind of embodiment, described radiation reflective precoat is by the precoat of stainless steel fibre blending or the precoat by the silver-colored fiber blend of metallization.

Preferably, as a kind of embodiment, described pocket body also comprises button part and button hole; Described button part is fixedly connected in described receiving cavity; Described button part coordinates with described button hole.

Correspondingly, the utility model additionally provides a kind of clothes, comprises above-mentioned radiation-resistant pocket; Described radiation-resistant pocket is arranged on described clothes.

Compared with prior art, the advantage of the utility model embodiment is:

A kind of radiation-resistant pocket that the utility model provides and clothes, the utility model provides its primary structure of radiation-resistant pocket by pocket body, fixed mount precoat, the structure compositions such as radiation reflective precoat and radiation absorption precoat, analyzing above-mentioned the utility model provides the primary structural configurations of radiation-resistant pocket known: wherein, radiation absorption precoat end to end circumferencial direction along pocket body forms receiving cavity, described electronic equipment (i.e. radiation-emitting source) can be wrapped in 360 °, to shield ray, thus avoid radiation ray to pass pocket body causing radiation to human body, described fixed mount precoat is wrapped in the skin of radiation reflective precoat, described fixed mount precoat becomes latticed by many one metal wires fiber interweaving and forms, described fixed mount precoat have employed wire fibers and is woven into latticed structure, so not only can increase the shielding property of pocket, also may be used for supporting described pocket body simultaneously, keep its integrally-built stability, prevent it be subject to External Force Acting and be out of shape, be conducive to the shape very straight (and then increasing the performances such as it is water-fastness, anti-oxidant, wear-resistant, durable) of pockets of western-style suits,

Wherein, described radiation reflective precoat is that continuous wave pattern shape is wrapped on the outside surface of described radiation absorption precoat; After the electronic equipment being positioned at receiving cavity sends radiation ray, first through the radiation absorption precoat of internal layer, and then enter radiation reflective precoat through radiation absorption precoat; Obviously, radiation reflective precoat have employed the structural design of wave-like (or claiming corrugated), partial radiation ray will be back to radiation absorption precoat through reflection, radiation absorption precoat is impelled to realize double absorption, ensure that a large amount of rays of electronic equipment radiation can be absorbed by radiation-resistant pocket, avoid causing the radiation injury to human body.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The front view of the radiation-resistant pocket that Fig. 1 provides for the utility model embodiment and clothes;

Structural representation is cut in overlooking of the radiation-resistant pocket that Fig. 2 provides for the utility model embodiment in Fig. 1 open;

The partial enlargement structural representation of the fixed mount precoat in the radiation-resistant pocket structure that Fig. 3 provides for the utility model embodiment;

Radiation reflective precoat in the radiation-resistant pocket structure that Fig. 4 provides for the utility model embodiment overlook structure for amplifying schematic diagram.

Embodiment

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Also by reference to the accompanying drawings the utility model is described in further detail below by specific embodiment.

See Fig. 1, a kind of radiation-resistant pocket 1 that the utility model embodiment provides, comprise pocket body 2, fixed mount precoat 3, radiation reflective precoat 4 and the radiation absorption precoat 5 (concrete structure is see Fig. 2) be socketed successively from the outer to the inner, wherein: described radiation absorption precoat 5 end to end circumferencial direction along described pocket body forms receiving cavity 6 (namely for placing the receiving cavity of electronic equipment); Described radiation reflective precoat 4 is wrapped in the receiving cavity outside surface that described radiation absorption precoat 5 is formed; Described fixed mount precoat 3 is wrapped in the skin of radiation reflective precoat 4; Described fixed mount precoat 3 becomes latticed by many one metal wires fiber interweaving and forms (see also Fig. 3); Described fixed mount precoat is for supporting described pocket body;

And described radiation reflective precoat 4 is wrapped on the outside surface of described radiation absorption precoat in continuous wave pattern shape (see also Fig. 4).

Analyzing above-mentioned the utility model provides the primary structural configurations of radiation-resistant pocket known: the utility model provides its primary structure of radiation-resistant pocket to be made up of structures such as pocket body, fixed mount precoat, radiation reflective precoat and radiation absorption precoats, wherein, radiation absorption precoat end to end circumferencial direction along pocket body forms receiving cavity, described electronic equipment (i.e. radiation-emitting source) can be wrapped in 360 °, to shield ray, thus avoid radiation ray to pass pocket body causing radiation to human body; Described fixed mount precoat is wrapped in the skin of radiation reflective precoat; Described fixed mount precoat is woven into latticed forming by many one metal wires fiber (such as: stainless steel fibre or metallize silver-colored fiber or other wire fibers); Described fixed mount precoat have employed wire fibers and is woven into latticed structure, so not only can increase the shielding property of pocket, also may be used for supporting described pocket body simultaneously, keep its integrally-built stability, prevent it be subject to External Force Acting and be out of shape, be conducive to the shape very straight (and then increasing the performances such as it is water-fastness, anti-oxidant, wear-resistant, durable) of pockets of western-style suits;

Wherein, described radiation reflective precoat is that continuous wave pattern shape is wrapped on the outside surface of described radiation absorption precoat; After the electronic equipment being positioned at receiving cavity sends radiation ray, first through the radiation absorption precoat of internal layer, and then enter radiation reflective precoat through radiation absorption precoat; Obviously, radiation reflective precoat have employed the structural design of wave-like (or claiming corrugated), partial radiation ray will be back to radiation absorption precoat through reflection, radiation absorption precoat is impelled to realize double absorption, ensure that a large amount of rays of electronic equipment radiation can be absorbed by radiation-resistant pocket, avoid causing the radiation injury to human body.

It should be noted that, this structure of nano silver fibre not only makes silver-colored fiber maintain original textile attribute, has more the properties such as anti-oxidant, radiation proof.Silver has the most effective antimicrobial performance.Being utilized the silver-colored fiber radiation-proof fabric of nanometer technology manufacture by contg. silver fiber, is radiation protection technology up-to-date after metal radiation protection fiber cloth in the world, have radiation proof, antibacterial, press down dirty function, be the more satisfactory cloth producing Radiation proof dress.Its radiation-proof effect is better than the radiation-proof cloth made with other metal material, can wear next to the skin and useful to human body.

The characteristic of silver fiber: (1) powerful deodorizing: mildew-resistant deodorization functions, bacteria breed can allow health produce stink, and the silver ion of silver-colored fiber surface can very fast by ammonia and rotten protein adsorption, it be upper and reduce or elimination stink.

(2) powerful antibacterial: antibacterial mechanisms: the mechanism of argent sterilization is exactly the physiology course blocking bacterium.In the environment of warm moist, silver ion has very high biologically active, this means that silver ion very easily combines with other material, makes the protein coagulating inside and outside bacterial cell membrane, thus blocks breathing and the reproductive process of bacterial cell.Environment gets over warm moist, and the activity of silver ion is stronger.

(3) radiation proof and antistatic property: silver-colored fiber adopts " fine silver " to make is the natural element that a kind of nature is formed, completely the toxic and side effect of chemically product as none.Because of the high conductivity of silver; anti-5000v electrostatic; there is electro-magnetic screen function; as long as a small amount of silver-colored fiber exists on clothing; to eliminate rapidly because of the electrostatic produced that rubs; make product have comfort without electrostatic, therefore silver-colored fiber can be very quick and efficient conductivity to be gone out, and human body can be protected from electromagnetic wave infringement (pregnant woman can protect foetus from Contamination of Electromagnetic Wave).

Below the concrete structure of the radiation-resistant pocket that the utility model embodiment provides and concrete technique effect are done and describe in detail:

In concrete structure, described fixed mount precoat is fixedly connected on the internal layer of described pocket body.

Preferably, as a kind of embodiment, described radiation reflective precoat is fixedly connected with described radiation absorption precoat, and the precoat after described radiation reflective precoat and described radiation absorption precoat fix formation and described fixed mount precoat removably connect.

Preferably, as a kind of embodiment, between the precoat after described radiation reflective precoat and described radiation absorption precoat fix formation and described fixed mount precoat, be provided with VELCRO.

It should be noted that, first, fixed mount precoat is fixedly connected on the internal layer of described pocket body; Fixed mount precoat can be used for the shape supporting pocket body better; In addition, the precoat after described radiation reflective precoat and described radiation absorption precoat fix formation and realize dismantling and cleaning by VELCRO between described fixed mount precoat.

In the radiation-resistant pocket structure that the utility model embodiment provides, reasonable in design between each precoat, unpick and wash conveniently, be easy to airing and be convenient to storage, sliceable fixing, simultaneously economical and practical again.

In concrete structure, the overall ovalize shape of xsect of described fixed mount precoat or rectangular shape.Above-mentioned fixed mount precoat have employed the shape that above-mentioned shape can adapt to pocket body, and pocket body is mostly rectangular shape and elliptical shape in general, and wherein rectangle width can adopt narrower size design.

In concrete structure, described radiation absorption precoat is the precoat of silicon carbide fibre blending or the precoat of polyion fabric fibre blending.

Preferably, as a kind of embodiment, described radiation absorption precoat is individual layer or multilayer.

Preferably, as a kind of embodiment, described radiation reflective precoat is by the precoat of stainless steel fibre blending or the precoat by the silver-colored fiber blend of metallization.

It should be noted that, this radiation absorption precoat relatively this radiation reflective precoat is positioned at the inner side of this radiation reflective precoat, and this radiation absorption precoat adopts the structural design of absorbing material.The major part of the external electromagnetic radiation received reflects by above-mentioned radiation reflective precoat, and above-mentioned radiation absorption precoat absorbs it.Particularly, this radiation absorption precoat can be one or more layers cloth of one or more layers cloth by the fibrous woven of absorbing material or the fibers mixture ordinary coat fiber blend by absorbing material.

In another embodiment, this absorbing material can also be silicon carbide fibre, as nanometer silicon carbide fiber.Change in embodiment in one, this absorbing material can be polyion fabric fibre, this polyion fabric fibre is that ordinary coat fiber contains the ordinary coat fiber of a large amount of ion through multiply ionized, preferably, this polyion fabric fibre is the polyion itrile group fiber that itrile group fiber (comprising the fiber of acrylic fiber or other access itrile groups) is formed through multiply ionized.

This radiation reflective precoat comprises electromagnetic shielding material, the material of most of ELECTROMAGNETIC RADIATION REFLECTION that this electromagnetic shielding material will receive.Particularly, this radiation reflective precoat can be one or more layers cloth of one or more layers cloth by the fibrous woven of electromagnetic shielding material or the fibers mixture ordinary coat fiber blend by electromagnetic shielding material.This electromagnetic shielding material can at least one in metal fibre (as stainless steel fibre), metalized fibers (as the silver-colored fiber that metallizes), nano metal fiber (nano silver fibre).To sum up, its radiation-proof effect of structural design that have employed radiation reflective precoat and the combination of radiation absorption precoat is better.

Preferably, as a kind of embodiment, described pocket body also comprises button part and button hole (not shown); Described button part is fixedly connected in described receiving cavity; Described button part coordinates with described button hole.

It should be noted that, above-mentioned pocket body can also be provided with button part and button hole, and button part is fixedly connected in described receiving cavity, when needs carry out closing fixing to the intrinsic electronic equipment of pocket, can button part be buckled in button hole, be fixed cooperation.

Correspondingly, the utility model embodiment still provides a kind of clothes, comprises above-mentioned radiation-resistant pocket; Described radiation-resistant pocket is arranged on described clothes.

The clothes (such as: western-style clothes or the other forms of clothes of shirt) of radiation-resistant pocket structure that what the utility model embodiment provided have a kind ofly have radiation proof, clothes that water-fastness, anti-oxidant, antistatic, wear-resisting durable air-permeable is good; the negative effect of electromagnetic radiation to human body can be reduced, human organ is played a protective role.

Compared with prior art; in this novel practical technical pattern is closed; convenient and practical; there is radiation proof function; suitably can reduce, weaken negative effect to human body; human organ is played a protective role, and water-fastness, anti-oxidant, antistatic, wear-resisting durable, do not affect people's normal life custom etc.Add functional, the practicality of clothes and the lifting of value.

In sum, a kind of radiation-resistant pocket that the utility model embodiment provides and clothes, have following obviously technical advantage: the direct injury 1, preventing Radiation On Human body; 2, do not affect and play phone; 3, water-fastness; 4, anti-oxidant; 5, antistatic; 6, wear-resisting, durable, good permeability.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (10)

1. a radiation-resistant pocket, is characterized in that,

Comprise the pocket body, fixed mount precoat, radiation reflective precoat and the radiation absorption precoat that are socketed successively from the outer to the inner, wherein: described radiation absorption precoat end to end circumferencial direction along described pocket body forms receiving cavity; Described radiation reflective precoat is wrapped in the receiving cavity outside surface that described radiation absorption precoat is formed; Described fixed mount precoat is wrapped in the skin of radiation reflective precoat; Described fixed mount precoat becomes latticed by many one metal wires fiber interweaving and forms; Described fixed mount precoat is for supporting described pocket body;

And described radiation reflective precoat is continuous wave pattern shape is wrapped on the outside surface of described radiation absorption precoat.

2. radiation-resistant pocket as claimed in claim 1, is characterized in that,

Described fixed mount precoat is fixedly connected on the internal layer of described pocket body.

3. radiation-resistant pocket as claimed in claim 2, is characterized in that,

Described radiation reflective precoat is fixedly connected with described radiation absorption precoat, and the precoat after described radiation reflective precoat and described radiation absorption precoat fix formation and described fixed mount precoat removably connect.

4. radiation-resistant pocket as claimed in claim 3, is characterized in that,

VELCRO is provided with between precoat after described radiation reflective precoat and described radiation absorption precoat fix formation and described fixed mount precoat.

5. radiation-resistant pocket as claimed in claim 3, is characterized in that,

The overall ovalize shape of xsect of described fixed mount precoat or rectangular shape.

6. radiation-resistant pocket as claimed in claim 3, is characterized in that,

Described radiation absorption precoat is the precoat of silicon carbide fibre blending or the precoat of polyion fabric fibre blending.

7. radiation-resistant pocket as claimed in claim 6, is characterized in that,

Described radiation absorption precoat is individual layer or multilayer.

8. radiation-resistant pocket as claimed in claim 3, is characterized in that,

Described radiation reflective precoat is by the precoat of stainless steel fibre blending or the precoat by the silver-colored fiber blend of metallization.

9. radiation-resistant pocket as claimed in claim 3, is characterized in that,

Described pocket body also comprises button part and button hole; Described button part is fixedly connected in described receiving cavity; Described button part coordinates with described button hole.

10. clothes, is characterized in that, comprise the radiation-resistant pocket as described in any one of claim 1-9; Described radiation-resistant pocket is arranged on described clothes.