CN215040929U - Anti-wrinkle radiation-proof fabric - Google Patents

Abstract

The utility model relates to a garment materials technical field, concretely relates to anti fold radiation protection surface fabric, including the first anti fold layer, the metallic shield layer and the second anti fold layer that set gradually, the metallic shield layer is woven as warp and weft by anti fold braided wire and is formed, anti fold braided wire is including the first conductive metal silk that is located the inboard and the inoxidizing coating of cladding at this first conductive metal silk outside, first anti fold layer includes first warp and first weft, latticed anti fold base cloth is woven into to first warp and first weft, the last interval of anti fold base cloth sets up elastic bulge uniformly, the second is anti fold the layer and is including ventilative base cloth, it has a plurality of anti fold units to closely arrange on the ventilative base cloth, anti fold unit is made by elastic material, just anti fold unit's middle part is equipped with and runs through anti fold unit's bleeder vent. The anti-wrinkle radiation-proof fabric can effectively resist wrinkles so as to reduce the folding probability of metal wires, thereby prolonging the radiation-proof service life of the fabric.

Description

Anti-wrinkle radiation-proof fabric

Technical Field

The utility model relates to a garment materials technical field especially relates to an anti fold radiation protection surface fabric.

Background

With the improvement of the requirements of human beings on healthy life and work, and the increase of more and more household and industrial radiation products, the radiation-proof products are more and more widely applied to the aspect of clothes. The principle of the radiation-proof fabric is that a loop formed by metal fibers in the garment is utilized to generate induced current, and the induced current generates a reverse electromagnetic field for shielding. Since the good metal conductor can reflect electromagnetic waves, that is, when the aperture of the metal mesh is smaller than the wavelength (wavelength/frequency) 1/4 of the electromagnetic waves, the electromagnetic waves cannot penetrate through the metal mesh. All radiation-proof clothes for pregnant women in the market are made by adopting the principle, the fabric contains conductive metal fibers or conductive silver fibers, wherein the metal fibers refer to stainless steel metal fibers, the silver fibers refer to composite fibers formed by permeating nano silver ions into nylon fibers, and the two fibers have good conductivity, so that the radiation-proof clothes can play a role in shielding electromagnetic waves. However, the radiation-proof fabric in the prior art inevitably generates wrinkles or is folded when in use, and the metal wires may be broken after long-term use, so that the shielding effect is weakened or even lost.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide an anti fold radiation protection surface fabric, anti fold radiation protection surface fabric can be effectively anti fold in order to reduce the folding probability of wire to improve the radiation protection life-span of this surface fabric.

In order to achieve the technical effects, the utility model adopts the following technical scheme:

the utility model provides an anti fold radiation protection surface fabric, is including the first anti fold layer, the metal shield layer and the second anti fold layer that set gradually, the metal shield layer is woven as warp and weft by anti fold braided wire and is formed, anti fold braided wire is including the first conductive metal silk that is located the inboard and the cladding at the outside inoxidizing coating of this first conductive metal silk, first anti fold layer includes first warp and first weft, first warp and first weft are woven into latticed anti fold base cloth, the last interval of anti fold base cloth sets up elastic bulge uniformly, the second anti fold layer is including ventilative base cloth, it has a plurality of anti fold units to closely arrange on the ventilative base cloth, anti fold unit is made by elastic material, just the middle part of anti fold unit is equipped with and runs through the bleeder vent of anti fold unit.

Further, the protective layer is a hollow tubular fabric, through holes are formed in the two sides of the first conductive metal wires of the protective layer, and second conductive metal wires are arranged in the through holes.

Further, the hollow tubular fabric is flat.

Furthermore, the elastic protrusions comprise a plurality of elastic particles, the elastic particles are closely arranged on the anti-wrinkle base cloth and are fixed by second warp threads and second weft threads, the second warp threads and the second weft threads are perpendicular to each other, and the second warp threads and the second weft threads are made of elastic fiber materials.

Further, crease-resistant unit is square ring structure just the bleeder vent is located crease-resistant unit's inboard and with crease-resistant unit coaxial setting, crease-resistant unit's bottom with the shielding layer bonds.

Furthermore, the first anti-wrinkle layer and the second anti-wrinkle layer are respectively provided with an inner layer and an outer layer on one side far away from the metal shielding layer, and the inner layer and the outer layer are both single-layer fabrics.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a pair of anti fold radiation protection surface fabric plays radiation protection effect through setting up the metallic shield layer, simultaneously, plays certain anti effect of buckling to first conductive metal silk and second conductive metal silk simultaneously through using purpose-made crease-resistant braided wire, simultaneously, the cooperation first anti fold layer and second anti fold layer play auxiliary stay and crease-resistant effect to this metallic shield layer, can improve this radiation protection surface fabric's whole anti fold ability effectively, make its life improve.

Drawings

Fig. 1 is a schematic view of an overall structure of a wrinkle-resistant radiation-proof fabric according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a first anti-wrinkle layer of a wrinkle-resistant radiation-proof fabric according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a crease-resistant knitting line of a crease-resistant radiation-proof fabric according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a second anti-wrinkle layer of the anti-wrinkle radiation-proof fabric according to an embodiment of the present invention;

the reference signs are: 10, an inner layer, 20, a first anti-wrinkle layer, 21, an anti-wrinkle base fabric, 221, second warp threads, 222, second weft threads, 23, elastic particles, 30, a metal shielding layer, 31, a first conductive metal wire, 32, a protective layer, 321, a second conductive metal wire, 40, a second anti-wrinkle layer, 41, a breathable base fabric, 42, an anti-wrinkle unit, 421, a breathable hole, 50 and an outer layer.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 4, the wrinkle-resistant radiation-proof fabric provided by this embodiment includes a first wrinkle-resistant layer 20, a metal shielding layer 30, and a second wrinkle-resistant layer 40, which are sequentially arranged, where the metal shielding layer 30 is formed by weaving wrinkle-resistant woven wires as warp and weft, the wrinkle-resistant woven wires include a first conductive metal wire 31 located inside and a protective layer 32 coated outside the first conductive metal wire 31, the first wrinkle-resistant layer 20 includes a first warp and a first weft, the first warp and the first weft are woven into a latticed wrinkle-resistant base fabric 21, and the first warp and the second warp 221 are both elastic yarns. Crease-resistant base fabric 21's top layer interval sets up elastic bulge uniformly, second crease-resistant layer 40 includes ventilative base fabric 41, a plurality of crease-resistant units 42 of closely arranging on ventilative base fabric 41, crease-resistant unit 42 is made by elastic material, preferably silica gel or rubber, just crease-resistant unit 42's middle part is equipped with and runs through crease-resistant unit 42's bleeder vent 421. In specific implementation, the first anti-wrinkle layer 20 and the second anti-wrinkle layer 40 simultaneously perform anti-wrinkle protection on the metal shielding layer 30.

In this embodiment, the first and second wrinkle resistant layers 20 and 40 are respectively provided with an inner layer 10 and an outer layer 50 on the side away from the metal shielding layer 30, and both the inner layer 10 and the outer layer 50 are single-layer fabrics. Specifically, the inner layer 10 and the outer layer 50 may be made of cotton yarn, polyester fiber, or polyester fiber.

In this embodiment, the protection layer 32 is a hollow tubular fabric, and the protection layer 32 has through holes on both sides of the first conductive metal wires 31, second conductive metal wires 321 are disposed in the through holes, the second conductive metal wires 321 are parallel to the first conductive metal wires 31, and the diameter of the second conductive metal wires 321 is smaller than or equal to that of the first conductive metal wires 31. Furthermore, the hollow tubular fabric is flat to facilitate processing and to avoid deformation of the crease resistant woven thread.

In this embodiment, the elastic protrusions include a plurality of elastic particles 23, the elastic particles 23 are made of rubber or silica gel, and the elastic particles 23 are preferably spherical or spindle-shaped, the elastic particles 23 are closely arranged on the anti-wrinkle base fabric 21, and the elastic particles 23 are fixed by second warp threads 221 and second weft threads 222, specifically, the second warp threads 221 and the second weft threads 222 are perpendicular to each other and the second warp threads 221 and the second weft threads 222 are made of elastic fiber materials, when processing, the second warp threads 221 and the second weft threads 222 are fixedly connected with the anti-wrinkle base fabric 21, and the elastic particles 23 penetrate through the second warp threads 221 and the second weft threads 222 and deform to some extent.

In this embodiment, crease resistant unit 42 is square ring structure just bleeder vent 421 is located crease resistant unit 42's inboard and with crease resistant unit 42 coaxial setting, crease resistant unit 42's bottom with the shielding layer bonds, but integrated into one piece or bonding between crease resistant unit 42. At the same time, the top of the crease element 42 is fixedly attached to the outer layer 50.

Although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art will understand that the present invention can be modified or replaced with other embodiments without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims. The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (6)

1. The anti-wrinkle radiation-proof fabric is characterized in that: comprises a first anti-wrinkle layer (20), a metal shielding layer (30) and a second anti-wrinkle layer (40) which are arranged in sequence, the metal shielding layer (30) is formed by weaving crease-resistant weaving wires as warps and wefts, each crease-resistant weaving wire comprises a first conductive metal wire (31) positioned on the inner side and a protective layer (32) coated outside the first conductive metal wire (31), the first crease-resistant layer (20) comprises first warp threads and first weft threads, the first warp threads and the first weft threads are woven into a latticed crease-resistant base fabric (21), elastic bulges are uniformly arranged on the crease-resistant base fabric (21) at intervals, the second crease-resistant layer (40) comprises a breathable base fabric (41), a plurality of crease resistant units (42) are closely arranged on the breathable base cloth (41), the crease resistant units (42) are made of elastic materials, and the middle part of the wrinkle resisting unit (42) is provided with a vent hole (421) which penetrates through the wrinkle resisting unit (42).

2. The wrinkle-resistant radiation-proof fabric as claimed in claim 1, wherein: the protective layer (32) is a hollow tubular fabric, through holes are formed in the two sides of the first conductive metal wires (31) of the protective layer (32), and second conductive metal wires (321) are arranged in the through holes.

3. The wrinkle-resistant radiation-proof fabric as claimed in claim 2, wherein: the hollow tubular fabric is flat.

4. The wrinkle-resistant radiation-proof fabric as claimed in claim 1, wherein: the elastic protrusions comprise a plurality of elastic particles (23), the elastic particles (23) are closely arranged on the crease-resistant base fabric (21), the elastic particles (23) are fixed by second warp threads (221) and second weft threads (222), the second warp threads (221) and the second weft threads (222) are perpendicular to each other, and the second warp threads (221) and the second weft threads (222) are made of elastic fiber materials.

5. The wrinkle-resistant radiation-proof fabric as claimed in claim 1, wherein: crease-resistant unit (42) are square ring structure just bleeder vent (421) are located crease-resistant unit (42) inboard and with crease-resistant unit (42) coaxial setting, crease-resistant unit (42) the bottom with the metal shielding layer bonds.

6. The wrinkle-resistant radiation-proof fabric as claimed in claim 1, wherein: the first anti-wrinkle layer (20) and the second anti-wrinkle layer (40) are respectively provided with an inner layer (10) and an outer layer (50) on one side far away from the metal shielding layer (30), and the inner layer (10) and the outer layer (50) are both single-layer fabrics.

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