CN211241799U - Electromagnetic wave protective clothing - Google Patents

Abstract

The utility model discloses an electromagnetic wave protective clothing, which comprises a jacket and a pair of trousers, wherein the jacket is composed of a front piece, a rear piece and two sleeves, the jacket comprises an inner fabric layer, an outer fabric layer and a space between the inner fabric layer and the outer fabric layer for inserting a metal mesh; a plurality of insertion openings of the metal mesh are arranged on the outer fabric layer, and zippers or thread gluing tapes are arranged at the insertion openings; an anti-friction layer made of real silk fabric or spandex fabric is fixedly arranged on the surface of the metal net. The utility model relates to a in a flexible way, both the action of being convenient for can carry out electromagnetic protection and shielding again, do not wear the metal mesh when not being close to the place, make things convenient for the action, the detection equipment who is close to the enemy wears the metal mesh after detecting enemy detection equipment signal with shielding local electromagnetic wave signal or protect the injury with electromagnetic weapon to the action personnel.

Description

Electromagnetic wave protective clothing

Technical Field

The utility model relates to an electromagnetic wave protective clothing.

Background

The protective clothing types include fire-fighting protective clothing, industrial protective clothing, medical protective clothing, military protective clothing and protective clothing used by special people. The protective clothing is mainly applied to the industries and departments of fire fighting, military industry, ships, petroleum, chemical industry, paint spraying, cleaning and disinfection, laboratories and the like. The electromagnetic wave protective clothing mainly realizes the shielding of electromagnetic waves through the ultrafine conductive fibers implanted in the fabric, protects the wearing personnel, and considers the need of blocking the attack of electromagnetic wave pulse weapons in military use. The symptoms of the attack of electromagnetic wave pulse weapons are physical and mental fatigue, memory disorder, skin sickness, eye bleeding, cataract, cornea and retina damage and even cancer; however, if the metal net is detachably arranged, how to take down the metal net and how to carry the metal net after taking down the metal net, and how to wear the metal net or the metal film quickly after taking down the metal net is a difficult problem, so that the metal net or the metal film is directly fixed in the middle of the clothes as the middle layer to play a role in electromagnetic wave protection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides an electromagnetic wave protective clothing which is flexible in design, convenient for action and can protect and shield electromagnetic waves, does not wear a metal mesh when not being close to enemies, and is convenient for action, and detection equipment close to the enemies can wear the metal mesh after detecting the signals of the detection equipment of the enemies to shield the electromagnetic wave signals at the place or protect the action personnel from the damage of electromagnetic weapons; and because of its ingenious design, it is very easy to take off and insert the middle layer of clothes fast.

In order to achieve the purpose, the technical scheme of the utility model is to design an electromagnetic wave protective clothing, which comprises a jacket and a pair of trousers, wherein the jacket is composed of a front piece, a rear piece and two sleeves, and the jacket comprises an inner fabric layer, an outer fabric layer and a space between the inner fabric layer and the outer fabric layer for inserting a metal mesh; a plurality of insertion openings of the metal mesh are arranged on the outer fabric layer, and zippers or thread gluing tapes are arranged at the insertion openings; an anti-friction layer made of real silk fabric or spandex fabric is fixedly arranged on the surface of the metal net. The metal net is arranged in an inserting mode and can be taken out from the space in the middle of the coat, so that the metal net is convenient to wear and take out, the metal net is inserted when electromagnetic wave protection is needed, and the metal net is taken out when the electromagnetic wave protection is not needed so as to be convenient to move; the friction reducing layer is fixedly arranged on the surface of the metal net, so that the metal net can be conveniently and quickly inserted into the middle of the clothes or taken out of the middle of the clothes.

The further technical scheme is that an anti-friction layer made of real silk fabric or spandex fabric is fixedly arranged on one surface, close to the human body, of the outer fabric layer, and an anti-friction layer made of real silk fabric or spandex fabric is fixedly arranged on one surface, far away from the human body, of the inner fabric layer. The friction reducing layers are arranged in the outer layer fabric and the inner layer fabric, so that the process of taking out and inserting the metal mesh can be quicker and more convenient.

The further technical scheme is that the metal net is in a rectangular net shape, the length of the metal net is consistent with the size of the chest circumference of the coat, and a hook made of metal wires for hooking the other side of the metal net is fixedly arranged on one side edge of the metal net in the width direction. The width of the metal net is slightly smaller than the length of the clothes, the length of the metal net is basically from the lower part of the neckline to the lower hem, namely, the metal net covers the whole chest to the waist, and the metal net is arranged at the sleeve part and is used for covering the arm; the setting up of hook makes can form fixedly in the edge after inserting the metal mesh between outer surface fabric and inlayer surface fabric, and also difficult when taking, only need tighten up the metal mesh with strength slightly and make the hook throw off the side of metal mesh and loosen again and make the hook no longer catch on the side of metal mesh can.

The metal net is formed by hinging four sectional rectangular nets, at least three pairs of shaping belts are matched with the metal net, each pair of shaping belts are connected through a fastening belt, and the two shaping belts of each pair of shaping belts are respectively positioned at two sides of the metal net. When the metal net is hinged to rotate, the friction reducing layer fixedly arranged on the surface of the metal net is still fixed on the metal net and hinged to rotate along with the metal net, namely each of the four segmented rectangular nets is an independent body (the friction reducing layer is fixedly arranged on the surface of each segmented rectangular net). The metal net is formed by hinging four sectional rectangular nets, so that the four sectional rectangular nets can be folded into the size of one sectional rectangular net only by completing three rotations after being taken down (before the rotation, the shaping belt is firstly disassembled < the arrangement of the magic tape is directly pulled out >), so that the four sectional rectangular nets are convenient to be put into a metal box and are convenient to carry later; and the setting belt enables the metal net not to deform due to hinging after the metal net folded into one piece in the metal box is folded to form a large metal net when the metal net needs to be inserted again.

The further technical scheme is that a cloth strip used for placing the metal box is arranged at the middle position of the rear piece, the cloth strip is outwards protruded and a PVC hard board fixedly connected to the rear piece is arranged in the cloth strip, the rear piece is connected with fastening strips used for fixing the metal box through fastening tapes, and the fastening strips are located above the cloth strip and are arranged in a crossed mode. The metal box is used for placing the collected metal net; the cloth strip is outwards protruding and outside size is not many, mainly plays the effect of pocketing the metallic box bottom, then cooperates the fastening strip of thread gluing back piece, can fix the metallic box behind the clothes, portable.

The utility model has the advantages and the beneficial effects that: the electromagnetic wave shielding device is flexible in design, can be used for conveniently acting and shielding electromagnetic waves, does not wear a metal net when not being close to a place, is convenient to act, and is worn with the metal net after detecting the signal of enemy detection equipment by detection equipment close to an enemy to shield the electromagnetic wave signal of the place or protect the action personnel from being injured by an electromagnetic weapon; and because of its ingenious design, it is very easy to take off and take out and insert the middle layer of the clothes fast; the metal net is arranged in an inserting mode and can be taken out from the space in the middle of the coat, so that the metal net is convenient to wear and take out, the metal net is inserted when electromagnetic wave protection is needed, and the metal net is taken out when the electromagnetic wave protection is not needed so as to be convenient to move; the friction reducing layer is fixedly arranged on the surface of the metal net, so that the metal net can be conveniently and quickly inserted into the middle of the clothes or taken out of the middle of the clothes. The friction reducing layers are arranged in the outer layer fabric and the inner layer fabric, so that the process of taking out and inserting the metal mesh can be quicker and more convenient. The width of the metal net is slightly smaller than the length of the clothes, the length of the metal net is basically from the lower part of the neckline to the lower hem, namely, the metal net covers the whole chest to the waist, and the metal net is arranged at the sleeve part and is used for covering the arm; the setting up of hook makes can form fixedly in the edge after inserting the metal mesh between outer surface fabric and inlayer surface fabric, and also difficult when taking, only need tighten up the metal mesh with strength slightly and make the hook throw off the side of metal mesh and loosen again and make the hook no longer catch on the side of metal mesh can. The metal net is formed by hinging four sectional rectangular nets, so that the four sectional rectangular nets can be folded into the size of one sectional rectangular net only by completing three rotations after being taken down (before the rotation, the shaping belt is firstly disassembled < the arrangement of the magic tape is directly pulled out >), so that the four sectional rectangular nets are convenient to be put into a metal box and are convenient to carry later; and the setting belt enables the metal net not to deform due to hinging after the metal net folded into one piece in the metal box is folded to form a large metal net when the metal net needs to be inserted again.

Drawings

FIG. 1 is a front view of the top of an electromagnetic wave shielding suit according to the present invention;

FIG. 2 is a rear view of the jacket of the present invention;

FIG. 3 is a schematic diagram of the layered structure of the upper garment of the present invention;

fig. 4 is a schematic view of a metal mesh of the present invention;

FIG. 5 is a schematic view of the expanded metal of FIG. 4;

FIG. 6 is a schematic view of FIG. 5 after being collapsed in half;

fig. 7 is a schematic view of fig. 6 after being further halved.

In the figure: 1. a front panel; 2. a rear panel; 3. sleeves; 4. an inner fabric layer; 5. an outer fabric layer; 6. a metal mesh; 7. an anti-friction layer; 8. a hook; 9. a segmented rectangular net; 10. shaping the belt; 11. a metal case; 12. cloth strips; 13. and (5) fastening the strips.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 7 (for convenience of illustration, the sectional rectangular net and the fastening strip are not shown in fig. 4; the net structure of the metal net is not shown in fig. 5, only the outline of the metal net is shown; fig. 6 is a schematic view of fig. 5 after being folded along the central axes by hinging; fig. 7 is a schematic view of fig. 6 in which two sectional rectangular nets at the upper part are folded after being respectively hinged leftwards and rightwards), the present invention relates to an electromagnetic wave protective garment, which comprises a coat and a pair of trousers, wherein the coat is composed of a front piece 1, a rear piece 2 and two sleeves 3, and the coat comprises an inner fabric layer 4, an outer fabric layer 5 and a space between the inner fabric layer 4 and the outer fabric layer 5 for inserting the metal net 6; the outer fabric layer 5 is provided with a plurality of insertion openings of the metal mesh 6, and the insertion openings are provided with zippers or thread gluing tapes; an anti-friction layer 7 made of real silk fabric or spandex fabric is fixedly arranged on the surface of the metal net 6. An anti-friction layer 7 made of real silk fabric or spandex fabric is fixedly arranged on one surface, close to the human body, of the outer fabric layer 5, and an anti-friction layer 7 made of real silk fabric or spandex fabric is fixedly arranged on one surface, far away from the human body, of the inner fabric layer 4. The metal net 6 is in a rectangular net shape, the length of the metal net is consistent with the size of the chest circumference of the coat, and a hook 8 made of metal wires for hooking the other side of the metal net 6 is fixedly arranged on one side edge of the metal net 6 in the width direction. The metal net 6 is formed by hinging four sectional rectangular nets 9, at least three pairs of shaping belts 10 are matched with the metal net 6, each pair of shaping belts 10 are connected through a fastening belt, and the two shaping belts 10 of each pair of shaping belts 10 are respectively positioned at two sides of the metal net 6. Be equipped with the cloth 12 that is used for placeeing metal box 11 on the middle part position of back part 2, the outside arch of cloth 12 sets up and sets up the PVC hardboard of fixed connection on back part 2 in cloth 12, still is connected with the fastening strip 13 that is used for fixed metal box 11 through the thread gluing area on the back part 2, and fastening strip 13 is located cloth 12 top and two fastening strips 13 cross arrangement.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The electromagnetic wave protective clothing is characterized by comprising a jacket and lower trousers, wherein the jacket consists of a front piece, a rear piece and two sleeves, and the jacket comprises an inner fabric layer, an outer fabric layer and a space for inserting a metal net between the inner fabric layer and the outer fabric layer; a plurality of insertion openings of the metal mesh are arranged on the outer fabric layer, and zippers or thread gluing tapes are arranged at the insertion openings; an anti-friction layer made of real silk fabric or spandex fabric is fixedly arranged on the surface of the metal net.

2. The electromagnetic wave protective clothing of claim 1, wherein an anti-friction layer made of silk fabric or spandex fabric is fixedly arranged on one surface of the outer fabric layer close to the human body, and an anti-friction layer made of silk fabric or spandex fabric is fixedly arranged on one surface of the inner fabric layer far away from the human body.

3. The electromagnetic wave shield garment of claim 2, wherein said metal mesh is in the form of a rectangular net having a length corresponding to the size of the bust of the garment, and hooks made of metal wires for hooking the other side of the metal mesh are fixed to one side of the metal mesh in the width direction.

4. The electromagnetic wave protective clothing according to claim 1 or 3, wherein the metal mesh is formed by hinging four sectional rectangular meshes, at least three pairs of shaping belts are arranged to match with the metal mesh, each pair of shaping belts is formed by connecting fastening belts, and the two shaping belts of each pair of shaping belts are respectively positioned at two sides of the metal mesh.

5. The electromagnetic wave protective clothing of claim 4, wherein the back piece has a cloth strip at a middle position for placing the metal case, the cloth strip is protruded outward, a PVC hard plate fixedly connected to the back piece is arranged in the cloth strip, the back piece is further connected with a fastening strip for fixing the metal case through a hook and loop fastener, the fastening strip is positioned above the cloth strip, and the two fastening strips are arranged in a crossing manner.

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