CN218197305U - Antibacterial antistatic conductive cloth - Google Patents

Abstract

The utility model discloses an antibacterial antistatic electrically conductive cloth relates to fabrics technical field, and its technical scheme main points are: including penetrating wet layer and nexine, be equipped with electrically conductive moisture-proof portion on the layer that permeates moisture, the protruding net of one side fixedly connected with that the layer that permeates moisture is kept away from to the nexine, and protruding net and nexine be integrated into one piece structure, are formed with a plurality of caves between protruding net and the nexine, have seted up the bleeder vent on the cave, set up the hydrofuge hole with the bleeder vent intercommunication on the layer that permeates moisture. Through setting up silver-colored fibre, silver-colored fibre has fine electrically conductive effect, can derive static, and has fine antibacterial effect, has guaranteed the antibacterial effect of whole surface fabric.

Description

Antibacterial antistatic conductive cloth

Technical Field

The utility model relates to a fabrics technical field, more specifically says, it relates to an antibacterial antistatic electrically conductive cloth.

Background

The gloves are hand warming or labor protecting articles and are also used for decoration. Gloves are special articles, and are not practical at first, but only become necessary heat preservation articles in cold regions or medical antibacterial and industrial protective articles in recent times.

Current gloves are in order to increase its service environment, let people can wear the gloves and operate the touch-sensitive screen, can utilize conductive cloth to make touch-sensitive screen gloves, but the staff is vexed in gloves for a long time, sweat easily, gloves can be soaked to its sweat, contact the screen when moist gloves, the screen also can be touched to the sweat, at this moment the electric current will be influenced, its position of calculation that the touch-sensitive screen can not be splendid appears easily, screen drift situation, influence the result of use.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an antibacterial antistatic electrically conductive cloth reaches damp-proof purpose through setting up of structure.

The above technical object of the present invention can be achieved by the following technical solutions: the utility model provides a bacteriostatic antistatic conductive fabric, includes layer and the nexine of permeating moisture, be equipped with electrically conductive damp-proof portion on the layer of permeating moisture, the protruding net of one side fixedly connected with of layer of permeating moisture is kept away from to the nexine, protruding net and nexine are the integrated into one piece structure, be formed with a plurality of caves between protruding net and the nexine, seted up the bleeder vent in the cave, set up the hydrofuge hole with the bleeder vent intercommunication on the layer of permeating moisture.

The utility model discloses further set up to: the aperture of the moisture exhaust hole is larger than that of the air vent.

The utility model discloses further set up to: the moisture permeable layer is formed by weaving a plurality of moisture permeable yarns in a warp-weft mode, the moisture permeable yarns sequentially comprise a first core layer and an outer wrapping layer from inside to outside, the first core layer is formed by twisting a plurality of first special-shaped cross-section fibers, the cross section of each first special-shaped cross-section fiber is cross-shaped, and the outer wrapping layer is wound on the outer side of the first core layer through a plurality of bamboo charcoal fibers.

The utility model discloses further set up to: the nexine is woven through a plurality of first compound yarn longitude and latitude and is formed, the nexine is plain weave, the protruding net is the change mesh tissue, the mesh warp radical of protruding net is 1, the traction latitude radical of protruding net is 3.

The utility model discloses further set up to: the mesh change organization is 11 pages of healds, the warp floating points are floating points, the weft floating points are sinking points, and the mesh change organization is organized from left to right and from bottom to top in a circulating manner: <xnotran> , , , , , , , , , , . </xnotran>

The utility model discloses further set up to: the first composite yarn sequentially comprises a second core layer and a coating layer from inside to outside, the second core layer is formed by twisting hollow fibers and spandex, the coating layer is wound on the outer side of the second core layer through a plurality of coating yarns, and the coating yarns are formed by twisting a plurality of chinlon and copper fibers.

The utility model discloses further set up to: the wet portion of electrically conductive preventing is woven through a plurality of conductive yarn longitude and latitude and is formed, conductive yarn forms through a plurality of silver fibre and polypropylene fibre twisting.

To sum up, the utility model discloses following beneficial effect has:

be used for the finger part with electrically conductive moisture-proof portion, electrically conductive moisture-proof portion has fine electrically conductive effect, can guarantee whole touch-sensitive screen gloves's use, and electrically conductive moisture-proof portion adopts conductive yarn to make, conductive yarn forms through silver fibre and polypropylene fibre twisting, polypropylene fibre absorbs moisture almost not, can guarantee whole electrically conductive moisture-proof portion's drying, prevent to wet, avoid the moist use that influences whole touch-sensitive screen gloves of electrically conductive moisture-proof portion, and one side of nexine is provided with protruding net, the bleeder vent has been seted up in the sunken of forming between protruding net and surface course, set up the hydrofuge hole with the bleeder vent intercommunication on the moisture permeable layer, when the nexine has the sweat, can derive on the moisture permeable layer fast, thereby can pass through fast, reach the effect of fast-drying.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view of the moisture permeable yarn of the present invention;

fig. 3 is a cross-sectional view of a first composite yarn of the present invention;

fig. 4 is a cross-sectional view of the conductive yarn of the present invention;

fig. 5 is an organization chart of the mesh-changing organization of the present invention.

In the figure: 1. a moisture permeable layer; 2. an inner layer; 3. a conductive moisture-proof portion; 4. a convex net; 5. air holes are formed; 6. a moisture removal hole; 7. moisture permeable yarns; 8. a first profiled cross-section fiber; 9. bamboo charcoal fiber; 10. a first composite yarn; 11. a hollow fiber; 12. spandex; 13. nylon; 14. copper fibers; 15. a conductive yarn; 16. silver fibers; 17. polypropylene fiber.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

The utility model provides a bacteriostatic antistatic conductive cloth, as shown in fig. 1-5, including layer 1 and nexine 2 are penetrated to moisture, be equipped with electrically conductive dampproof portion 3 on the layer 1 is penetrated to moisture, nexine 2 keeps away from the protruding net 4 of one side fixedly connected with on layer 1 that permeates moisture, protruding net 4 and nexine 2 be the integrated into one piece structure, be formed with a plurality of caves between protruding net 4 and the nexine 2, bleeder vent 5 has been seted up on the cave, set up the hydrofuge hole 6 with bleeder vent 5 intercommunication on the layer 1 that permeates moisture, the aperture of hydrofuge hole 6 is greater than the aperture of bleeder vent 5.

As shown in fig. 1-5, polyester is taken to form a first irregularly-shaped cross-section fiber 8 with a cross-shaped cross section by utilizing a spinneret plate for spinning, a plurality of first irregularly-shaped cross-section fibers 8 are placed into a twisting machine for twisting to form a first core layer, a processed first core layer and a plurality of bamboo charcoal fibers 9 are placed into a spindle machine, a plurality of bamboo charcoal fibers 9 are wound outside the first core layer in a spindle manner to obtain a whole moisture permeable yarn 7, the surface of the first irregularly-shaped cross-section fiber 8 with the cross-shaped cross section is concave and convex, gaps can be generated between the fibers after mutual twisting, so that the moisture permeable effect of the first whole core layer is ensured, the bamboo charcoal fibers 9 have good antibacterial and deodorant effects and good air permeable effects, the moisture permeable effect of the whole moisture permeable yarn 7 is ensured, the moisture permeable yarns 7 are placed into a water jet loom to form a moisture permeable layer 1 by warp and weft weaving, and a plurality of drain holes are formed on the moisture permeable layer 1 by utilizing a laser drilling machine.

As shown in fig. 1-5, a polyester fiber is taken to be spun by a spinneret plate to form a hollow fiber 11, the hollow fiber 11 and the spandex 12 are put into a twisting machine to be twisted to form a second core layer, the hollow fiber 11 has a good deformation effect and is made of the polyester fiber, the elasticity of the whole hollow fiber 11 is ensured, the elasticity of the spandex 12 is extremely good, the elasticity of the second core layer is ensured, nylon 13 and copper fiber 14 are taken to be twisted to form a covering yarn, the processed second core layer and a plurality of covering yarns are put into a spindle machine, so that the plurality of covering yarns are wound on the outer side of the core layer in a spindle-walking manner to form a covering layer, the whole first composite yarn 10 is obtained, the nylon 13 has good elasticity, the copper fiber 14 has a good conductive effect, 1 first composite yarn 10 is taken as a mesh warp and 3 first composite yarns 10 are taken as a traction machine, a mesh-changing mesh weft tissue is put into a textile machine, and a plurality of first composite yarns 10 are put into the textile machine to form an inner layer 2 by weaving, the mesh tissue is a mesh tissue which is a floating point, a left-up mesh tissue and a floating point-up mesh tissue is taken as a left-up mesh tissue: the laser drilling machine is characterized in that the laser drilling machine is provided with a sinking floating layer, a floating net, a sinking convex layer, a laser drilling machine, a drilling machine and a drilling machine, wherein the sinking floating layer, the sinking convex layer, the floating net, the sinking convex layer and the drilling machine are integrally formed, and the drilling machine is provided with a plurality of laser drilling holes for drilling.

As shown in fig. 1-5, get a plurality of silver fibre 16 and a plurality of polypropylene fibre 17 and put into twisting machine twisting and form conductive yarn 15, silver fibre 16 has fine electrically conductive effect, can derive static, thereby play fine antistatic effect, and silver fibre 16 has fine antibacterial effect, polypropylene fibre 17 hardly absorbs moisture, can guarantee the drying of whole conductive moisture-proof portion 3, prevent moist, put a plurality of conductive yarn 15 into weaving machine warp and weft and weave and form conductive moisture-proof portion 3, sew up conductive moisture-proof portion 3 on one side of layer 1 along its width direction that permeates moisture, laminate one side that inlayer 2 does not have protruding net 4 with one side of layer 1 and conductive moisture-proof portion 3 that permeates moisture, align bleeder vent 5 on inlayer 2 with the hydrofuge hole 6 on the hydrofuge layer, make bleeder vent 5 and hydrofuge hole 6 communicate, sew up inlayer 2 and hydrofuge layer 1 and obtain whole conductive cloth.

This touch-sensitive screen gloves are made to electrically conductive cloth, be used for the finger part with electrically conductive moisture-proof portion 3, electrically conductive moisture-proof portion 3 has fine electrically conductive effect, can guarantee whole touch-sensitive screen gloves's use, and electrically conductive moisture-proof portion 3 adopts electrically conductive yarn 15 to make, electrically conductive yarn 15 forms through silver fibre 16 and polypropylene fibre 17 twisting, polypropylene fibre 17 absorbs little moisture, can guarantee whole electrically conductive moisture-proof portion 3's drying, prevent to wet, avoid electrically conductive moisture-proof portion 3 to wet the use that influences whole touch-sensitive screen gloves, and one side of nexine 2 is provided with protruding net 4, seted up bleeder vent 5 in the sunken division that forms between protruding net 4 and the surface course, moisture permeable layer 1 is last to set up the hydrofuge hole 6 with bleeder vent 5 intercommunication, when nexine 2 has the sweat, can derive on moisture permeable layer 1 fast, thereby can pass through fast, reach the effect of fast-drying.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. An antibacterial antistatic conductive cloth is characterized in that: including layer (1) and nexine (2) are breathed freely and easily, be equipped with electrically conductive wet-proof portion (3) on layer (1) is breathed freely and easily, the protruding net (4) of one side fixedly connected with of layer (1) are breathed freely and easily in nexine (2), protruding net (4) and nexine (2) are integrated into one piece structure, be formed with a plurality of caves between protruding net (4) and nexine (2), bleeder vent (5) have been seted up on the sunken, hydrofuge hole (6) with bleeder vent (5) intercommunication are seted up on layer (1) is breathed freely and easily.

2. A bacteriostatic antistatic conductive fabric as claimed in claim 1, wherein: the aperture of the moisture discharging hole (6) is larger than that of the air vent (5).

3. A bacteriostatic antistatic conductive fabric as claimed in claim 2, wherein: the moisture permeable layer (1) is formed by warp and weft weaving of a plurality of moisture permeable yarns (7), the moisture permeable yarns (7) sequentially comprise a first core layer and an outer wrapping layer from inside to outside, the first core layer is formed by twisting a plurality of first special-shaped cross-section fibers (8), the cross section of the first special-shaped cross-section fibers (8) is cross-shaped, and the outer wrapping layer is wound on the outer side of the first core layer through a plurality of bamboo charcoal fibers (9).

4. The antibacterial antistatic conductive cloth according to claim 3, characterized in that: nexine (2) are woven through a plurality of first compound yarn (10) longitude and latitude and are formed, nexine (2) are plain weave, protruding net (4) are the change mesh tissue, the mesh warp number of protruding net (4) is 1, the traction latitude number of protruding net (4) is 3.

5. A bacteriostatic antistatic conductive fabric as claimed in claim 4, wherein: the mesh change organization is 11 pages of healds, the warp floating points are floating points, the weft floating points are sinking points, and the mesh change organization comprises the following organization cycles from left to right and from bottom to top: <xnotran> , , , , , , , , , , . </xnotran>

6. A bacteriostatic antistatic conductive fabric as claimed in claim 5, wherein: the first composite yarn (10) sequentially comprises a second core layer and a coating layer from inside to outside, the second core layer is formed by twisting hollow fibers (11) and spandex (12), the coating layer is wound on the outer side of the second core layer through a plurality of coating yarns, and the coating yarns are formed by twisting a plurality of chinlon (13) and copper fibers (14).

7. A bacteriostatic antistatic conductive fabric as claimed in claim 6, wherein: the wet portion of electrically conducting preventing (3) is woven through a plurality of electrically conductive yarn (15) longitude and latitude and is formed, electrically conductive yarn (15) are twisted through a plurality of silver fibre (16) and polypropylene fibre (17) and are formed.

Images