CN218111918U - Antibacterial and antistatic pongee - Google Patents

Abstract

The utility model discloses an antibacterial antistatic spring inferior spinning relates to fabrics technical field, aims at solving the poor problem of surface fabric antistatic effect, and its technical scheme main points are: the conductive layer is arranged between the surface layer and the lining, the first through holes are formed in the conductive layer, a plurality of villi are arranged on one side, close to the conductive layer, of the surface layer, a plurality of second through holes communicated with the first through holes are formed in the lining, the villi penetrate through the first through holes and stretch into the second through holes, and the length of the villi is larger than the sum of the depths of the first through holes and the second through holes. Through adopting the copper fiber, the copper fiber has fine antibacterial effect, and has fine electrically conductive effect, can derive the static in the surface fabric to the antistatic effect of whole surface fabric has been guaranteed.

Description

Antibacterial and antistatic pongee

Technical Field

The utility model relates to a fabrics technical field, more specifically says, it relates to an antibacterial antistatic spring inferior spinning.

Background

The Chunyan spinning fabric is a long-standing old variety, but in recent years, the spinning world in lusterless areas carries out version change on products, extinction yarn raw materials and weaving process innovation are adopted, and the product is further extended in a dyeing and finishing post-treatment process, so that the density is increased, the hand feeling is softer, and the functions are expanded.

The present kasuga fabric is made of chemical fiber materials mostly, and after the fabric is made of chemical fiber materials, the fabric is easy to rub with the body due to frequent movement of people, the chemical fiber does not have a good antistatic effect, static electricity is generated on the garment after friction easily, inconvenience is brought to wearers and other people easily, the phenomenon of pilling can be caused on the fabric, and the influence is attractive.

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 spring is spun inferior, reaches antistatic purpose through setting up of structure.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an antibacterial antistatic kasugan fabric, includes surface course and nexine, be equipped with the conducting layer between surface course and the nexine, a plurality of through-hole one have been seted up on the conducting layer, one side that the surface course is close to the conducting layer is equipped with a plurality of fine hair, set up a plurality of through-holes two with through-hole one intercommunication on the nexine, fine hair passes through-hole one and stretches into in the through-hole two, the length of fine hair is greater than the degree of depth sum of through-hole one and through-hole two.

The utility model discloses further set up to: the conducting layer and the through holes are of an integrated structure, and the conducting layer is woven by the first composite yarns in a warp-weft mode to form a through hole structure.

The utility model discloses further set up to: the through hole tissue is 6 pages of healds, the warp floating point is floating, the weft floating point is sinking, and the tissue cycle of the through hole tissue from left to right from bottom to top is as follows: floating and sinking, sinking and sinking, floating and floating, floating and sinking sinking, floating, sinking and sinking sinking and floating.

The utility model discloses further set up to: the first composite yarn includes a hollow fiber and a plurality of copper fibers wound around the hollow fiber.

The utility model discloses further set up to: the nexine is woven through a plurality of second compound yarn longitude and latitude and is formed and strengthen twill tissue, it is for sinking for floating, latitude floating point for 6 pages of healds and through the floating point to strengthen twill tissue from left to right from bottom to top's tissue circulation does: floating, sinking, floating, sinking sinking, floating, sinking and floating.

The utility model discloses further set up to: the second composite yarn comprises a first core layer and a coating layer coated on the outer side of the first core layer, the first core layer is formed by twisting a plurality of first special-shaped section fibers, and the section of each first special-shaped section fiber is C-shaped.

The utility model discloses further set up to: the coating layer is wound on the outer side of the core layer through a plurality of coating yarns, and the coating yarns are formed by twisting acetate fibers and hollow cotton.

The utility model discloses further set up to: the surface layer is woven by a plurality of third composite yarns in a warp-weft mode to form a plain weave, and the third composite yarns are formed by twisting nylon and acrylic fibers.

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

through setting up the conducting layer, the copper fibre has in the conducting layer, the copper fibre has fine electrically conductive effect, make the conducting layer have fine electrically conductive effect, because the one side that the surface course is close to the conducting layer has fine hair, its fine hair stretches into to the conducting layer on in the through-hole one, and stretch out from through-hole two on the nexine, make fine hair continuously contact with external environment, and the inner wall contact of fine hair and through-hole one, when producing static, because the conducting layer has fine electrically conductive effect, and fine hair and external environment contact, make that the conducting layer can be better electrically conductive, and can derive to the external world along fine hair, the antistatic effect of whole surface fabric has been guaranteed.

Drawings

FIG. 1 is a schematic view of the present invention;

fig. 2 is a cross-sectional view of a first composite yarn of the present invention;

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

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

FIG. 5 is a structural view of the through-hole structure of the present invention;

figure 6 is the utility model discloses strengthen twill's organizational chart.

In the figure: 1. a surface layer; 2. an inner layer; 3. a conductive layer; 4. a first through hole; 5. a second through hole; 6. fluff; 7. a first composite yarn; 8. a hollow fiber; 9. copper fibers; 10. a second composite yarn; 11. a first profiled cross-section fiber; 12. acetate fibers; 13. hollow cotton; 14. a third composite yarn; 15. nylon; 16. acrylic 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 kasugan fabric, as shown in fig. 1-6, including surface course 1 and nexine 2, be equipped with conducting layer 3 between surface course 1 and the nexine 2, seted up a plurality of through-hole 4 on the conducting layer 3, one side that surface course 1 is close to conducting layer 3 is equipped with a plurality of fine hair 6, set up a plurality of through-holes two 5 with through-hole 4 intercommunication on the nexine 2, fine hair 6 passes through in through-hole 4 stretches into through-hole two 5, the length of fine hair 6 is greater than the degree of depth sum of through-hole 4 and through-hole two 5.

As shown in fig. 1-6, a polyester fiber is spun by a spinneret to form a hollow fiber 8 with a hollow cross section, the hollow fiber 8 and a plurality of copper fibers 9 are placed in an ingot walking machine, so that the plurality of copper fibers 9 are wound outside the hollow fiber 8 in an ingot walking manner to obtain a first composite yarn 7, the plurality of first composite yarns 7 are placed in a water jet loom to be woven in a warp and weft manner in a through hole structure manner to form a conductive layer 3, the through hole structure is 6 pages of healds, the warp floating point is floating, the weft floating point is sinking, and the through hole structure is circulated from left to right and from bottom to top: the floating and sinking, sinking and sinking, floating and sinking, sinking and floating, floating and sinking, sinking and floating, the through hole tissue is provided with a plurality of holes, so that the conducting layer 3 is integrally formed with a plurality of through holes 4, the integrity of the conducting layer 3 is ensured, the strength of the conducting layer 3 is ensured, the hollow fiber 8 has good fluffy feeling, the thermal insulation effect is good, the copper fiber 9 has good conductive effect, and the conductive effect of the whole conducting layer 3 is ensured.

As shown in fig. 1-6, get dacron and utilize the spinneret to spout the formation cross-section and be the first heterotypic cross-section fibre 11 of C style of calligraphy, put a plurality of first heterotypic cross-section fibre 11 into the twisting machine and twist and form sandwich layer one, get acetate fiber 12 and hollow cotton 13 twist and form the cladding yarn, put processed sandwich layer one and a plurality of cladding yarn into the spindle machine, make a plurality of cladding yarn twine in a sandwich layer outside with the mode of spindle forming the cladding, obtain second composite yarn 10, put a plurality of second composite yarn 10 into the water jet loom and weave the formation inner layer 2 with the mode longitude and latitude of strengthening twill tissue, it is 6 pages of healds and float through the floating point, the latitude floating point is sunken to strengthen the twill tissue circulation from left to right from bottom to top: <xnotran> , , , , , , 2 5. </xnotran>

The first heterotypic cross-section fibre 11 cavity form of C style of calligraphy, twist and form sandwich layer one and make sandwich layer one have the thermal insulation chamber, the cold-proof effect of second compound yarn 10 has been guaranteed, cavity cotton 13 has the effect of fine moisture absorption rapid-curing cutback, and have fine cold-proof effect, acetate fiber 12 does not have electrostatic absorption, fine antistatic effect has, and dry fast, have fine wet effect of loosing, the antistatic effect of second compound yarn 10 has been guaranteed, it is comparatively thick and dense to strengthen twill tissue's fabric, structural strength is higher, the intensity of nexine 2 has been guaranteed when having guaranteed nexine 2 cold-proof effect.

As shown in fig. 1-6, take polyamide fibre 15 and acrylic fibre 16 to put into the twisting machine and twist and form third composite yarn 14, polyamide fibre 15 has fine elasticity, acrylic fibre 16 has fine cold-proof effect, put a plurality of third composite yarn 14 into the hydraulic loom and weave formation surface course 1 with plain weave's mode longitude and latitude, the plain weave interlacing point is more, stable in structure, the intensity of surface course 1 has been guaranteed, utilize the raising machine to form a plurality of fine hair 6 in one side of surface course 1, the one side that has fine hair 6 with surface course 1 is laminated with conducting layer 3, and laminate lining 2 in the conducting layer 3 one side of keeping away from surface course 1, fine hair 6 on the surface course 1 stretches into in through-hole one 4 and through-hole two 5 this moment, because the length of fine hair 6 is greater than the degree of depth sum of through-hole one 4 and through-hole two 5, make fine hair 6 can stretch out lining 2.

After the clothing is made to this surface fabric, through setting up conducting layer 3, copper fiber 9 has in the conducting layer 3, copper fiber 9 has fine electrically conductive effect, make conducting layer 3 have fine electrically conductive effect, because one side that surface course 1 is close to conducting layer 3 is densely covered with fine hair 6, its fine hair 6 stretches into in the through-hole 4 on the conducting layer 3, and stretch out from through-hole two 5 on nexine 2, make fine hair 6 continuously contact with external environment, and the inner wall contact of fine hair 6 and through-hole 4, when producing static, because conducting layer 3 has fine electrically conductive effect, and fine hair 6 contacts with external environment, make conducting layer 3 can be better electrically conductive, and can derive to the external world along fine hair 6, the antistatic effect of whole surface fabric has been guaranteed.

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 (8)

1. An antibacterial and antistatic pongee fabric is characterized in that: including surface course (1) and nexine (2), be equipped with conducting layer (3) between surface course (1) and nexine (2), a plurality of through-hole (4) have been seted up on conducting layer (3), one side that surface course (1) is close to conducting layer (3) is equipped with a plurality of fine hair (6), set up a plurality of through-holes two (5) with through-hole (4) intercommunication on nexine (2), fine hair (6) pass through-hole (4) and stretch into in through-hole two (5), the length of fine hair (6) is greater than the degree of depth sum of through-hole (4) and through-hole two (5).

2. The bacteriostatic antistatic kasugao fabric according to claim 1, which is characterized in that: the conducting layer (3) and the through holes I (4) are of an integrally formed structure, and the conducting layer (3) is woven by a plurality of first composite yarns (7) in a warp-weft mode to form a through hole structure.

3. Bacteriostatic antistatic kasugao fabric according to claim 2, characterized in that: the through hole tissue is 6 pages of healds, the warp floating point is floating, the weft floating point is sinking, and the tissue cycle of the through hole tissue from left to right from bottom to top is as follows: floating, sinking, floating floating and sinking, floating and sinking sinking and floating, sinking and floating.

4. Bacteriostatic antistatic kasugao fabric according to claim 3, characterized in that: the first composite yarn (7) comprises hollow fibers (8) and a number of copper fibers (9) wound around the hollow fibers (8).

5. Bacteriostatic antistatic kasugao fabric according to claim 4, characterized in that: inner layer (2) are woven through a plurality of second composite yarn (10) longitude and latitude and are formed and strengthen the twill tissue, strengthen the twill tissue for 6 pages of healds and for floating, latitude floating point for sinking through the floating point, strengthen the tissue circulation from left to right from bottom to top of twill tissue and be: floating, sinking, floating, sinking and sinking sinking, floating and sinking sinking, floating, sinking and floating.

6. The bacteriostatic antistatic kasugao fabric according to claim 5, which is characterized in that: the second composite yarn (10) comprises a first core layer and a coating layer coated on the outer side of the first core layer, the first core layer is formed by twisting a plurality of first special-shaped section fibers (11), and the section of each first special-shaped section fiber (11) is C-shaped.

7. A bacteriostatic antistatic kasugao fabric according to claim 6, characterized in that: the coating layer is wound on the outer side of the core layer through a plurality of coating yarns, and the coating yarns are formed by twisting acetate fibers (12) and hollow cotton (13).

8. The bacteriostatic antistatic kasugao fabric according to claim 1, which is characterized in that: the surface layer (1) is woven by a plurality of third composite yarns (14) in a warp-weft mode to form plain weave, and the third composite yarns (14) are formed by twisting nylon (15) and acrylic fibers (16).

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