CN219055604U - Antibacterial comfortable fabric - Google Patents
Antibacterial comfortable fabric Download PDFInfo
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- CN219055604U CN219055604U CN202320046601.0U CN202320046601U CN219055604U CN 219055604 U CN219055604 U CN 219055604U CN 202320046601 U CN202320046601 U CN 202320046601U CN 219055604 U CN219055604 U CN 219055604U
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Abstract
The utility model discloses antibacterial comfortable fabric, relates to the technical field of textile fabrics, and aims to solve the problem that bacteria are easy to breed after foot sweat is absorbed due to poor antibacterial effect of fabric for manufacturing socks, and the technical scheme is as follows: including interconnect fixed connection's inlayer and antibacterial layer, the inlayer is equipped with the moisture absorption convex part that a plurality of arrays distributed towards keeping away from antibacterial layer direction, forms the air current passageway of mutual intercommunication between a plurality of moisture absorption convex parts, and the antibacterial layer is fixedly connected with a plurality of antibacterial portion one and supports the moisture absorption convex part through antibacterial portion one on the one side of inlayer. The utility model uses bamboo charcoal fiber to inhibit bacteria, resist bacteria and decompose peculiar smell, thereby reducing the breeding of bacteria on the fabric and protecting the health of the wearer.
Description
Technical Field
The utility model relates to the technical field of textile fabrics, in particular to a bacteriostatic comfortable fabric.
Background
The fabric for making socks is generally made of pure cotton fabric or chemical fiber fabric, and needs to have the characteristics of thick texture, firmness, wear resistance and strong hygroscopicity.
In daily life, socks have the effect of protecting the foot and absorbing the sweaty foot, can let people feel more comfortable when wearing shoes, but because the sole has more than 600 sweat glands per square centimeter, more than 2 to 4 times more than other parts of the body, the sweaty foot of people who often move is exaggerated, and simultaneously most shoes can be more general in order to protect the foot, and under the superimposed effect of these two factors, the surface fabric for making socks just very easily breeds bacterium and influences the health of foot after having absorbed a large amount of sweat, lets the foot produce beriberi even desquamation.
There is therefore a need to propose a new solution to this problem.
Disclosure of Invention
Aiming at the defects existing in the prior art, the utility model aims to provide the antibacterial comfortable fabric, and the structure is adopted to ensure that the fabric has better air permeability and rapid sweat discharge, so that a large number of bacteria are prevented from breeding.
The technical aim of the utility model is realized by the following technical scheme: this antibacterial comfortable fabric, including mutual fixed connection's inlayer and antibacterial layer, the inlayer is equipped with the moisture absorption convex part that a plurality of arrays distribute towards keeping away from antibacterial layer direction, a plurality of form the air current passageway of mutual intercommunication between the moisture absorption convex part, the antibacterial layer is fixedly connected with a plurality of antibacterial portion one and supports through antibacterial portion a pair of moisture absorption convex part in the one side of inlayer.
The utility model is further provided with: the anti-slip device is characterized in that an outer layer is fixedly connected to one surface of the anti-slip layer, far away from the inner layer, of the anti-slip layer, a plurality of anti-slip depressions are distributed in an array mode in the direction away from the anti-slip layer, a plurality of anti-slip portions II are fixedly connected to one surface of the anti-slip layer, far away from the outer layer, of the anti-slip layer, and the anti-slip portion II supports the anti-slip depressions through the anti-slip portions II.
The utility model is further provided with: the anti-slip concave position corresponds to the position of the moisture absorption convex part, and the second antibacterial part corresponds to the first antibacterial part.
The utility model is further provided with: the inner layer and the outer layer are both honeycomb structures and are arranged in a mirror direction, the honeycomb structures of the outer layer are 16-page healds, warp floating points are floating points and weft floating points are sinking points, and the honeycomb structures are composed of two six-floating two-sinking warp surface structures, four three-sinking five-floating warp surface structures, four five-sinking three-floating weft surface structures, four six-sinking two-floating weft surface structures and two seven-sinking one-floating weft surface structures.
The utility model is further provided with: the honeycomb organization of the outer layer circulates from left to right from bottom to top as follows: the 1 st and 2 nd healds are floating, sinking, floating, sinking, floating and sinking, the 5 th, 6 th, 13 th and 14 th are sinking, floating, sinking, floating and sinking, the 7 th, 8 th, 11 th and 12 th healds are sinkage, sinkage and sinkage, and the 9 th and the 10 th are sinking, floating and sinking.
The utility model is further provided with: the first antibacterial part and the second antibacterial part are formed by antibacterial yarns sewn on the top and bottom surfaces of the antibacterial layer.
The utility model is further provided with: the antibacterial yarn is formed by twisting bamboo charcoal fibers and chitin fibers.
In summary, the utility model has the following beneficial effects:
the antibacterial yarn on the antibacterial layer is utilized to enable the top and bottom surfaces of the antibacterial layer to be respectively provided with a plurality of antibacterial parts I and a plurality of antibacterial parts II, so that the antibacterial parts I and II eject the moisture absorption convex parts on the inner layer and the anti-skid concave parts on the outer layer, the socks made of the fabric can form airflow channels with the feet of a wearer, a certain ventilation effect is ensured, sweat absorbed by the moisture absorption convex parts is guided onto the antibacterial yarn, bacterial breeding on the socks is reduced, and the health of the feet of the wearer is protected.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is an exploded view of the present utility model;
FIG. 3 is a honeycomb structure of the outer layer of the present utility model;
FIG. 4 is a cut-away view of the bacteriostatic yarn according to the utility model.
In the figure: 1. an inner layer; 2. a bacteriostatic layer; 3. a hygroscopic convex portion; 4. an air flow channel; 5. a first bacteriostasis part; 6. an outer layer; 7. anti-slip depressions; 8. antibacterial yarn; 9. bamboo charcoal fiber; 10. chitin fiber.
Detailed Description
The present utility model will be described in detail below with reference to the accompanying drawings and examples.
Examples:
this antibacterial comfortable fabric, as shown in fig. 1 and 2, including mutual fixed connection's inlayer 1 and antibacterial layer 2, inlayer 1 is equipped with the moisture absorption convex part 3 of a plurality of array distributions towards keeping away from antibacterial layer 2 direction, forms the air current passageway 4 of mutual intercommunication between a plurality of moisture absorption convex parts 3, and the one side of antibacterial layer 2 towards inlayer 1 is gone up fixedly connected with a plurality of antibacterial portion one 5 and is supported moisture absorption convex part 3 through antibacterial portion one 5.
As shown in fig. 1 and fig. 2, an outer layer 6 is fixedly connected to one surface of the bacteriostatic layer 2 far away from the inner layer 1, a plurality of anti-slip pits 7 distributed in arrays are arranged on the outer layer 6 towards the direction far away from the bacteriostatic layer 2, a plurality of bacteriostatic parts II are fixedly connected to one surface of the bacteriostatic layer 2 towards the outer layer 6 and support the anti-slip pits 7 through the bacteriostatic parts II, the positions of the anti-slip pits 7 correspond to the positions of the hygroscopic convex parts 3, and the positions of the bacteriostatic parts II correspond to the positions of the bacteriostatic parts I5.
As shown in fig. 3 and 4, the inner layer 1, the antibacterial layer 2 and the outer layer 6 are all woven by polyester cotton yarns, the inner layer 1 and the outer layer 6 are both honeycomb structures and are arranged in a mirror direction, the honeycomb structure of the outer layer 6 is 16-page healds, the warp floating point is floating and the weft floating point is sinking, the honeycomb structure is composed of two six-floating two-sinking warp surface structures, four three-sinking five-floating warp surface structures, four five-sinking three-floating weft surface structures, four six-sinking two-floating weft surface structures and two seven-sinking one-floating weft surface structures, and the honeycomb structure of the outer layer 6 is circularly formed by the left-to-right three-floating warp surface structures: the 1 st and 2 nd healds are floating, sinking, floating, sinking, floating and sinking, the 5 th, 6 th, 13 th and 14 th are sinking, floating, sinking, floating and sinking, the 7 th, 8 th, 11 th and 12 th healds are sinkage, sinkage and sinkage, the 9 th and the 10 th healds are sinking, floating and sinking, the first antibacterial part 5 and the second antibacterial part are formed by stitching antibacterial yarns 8 on the top surface and the bottom surface of the antibacterial layer 2, and the antibacterial yarns 8 are formed by twisting bamboo charcoal fibers 9 and chitin fibers 10.
When people need to obtain the fabric, bamboo carbon fibers 9 and chitin fibers 10 are firstly taken to be sent into a twisting machine together to twist to obtain antibacterial yarns 8, then polyester cotton yarns are taken to be sent into a water jet loom for weaving in two batches, so that an inner layer 1, an outer layer 6 and a plain weave antibacterial layer 2 which are in honeycomb structures are obtained, moisture absorption convex parts 3 and anti-slip concave parts 7 are respectively formed on the inner layer 1 and the outer layer 6 by the honeycomb structures, then the antibacterial yarns 8 are sewn on the antibacterial layer 2, a plurality of antibacterial parts 5 and antibacterial parts II which are distributed in an array are respectively formed on the top and bottom surfaces of the antibacterial layer 2, the inner layer 1, the antibacterial layer 2 and the outer layer 6 can be sewn and connected, the positions of the antibacterial parts 5 are guaranteed to correspond to the moisture absorption convex parts 3, and the positions of the antibacterial parts II correspond to the anti-slip concave parts 7, so that the antibacterial fabric can be obtained.
When people make the fabric into socks, because the first antibacterial part 5 on the antibacterial layer 2 jacks up the moisture absorption convex parts 3 on the inner layer 1, an airflow channel 4 is formed between a plurality of the moisture absorption convex parts 3, so that after the socks made of the fabric are worn by a wearer, the moisture absorption convex parts 3 absorb sweat, the contact area between the inner layer 1 and the feet of the wearer is reduced, the socks soaked by sweat are prevented from being completely attached to the feet of the wearer, the wearer feels wet and uncomfortable, meanwhile, the sweat on the moisture absorption convex parts 3 flows to the first antibacterial part 5, the bamboo charcoal fibers 9 and the chitin fibers 10 on the antibacterial yarns 8 are utilized to play the effect of reducing bacterial breeding as much as possible, and further, odor is prevented from being generated due to bacterial breeding, the health of the feet is protected, and the antibacterial parts formed by the antibacterial yarns 8 are also utilized to push out the anti-slip concave parts 7, so that the outer surfaces of the socks made of the fabric are uneven, the friction force between the socks and the inner parts of the shoes can be enhanced, the slipping is avoided, the moisture absorption convex parts 3 on the inner layer 1 are easy to increase the friction force between the feet of the socks and the feet of the wearer, and the soles are prevented from being worn by the soles, and the soles are worn by the socks, and the other socks are worn by the three layers of the socks are more comfortable and the socks are worn by the soles.
The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.
Claims (7)
1. Antibacterial comfortable fabric, including interconnect fixed connection's inlayer and antibacterial layer, its characterized in that: the inner layer is equipped with the moisture absorption convex part that a plurality of arrays distribute towards keeping away from the antibacterial layer direction, a plurality of form the air current passageway of mutual intercommunication between the moisture absorption convex part, the antibacterial layer is fixedly connected with a plurality of antibacterial portion one and supports through antibacterial portion a pair of moisture absorption convex part on the one side of inner layer.
2. The bacteriostatic comfort fabric of claim 1, wherein: the anti-slip device is characterized in that an outer layer is fixedly connected to one surface of the anti-slip layer, far away from the inner layer, of the anti-slip layer, a plurality of anti-slip depressions are distributed in an array mode in the direction away from the anti-slip layer, a plurality of anti-slip portions II are fixedly connected to one surface of the anti-slip layer, far away from the outer layer, of the anti-slip layer, and the anti-slip portion II supports the anti-slip depressions through the anti-slip portions II.
3. The bacteriostatic comfort fabric of claim 2, wherein: the anti-slip concave position corresponds to the position of the moisture absorption convex part, and the second antibacterial part corresponds to the first antibacterial part.
4. A bacteriostatic comfort fabric according to claim 3, characterized in that: the inner layer and the outer layer are both honeycomb structures and are arranged in a mirror direction, the honeycomb structures of the outer layer are 16-page healds, warp floating points are floating points and weft floating points are sinking points, and the honeycomb structures are composed of two six-floating two-sinking warp surface structures, four three-sinking five-floating warp surface structures, four five-sinking three-floating weft surface structures, four six-sinking two-floating weft surface structures and two seven-sinking one-floating weft surface structures.
5. The bacteriostatic comfort fabric according to claim 4, wherein: the honeycomb organization of the outer layer circulates from left to right from bottom to top as follows: the 1 st and 2 nd healds are floating, sinking, floating, sinking, floating and sinking, the 5 th, 6 th, 13 th and 14 th are sinking, floating, sinking, floating and sinking, the 7 th, 8 th, 11 th and 12 th healds are sinkage, sinkage and sinkage, and the 9 th and the 10 th are sinking, floating and sinking.
6. A bacteriostatic comfort fabric according to claim 3, characterized in that: the first antibacterial part and the second antibacterial part are formed by antibacterial yarns sewn on the top and bottom surfaces of the antibacterial layer.
7. The bacteriostatic comfort fabric according to claim 6, wherein: the antibacterial yarn is formed by twisting bamboo charcoal fibers and chitin fibers.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320046601.0U CN219055604U (en) | 2023-01-07 | 2023-01-07 | Antibacterial comfortable fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320046601.0U CN219055604U (en) | 2023-01-07 | 2023-01-07 | Antibacterial comfortable fabric |
Publications (1)
Publication Number | Publication Date |
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CN219055604U true CN219055604U (en) | 2023-05-23 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202320046601.0U Active CN219055604U (en) | 2023-01-07 | 2023-01-07 | Antibacterial comfortable fabric |
Country Status (1)
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CN (1) | CN219055604U (en) |
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2023
- 2023-01-07 CN CN202320046601.0U patent/CN219055604U/en active Active
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