CN216193125U - Cool-feeling antibacterial one-way moisture-conducting functional fabric - Google Patents

Abstract

The utility model discloses a cool antibacterial unidirectional moisture-conducting functional fabric, which adopts the technical scheme that the cool antibacterial functional fabric comprises cool antibacterial polyester yarns and moisture-absorbing and sweat-discharging polyester yarns, wherein 24 paths are taken as a circulation, the 7 th path, the 8 th path, the 9 th path, the 10 th path, the 11 th path, the 12 th path, the 19 th path, the 20 th path, the 21 st path, the 22 th path, the 23 th path and the 24 th path are taken as inner layers, and the 1 st path, the 2 nd path, the 3 rd path, the 4 th path, the 5 th path, the 6 th path, the 13 th path, the 14 th path, the 15 th path, the 16 th path, the 17 th path and the 18 th path are taken as outer layers and connecting layers.

Description

Cool-feeling antibacterial one-way moisture-conducting functional fabric

Technical Field

The utility model relates to the field of functional fabrics, in particular to a cool antibacterial unidirectional moisture-conducting functional fabric.

Background

With the development of economy and the continuous progress of living conditions of people, the needs of people are changed from full eating and warm wearing to the pursuit of high-quality healthy life, fitness exercises are more and more popularized, a large amount of sweating is often accompanied during the exercises, the traditional cotton and linen fabric is particularly easy to stick on the skin of a human body after absorbing the sweat, so that the human body feels uncomfortable, and after the sweat is massively produced, the fabric is particularly easy to breed bacteria, generate various peculiar smells and cause skin problems.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a cool antibacterial one-way moisture-conducting functional surface which has the advantages of uneven point contact effect, difficulty in adhesion with skin after sweat absorption, inhibition of bacterial growth, reduction of odor and protection of skin health due to the adoption of antibacterial materials.

The technical purpose of the utility model is realized by the following technical scheme:

a cool-feeling antibacterial unidirectional moisture-conducting functional fabric comprises cool-feeling antibacterial polyester yarns and moisture-absorbing sweat-releasing polyester yarns, wherein the 24 paths are taken as a circulation, wherein the path 1 sequentially comprises upper needle floating threads, upper needle looping, lower needle floating threads and lower needle floating threads; the 2 nd path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 3 rd path comprises upper needle floating thread, upper needle looping, lower needle floating thread and lower needle floating thread in sequence; the 4 th path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 5 th path comprises upper needle floating threads, upper needle looping, lower needle floating threads and lower needle floating threads in sequence; the 6 th path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 7 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 8 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads; the 9 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 10 th path comprises upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads in sequence; the 11 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 12 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads; the 13 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 14 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 15 th path comprises upper needle floating thread, upper needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 16 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 17 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 18 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 19 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 20 th path comprises upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads in sequence; the 21 st path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 22 nd path is sequentially an upper needle floating thread, a lower needle looping, a lower needle floating thread, a lower needle looping and a lower needle floating thread; the 23 rd path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 24 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads.

Further, the yarns of the 7 th, 8 th, 9 th, 10 th, 11 th, 12 th, 19 th, 20 th, 21 st, 22 th, 23 rd and 24 th paths form a back layer of the fabric after being woven into the fabric, and the back layer is formed in a honeycomb shape.

Furthermore, the 7 th, 8 th, 9 th, 10 th, 11 th, 12 th, 19 th, 20 th, 21 st, 22 th, 23 th and 24 th paths are cool antibacterial polyester yarns.

Furthermore, the 7 th, 8 th, 9 th, 10 th, 11 th, 12 th, 19 th, 20 th, 21 st, 22 th, 23 th and 24 th paths of 75D/36F DTY type antibacterial cool polyester yarns.

Furthermore, the yarns of the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, 13 th, 14 th, 15 th, 16 th, 17 th and 18 th paths form the outer layer and the connecting layer of the fabric after the fabric is knitted.

Furthermore, the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, 13 th, 14 th, 15 th, 16 th, 17 th and 18 th paths are moisture-absorbing and sweat-releasing polyester yarns.

Furthermore, the 1 st path, the 2 nd path, the 3 rd path, the 4 th path, the 5 th path, the 6 th path, the 13 th path, the 14 th path, the 15 th path, the 16 th path, the 17 th path and the 18 th path are 75D/72F DTY type moisture absorption and sweat releasing polyester yarns.

In conclusion, the utility model has the following beneficial effects:

1. the cooling silk part of surface fabric nexine punctiform convex and skin direct contact can conduct heat and sweat fast, and the part of recessing forms ventilative passageway, promotes the ventilation effect of surface fabric, and such concave-convex tissue effect for the surface fabric is difficult for gluing with skin, thereby has promoted the comfort level that the surface fabric was worn after the human body perspired.

2. The yarns in the inner layer of the fabric have a permanent antibacterial effect, so that the growth of bacteria after the fabric is taken and sweated can be avoided, and the generation of peculiar smell is reduced.

3. Choose the dacron silk of low hole number for use through the nexine, the outer dacron silk of chooseing for use high hole number to make the ectonexine of surface fabric form differential effect, human sweat back of perspiring, sweat can be automatically conducted the skin from the nexine, has one-way wet function of leading, can remain the dry and comfortable of face next to the shin all the time, promotes the comfort level of dress.

Drawings

Fig. 1 is a triangular view of a cool feeling antibacterial unidirectional moisture-transfer functional fabric.

Fig. 2 is a sectional structure view of the cool antibacterial unidirectional moisture-conducting functional fabric.

In the drawings, "-" represents a float; V-V represents the upper needle looping; the reverse V represents the lower needle looping; 1. an inner layer; 2. a connecting layer; 3. and (4) an outer layer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description. The advantages and features of the present invention will become more apparent from the following description. It is to be noted that the drawings are in a very simplified form and are all used in a non-precise scale for the purpose of facilitating and distinctly aiding in the description of the embodiments of the present invention. To make the objects, features and advantages of the present invention comprehensible, reference is made to the accompanying drawings. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the implementation conditions of the present invention, so that the present invention has no technical significance, and any structural modification, ratio relationship change or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention.

Example (b):

a cool-feeling antibacterial unidirectional moisture-conducting functional fabric is shown in figure 1 and comprises cool-feeling antibacterial polyester yarns and moisture-absorbing sweat-releasing polyester yarns, wherein 24 paths are taken as a circulation, wherein the path 1 sequentially comprises upper needle floating threads, upper needle looping, lower needle floating threads and lower needle floating threads; the 2 nd path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 3 rd path comprises upper needle floating thread, upper needle looping, lower needle floating thread and lower needle floating thread in sequence; the 4 th path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 5 th path comprises upper needle floating threads, upper needle looping, lower needle floating threads and lower needle floating threads in sequence; the 6 th path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 7 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 8 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads; the 9 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 10 th path comprises upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads in sequence; the 11 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 12 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads; the 13 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 14 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 15 th path comprises upper needle floating thread, upper needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 16 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 17 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 18 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 19 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 20 th path comprises upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads in sequence; the 21 st path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 22 nd path is sequentially an upper needle floating thread, a lower needle looping, a lower needle floating thread, a lower needle looping and a lower needle floating thread; the 23 rd path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 24 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads.

Furthermore, the arrangement mode of the upper and lower knitting needles adopts a rib type needle alignment mode, and the specific arrangement mode is as follows: needle insertion ABABABAB; needle insertion ababccd.

Further, as shown in fig. 1 and 2, the yarns of the 7 th, 8 th, 9 th, 10 th, 11 th, 12 th, 19 th, 20 th, 21 st, 22 nd, 23 rd and 24 th roads form the back layer 1 of the fabric after being woven into the fabric, and form an uneven honeycomb shape, thereby having a point contact effect. The protruding part is contacted with the skin point; the concave part forms the space, and the space can hold the air, is favorable to ventilative heat dissipation.

Further, as shown in fig. 1, the 7 th, 8 th, 9 th, 10 th, 11 th, 12 th, 19 th, 20 th, 21 st, 22 th, 23 th and 24 th paths are cool antibacterial polyester yarns, specifically 75D/36F DTY type antibacterial cool polyester yarns. The 75D/36F DTY type antibacterial cool polyester yarn is a polyester low stretch yarn, has high elastic modulus, improves the resilience performance and the rupture strength, enables the fabric to deform during sports, has soft texture and improves the wearing comfort of the fabric; the yarn is mixed with ceramic powder of silver, copper and zinc ions, so that the yarn has the functions of antibiosis and cool feeling.

Further, as shown in fig. 1 and 2, the yarns of the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, 13 th, 14 th, 15 th, 16 th, 17 th and 18 th paths form the outer layer 3 and the connecting layer 2 of the fabric after the fabric is knitted.

Further, as shown in fig. 1, the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, 13 th, 14 th, 15 th, 16 th, 17 th and 18 th paths are moisture-absorbing and sweat-releasing polyester yarns, specifically 75D/72F DTY-type moisture-absorbing and sweat-releasing polyester yarns. The polyester yarn of low hole number is chooseed for use to nexine 1, and the polyester yarn of high hole number is chooseed for use to outer 3 to make the ectonexine of surface fabric form differential effect, human sweat back, sweat can be automatically conducted the skin from the nexine, has one-way wet function of leading, can remain the dry and comfortable of face next to the shin all the time, promotes the comfort level of dress.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. The utility model provides a cold feel is antibiotic one-way wet function surface fabric that leads which characterized in that: the cool antibacterial polyester yarn and the moisture absorption and sweat releasing polyester yarn are circulated by taking 24 paths as a circulation, wherein the path 1 sequentially comprises an upper needle floating thread, an upper needle loop, a lower needle floating thread and a lower needle floating thread; the 2 nd path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 3 rd path comprises upper needle floating thread, upper needle looping, lower needle floating thread and lower needle floating thread in sequence; the 4 th path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 5 th path comprises upper needle floating threads, upper needle looping, lower needle floating threads and lower needle floating threads in sequence; the 6 th path comprises upper needle looping, upper needle floating thread, lower needle looping, lower needle floating thread and lower needle floating thread in sequence; the 7 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 8 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads; the 9 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 10 th path comprises upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads in sequence; the 11 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 12 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads; the 13 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 14 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 15 th path comprises upper needle floating thread, upper needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 16 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 17 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread, lower needle looping and lower needle looping in sequence; the 18 th path comprises upper needle looping, upper needle floating thread, lower needle looping and lower needle looping in sequence; the 19 th path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 20 th path comprises upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads in sequence; the 21 st path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 22 nd path is sequentially an upper needle floating thread, a lower needle looping, a lower needle floating thread, a lower needle looping and a lower needle floating thread; the 23 rd path comprises upper needle floating thread, lower needle looping, lower needle floating thread and lower needle looping in sequence; the 24 th path is sequentially provided with upper needle floating threads, lower needle looping, lower needle floating threads, lower needle looping and lower needle floating threads.

2. The antibacterial unidirectional moisture-conducting functional fabric with cool feeling as claimed in claim 1, wherein the functional fabric is characterized in that: the yarns of the 7 th, 8 th, 9 th, 10 th, 11 th, 12 th, 19 th, 20 th, 21 st, 22 nd, 23 rd and 24 th paths form a back layer of the fabric after the fabric is woven, and the back layer forms a honeycomb shape.

3. The antibacterial unidirectional moisture-conducting functional fabric with cool feeling as claimed in claim 1, wherein the functional fabric is characterized in that: and the 7 th path, the 8 th path, the 9 th path, the 10 th path, the 11 th path, the 12 th path, the 19 th path, the 20 th path, the 21 st path, the 22 nd path, the 23 rd path and the 24 th path are made of cool antibacterial polyester yarns.

4. The antibacterial unidirectional moisture-conducting functional fabric with cool feeling as claimed in claim 3, wherein the functional fabric is characterized in that: and the 7 th path, the 8 th path, the 9 th path, the 10 th path, the 11 th path, the 12 th path, the 19 th path, the 20 th path, the 21 st path, the 22 nd path, the 23 rd path and the 24 th path of 75D/36F DTY type antibacterial cool polyester yarns.

5. The antibacterial unidirectional moisture-conducting functional fabric with cool feeling as claimed in claim 1, wherein the functional fabric is characterized in that: the yarns of the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, 13 th, 14 th, 15 th, 16 th, 17 th and 18 th paths form an outer layer and a connecting layer of the fabric after the fabric is woven.

6. The antibacterial unidirectional moisture-conducting functional fabric with cool feeling as claimed in claim 1, wherein the functional fabric is characterized in that: the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, 13 th, 14 th, 15 th, 16 th, 17 th and 18 th paths are moisture-absorbing and sweat-releasing polyester yarns.

7. The antibacterial unidirectional moisture-conducting functional fabric with cool feeling as claimed in claim 6, wherein the functional fabric is characterized in that: the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, 13 th, 14 th, 15 th, 16 th, 17 th and 18 th paths are 75D/72F DTY moisture-absorbing and sweat-releasing polyester yarns.

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