CN214983928U - Alginate fiber needle-punched composite burnt-out fabric - Google Patents

Abstract

The utility model discloses a alginate fiber needle-punched composite burnt-out fabric, which comprises a first hollow polyester layer, a pure cotton layer, a second hollow polyester layer and a alginate fiber layer which are sequentially arranged from inside to outside; the pure cotton layer is compounded between the first hollow polyester layer and the second hollow polyester layer in a needling mode, and the alginate fiber layer is compounded with the second hollow polyester layer in a needling mode. The thermal insulation property of the terylene is utilized to maintain the body surface temperature and the excellent stiffness property of the human body, and meanwhile, the air permeability of the hollow structure and the pure cotton is utilized to lead out the moisture on the body surface, so that the composite fabric has good air permeability while having the thermal insulation property, and the stiffness of the composite fabric is kept. The alginate fiber has good antibacterial performance, the antibacterial property of the composite fabric is increased by arranging the alginate fiber layer, and the problem that the existing polyester mixed fabric is lack of moisture permeability and antibacterial property is solved.

Description

Alginate fiber needle-punched composite burnt-out fabric

Technical Field

The utility model relates to a dress designing field, in particular to alginate fiber acupuncture compound burnt-out surface fabric.

Background

At present, although the warmth retention property and the stiffness of common polyester-cotton mixed fabrics in the market are improved, the common polyester-cotton mixed fabrics lack good moisture permeability and antibacterial performance.

There is therefore a need for improvements in the prior art.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing disadvantages of the prior art, an object of the present invention is to provide a composite burnt-out fabric with alginate fiber needle punched to solve the problem that the existing polyester blended fabric lacks moisture permeability and antibacterial property.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a seaweed fiber needle-punched composite burnt-out fabric comprises a first hollow polyester layer, a pure cotton layer, a second hollow polyester layer and a seaweed fiber layer which are sequentially arranged from inside to outside; the pure cotton layer is compounded between the first hollow polyester layer and the second hollow polyester layer in a needling mode, and the alginate fiber layer is compounded with the second hollow polyester layer in a needling mode.

In the alginate fiber needle-punched composite burnt-out fabric, burnt-out patterns which are made by burnt-out treatment through water at a preset temperature are arranged on the surface of the alginate fiber layer.

In the alginate fiber needle-punched composite burnt-out fabric, the first hollow polyester layer and the second hollow polyester layer are hollow polyester fiber fabrics knitted by 100% of hollow polyester fiber yarns.

In the alginate fiber needle-punched composite burnt-out fabric, the needle-punching density of the needle-punched composite is 1 square centimeter and 12 needles.

In the alginate fiber needle-punched composite burnt-out fabric, the first hollow polyester layer and the second hollow polyester layer are plain woven fabrics woven by dyeing 70S hollow polyester fiber yarns.

In the alginate fiber needle-punched composite burnt-out fabric, the pure cotton layer is a pure cotton fabric.

Compared with the prior art, the alginate fiber needle-punched composite burnt-out fabric provided by the utility model comprises a first hollow polyester layer, a pure cotton layer, a second hollow polyester layer and an alginate fiber layer which are sequentially arranged from inside to outside; the pure cotton layer is compounded between the first hollow polyester layer and the second hollow polyester layer in a needling mode, and the alginate fiber layer is compounded with the second hollow polyester layer in a needling mode. The thermal insulation property of the terylene is utilized to maintain the body surface temperature and the excellent stiffness property of the human body, and meanwhile, the air permeability of the hollow structure and the pure cotton is utilized to lead out the moisture on the body surface, so that the composite fabric has good air permeability while having the thermal insulation property, and the stiffness of the composite fabric is kept. The alginate fiber has good antibacterial performance, the antibacterial property of the composite fabric is increased by arranging the alginate fiber layer, and the problem that the existing polyester mixed fabric is lack of moisture permeability and antibacterial property is solved.

Drawings

Fig. 1 is a schematic cross-sectional structure view of the alginate fiber needle-punched composite burnt-out fabric provided by the utility model.

Detailed Description

The utility model provides a alginate fiber needle-punched composite burnt-out fabric. In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the following description of the present invention will refer to the accompanying drawings and illustrate embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. To those of ordinary skill in the art, the specific meaning of the above terms in the present invention can be understood in combination with the specific situation. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1, the utility model provides a alginate fiber needle-punched composite burnt-out fabric, which comprises a first hollow polyester layer 1, a pure cotton layer 3, a second hollow polyester layer 2 and a alginate fiber layer 4, which are sequentially arranged from inside to outside; the pure cotton layer 3 is compounded between the first hollow polyester layer 1 and the second hollow polyester layer 2 in a needling mode, and the alginate fiber layer 4 is compounded with the second hollow polyester layer 2 in a needling mode.

The first hollow polyester layer 1 and the second hollow polyester layer 2 are hollow polyester fiber fabrics (hollow is chemical fiber with a thin tubular cavity in the axial direction, hollow polyester fiber is polyester fiber with a tubular cavity in the axial direction of the through fiber), the pure cotton layer 3 is pure cotton fabrics, the pure cotton layer 3 is compounded between the first hollow polyester layer 1 and the second hollow polyester layer 2 in a needling mode, the body surface temperature and the excellent stiffness performance of a human body are maintained by utilizing the heat retention property of the polyester fabrics, meanwhile, moisture on the body surface is led out by utilizing the air permeability of the hollow structure and the pure cotton, the composite fabrics have good air permeability while having the heat retention property, and the stiffness of the composite fabrics is kept. The alginate fiber has good antibacterial performance, the antibacterial property of the composite fabric is increased by arranging the alginate fiber layer 4, and the problem that the existing polyester mixed fabric is lack of moisture permeability and antibacterial property is solved.

In the prior art, when printing is carried out on a polyester-cotton mixed fabric, the printing technology still takes chemical dye as a main material, and the chemical printing and dyeing easily causes environmental pollution and influences environmental protection. In this embodiment, preferably, the surface of the alginate fiber layer 4 (i.e. the other surface of the alginate fiber layer 4) is provided with a burnt-out pattern 5 which is made by carrying out a burnt-out treatment with water, so that the composite fabric with a burnt-out effect can be obtained, and the burnt-out pattern increases the aesthetic feeling and the decorative property of the composite fabric. Wherein the temperature range of the used water is greater than the lower limit temperature (such as 80 ℃) and less than the upper limit temperature (namely the smaller value of the maximum temperature resistance value of the hollow polyester fiber fabric and the maximum temperature resistance value of the pure cotton fabric), and the preset temperature of the water during rotten flowers is preferably 100 ℃. Through the burnt-out treatment, the burnt-out effect can be achieved, chemical reagent pollution can be avoided, the processing cost is reduced, the environment is benefited, the usable range of the composite fabric is wider (close fitting can be achieved), and the composite fabric can be made into underwear, shirts and the like. It should be understood that the burnt-out pattern 5 shown in the drawings is only an example, and the pattern can be designed according to the requirement in the specific implementation.

In this embodiment, the first hollow polyester layer 1 and the second hollow polyester layer 2 are knitted by using 100% hollow polyester fiber yarn, and specifically are 100% (i.e., 100% polyester fiber) plain woven fabrics woven by dyeing 70S hollow polyester fiber yarn.

The needle density of the needle machine refers to the needle distribution density of the needle plate, and the needle distribution density is higher when the needle frequency is the same. Different processes have different requirements on the cloth needle density of the needle machine, the reasonable needle density can improve the elongation and the tearing, and for three fabrics, namely a pure cotton layer, a hollow polyester layer and a alginate fiber layer, the optimal needle density in the needle-punching compounding process of the embodiment is 12 needles with the square centimeter.

The production process of the alginate fiber needle-punched composite burnt-out fabric comprises the following steps:

firstly, a pure cotton layer 3 is clamped between a first hollow polyester layer 1 and a second hollow polyester layer 2, one surface of the pure cotton layer 3 is in needling composite with one surface of the first hollow polyester layer 1, and the other surface of the pure cotton layer 3 is in needling composite with one surface of the second hollow polyester layer 2, so that the three-layer sandwich composite fabric is obtained.

And then, one surface of the alginate fiber layer 4 is subjected to needling compounding with the other surface of the second hollow polyester layer 2, the other surface of the first hollow polyester layer 1 is exposed and serves as the reverse surface of the alginate fiber needling composite burnt-out fabric, and the other surface of the alginate fiber layer 4 is exposed and serves as the front surface of the alginate fiber needling composite burnt-out fabric.

And finally, carrying out burn-out treatment, namely placing a pattern mould on the other side of the alginate fiber layer 4, injecting 100 ℃ boiled water into the mould, dissolving the alginate fibers at the pattern position, removing the residue of the burn-out part, and exposing the second hollow polyester layer 2 to form an obvious gravure pattern. And drying the composite fabric at 60 ℃ to obtain the alginate fiber needle-punched composite burnt-out fabric. It should be understood that the alginate fiber has the characteristic of high-temperature dissolution (above 80 ℃), and after the alginate fiber needle-punched composite burnt-out fabric is made into clothes, the water temperature for washing the clothes cannot be higher than 80 ℃, so that the alginate fiber layer 4 cannot be dissolved, and the burnt-out pattern cannot be damaged. Meanwhile, compared with the existing printing mode adopting chemical reagents, the mode of burning out with 100 ℃ boiled water is more environment-friendly and saves cost

To sum up, the alginate fiber needle-punched composite burnt-out fabric provided by the utility model has the advantages that the pure cotton layer is needle-punched and compounded between the first hollow polyester layer and the second hollow polyester layer, and the air permeability of the hollow structure and the pure cotton is combined while the stiffness and the heat retention of the polyester fiber are utilized, so that the wet device on the body surface of a human body can be favorably discharged outside the human body, and the moisture conductivity of the fabric is improved; the alginate fiber layer has good antibacterial performance, and simultaneously has water solubility, can carry out burnt-out treatment by using water to obtain a burnt-out pattern, avoids chemical reagent pollution compared with printing, and is more environment-friendly and lower in processing cost.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (6)

1. A alginate fiber needle-punched composite burnt-out fabric is characterized by comprising a first hollow polyester layer, a pure cotton layer, a second hollow polyester layer and an alginate fiber layer which are sequentially arranged from inside to outside; the pure cotton layer is compounded between the first hollow polyester layer and the second hollow polyester layer in a needling mode, and the alginate fiber layer is compounded with the second hollow polyester layer in a needling mode.

2. The alginate fiber needle-punched composite burnt-out fabric as claimed in claim 1, wherein the surface of the alginate fiber layer is provided with a burnt-out pattern which is made by burnt-out treatment with water at a preset temperature.

3. The alginate fiber needle-punched composite burnt-out fabric as claimed in claim 2, wherein the first hollow polyester layer and the second hollow polyester layer are hollow polyester fiber fabrics knitted by 100% hollow polyester fiber yarns.

4. The alginate fiber needle-punched composite burnt-out fabric as claimed in claim 1, wherein the needle-punched composite has a needle punching density of 1 cm square and 12 needles.

5. The alginate fiber needle-punched composite burnt-out fabric as claimed in claim 2, wherein the first hollow polyester fiber layer and the second hollow polyester fiber layer are plain weave fabrics woven by dyeing 70S hollow polyester fiber yarns.

6. The alginate fiber needle-punched composite burnt-out fabric as claimed in claim 2, wherein the pure cotton layer is a pure cotton fabric.

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