CN111411437A - High-tensile handkerchief textile structure - Google Patents

Abstract

The invention belongs to the technical field of weaving structures, and discloses a high-tensile-resistance handkerchief weaving structure which comprises warps and wefts, wherein the warps and the wefts are mutually crossed and woven, a plurality of warps and a plurality of wefts are arranged to form a radial structure and a weft structure respectively, the warps comprise first warps and second warps, the first warps are wound and woven on the second warps, and the first warps, the second warps and the wefts are mutually compressed; the first warp yarn is formed by weaving a first textile yarn and a second textile yarn, the first textile yarn and the second textile yarn are wound in a crossed mode, and at least one of the first textile yarn and the second textile yarn is cotton textile yarn; in summary, in the invention, a weaving structure with mutually matched warp and weft is provided, and specifically, the warp comprises the first warp and the second warp to be matched with the weft to form three-line mutual crossing and pressing, so that the stability and the tensile strength of the whole weaving structure are effectively ensured.

Description

High-tensile handkerchief textile structure

Technical Field

The invention belongs to the technical field of weaving structures, and particularly relates to a high-tensile handkerchief textile structure.

Background

Handkerchiefs are mostly made of textile fabric, in which textile structures inevitably exist. In actual use, the handkerchief is often used for wiping the body, for example, wiping sweat during exercise, and for example, wiping hands or faces after being wetted, and thus the handkerchief needs to maintain good water absorption;

further, since the handkerchief is frequently used, it is necessary to perform washing several times, and the handkerchief is required to be wrung several times during washing, so that the requirement for tensile property of the handkerchief is high.

Therefore, it is necessary to provide a tissue textile structure having high tensile strength and good water absorbency.

Disclosure of Invention

In view of the above, the present invention aims to provide a high tensile strength tissue textile structure to meet the requirements of tissue for absorbing water and resisting tensile strength in use.

In order to achieve the purpose, the invention provides the following technical scheme: a high-tensile-resistance handkerchief textile structure comprises warps and wefts, wherein the warps and the wefts are mutually crossed and woven, a plurality of warps and a plurality of wefts are arranged to form a radial structure and a weft structure respectively, the warps comprise first warps and second warps, the first warps are wound and woven on the second warps, and the first warps, the second warps and the wefts are mutually compressed;

radial structure of the textile structure: each warp-wise first warp thread comprises a plurality of lantern rings which are connected in sequence, the lantern rings are distributed along the warp direction, the second warp thread penetrates through the lantern rings, and the connecting parts of the warp-wise lantern rings are distributed on two sides of the second warp thread at intervals;

weft structure of textile structure: two adjacent of latitudinal direction be formed with the bleeder vent between the first warp, and the bleeder vent is located between two adjacent lantern ring connection positions of latitudinal direction, weft runs through the bleeder vent, and two adjacent lantern ring connection positions of latitudinal direction are located the both sides of weft respectively.

Preferably, the first warp yarn is formed by weaving a first textile yarn and a second textile yarn, the first textile yarn and the second textile yarn are crossly wound, and the crossly wound part forms a loop connecting part.

Preferably, at least one of the first textile thread and the second textile thread is a cotton textile thread.

Preferably, when the first textile thread and the second textile thread are crossly wound, the first textile thread and the second textile thread are crossed at least twice to form a convex antiskid part.

Preferably, when the weft penetrates through the air holes, air permeable gaps are formed on two sides of the weft.

Preferably, every the both sides at the alternately winding position of first warp all indent and form two left and right recesses, and two adjacent left and right recesses combination form the bleeder vent in latitudinal direction.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the invention, a weaving structure with mutually matched warps and wefts is provided, and the warps comprise the first warps and the second warps to be matched with the wefts to form three-line mutual crossing and pressing, so that the stability and the tensile strength of the whole weaving structure are effectively ensured.

(2) The first warp yarns are formed by the first textile yarns and the second textile yarns in a crossed weaving mode, and the cross parts of the first textile yarns and the second textile yarns are mutually wound to form the anti-slip parts, so that the anti-slip property of the formed handkerchief is effectively improved, and the handkerchief is prevented from easily falling off when the handkerchief is used.

(3) Grooves are formed at the crossed positions of the first textile yarns and the second textile yarns, the adjacent grooves are matched to form air holes, and air permeable gaps are reserved when the weft yarns penetrate through the air holes, so that the air permeability of the formed handkerchief is effectively ensured; in addition, at least one of the first textile thread and the second textile thread is made of cotton threads, so that the first textile thread and the second textile thread have good water absorption, and the air permeable gaps provide effective buffer space for water absorption expansion of the cotton threads.

Drawings

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

FIG. 2 is a schematic view of the second warp and weft in the present invention;

FIG. 3 is a schematic structural view of a first warp yarn in the present invention;

FIG. 4 is a schematic view of the first warp and weft threads of the present invention;

FIG. 5 is a schematic view of the structure of the anti-slip part of the present invention;

in the figure: 1-first warp, 11-first textile yarn, 12-second textile yarn, 2-second warp, 3-weft, 4-antiskid part, 5-groove, 6-air hole and 61-air gap.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a high-tensile handkerchief textile structure, which is shown in a specific structural form in figures 1-5:

the textile structure comprises warps and wefts 3 which are interwoven, the warps and the wefts 3 are provided with a plurality of threads, and a radial structure and a weft structure are respectively formed, the warps comprise first warps 1 and second warps 2, the first warps 1 are wound and woven on the second warps 2, and the first warps 1, the second warps 2 and the wefts 3 are mutually compressed;

radial structure of the textile structure: each warp-wise first warp 1 comprises a plurality of lantern rings which are connected in sequence, the lantern rings are distributed along the warp direction, the second warp 2 penetrates through the lantern rings, and the connecting parts of the warp-wise lantern rings are distributed on two sides of the second warp 2 at intervals;

weft structure of textile structure: air holes 6 are formed between every two adjacent first warp yarns 1 in the weft direction, the air holes 6 are located between every two adjacent lantern ring connecting portions in the weft direction, the weft yarns 3 penetrate through the air holes 6, and the two adjacent lantern ring connecting portions in the weft direction are located on two sides of the weft yarns 3 respectively.

In this embodiment, the knitting manner of the above structure is specifically described with reference to fig. 1:

if four warps are provided, a/b/c/d, wherein each first warp 1 comprises a first textile thread 11 and a second textile thread 12.

The method comprises the following steps: one ends of the four warps are fixed on the same horizontal straight line, and a first textile thread 11 and a second textile thread 12 are arranged on two sides of each second warp 2.

Step two: the a/c two second warps 2 are pressed down and the b/d two second warps 2 are lifted up, so that the four second warps 2 form a staggered state.

Step three: the two first warps 1 of a/c are lifted, and the two first warps 1 of b/d are pressed down, so that the four first warps 1 form a staggered state.

Step four: the first weft thread 3 is clipped into the warp thread in the staggered state.

Step five: the first and second textile threads 11 and 12 in the first warp thread 1 are crossly wound, and the crossly wound part is covered on the first weft thread 3, so that the first weft thread 3 is compacted.

Specifically, in this step, the number of times of cross winding is at least two, and even if the state after the cross winding is performed twice is shown in fig. 5, two sides of the cross winding portion formed after the cross winding are both recessed to form two left and right grooves 5;

when the cross winding part is covered on the first weft 3, the cross winding part is protruded on the surface of the weft 3, so that a protruded anti-skid part 4 is formed, and the anti-skid property of the whole weaving structure is effectively improved; in addition, at this time, the grooves 5 on the right side of the first warp 1(a) correspond to the grooves 5 on the left side of the first warp 1(b), whereby the airing holes 6 are formed based on the cooperation of the two grooves 5, and the weft 3 just penetrates the airing holes 6.

Referring to fig. 4, a certain gap, i.e., a ventilation gap 61, is left in the ventilation hole 6 at both sides of the weft 3, in order to ensure good ventilation of the whole woven structure.

Step six: lifting a/c two second warps 2 and pressing b/d two second warps 2, so that the four second warps 2 form a staggered state; pressing the a/c two first warps 1 and lifting the b/d two first warps 1, so that the four first warps 1 form a staggered state; then, repeating the fourth step to the fifth step to finish the weaving of a second weft yarn 3;

step seven: repeating the second step to the fifth step to finish the weaving of the third weft yarn 3;

step eight: and sequentially repeating the sixth step to the seventh step until the weaving of the integral weaving structure is completed.

As can be seen from the above embodiments, the structure finally formed is that the weft threads 3 are always compressed between the first warp threads 1 and the second warp threads 2; as another possible embodiment, it is also possible to form that the first warp 1 is also compressed between the weft 3 and the second warp 2, and in this embodiment, the specific weaving principle is the same as the above disclosed principle, except for the placement position of the weft 3.

To sum up, for the first warp 1 in the integral weaving structure, at least one of the first textile thread 11 and the second textile thread 12 is a cotton textile thread, and the specific cotton textile thread (called cotton thread for short) has good water absorption, and can effectively meet the water absorption requirement of the formed handkerchief. In addition, when water is absorbed, the cotton threads expand to a certain degree, and the air permeable gaps 61 can provide effective expansion buffer space for the cotton threads.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a handkerchief textile structure of high tensile nature, textile structure includes warp and weft (3) that intercrossing woven, and warp and weft (3) all are equipped with many, constitute radial structure and latitudinal direction structure, its characterized in that respectively: the warp comprises a first warp (1) and a second warp (2), the first warp (1) is wound on the second warp (2), and the first warp (1), the second warp (2) and the weft (3) are mutually compressed;

radial structure of the textile structure: each warp-wise first warp (1) comprises a plurality of lantern rings which are connected in sequence, the lantern rings are distributed along the warp direction, the second warp (2) penetrates through the lantern rings, and the connecting parts of the warp-wise lantern rings are distributed on two sides of the second warp (2) at intervals;

weft structure of textile structure: two adjacent of latitudinal direction be formed with bleeder vent (6) between first warp (1), and bleeder vent (6) are located between two adjacent lantern ring connection positions of latitudinal direction, bleeder vent (6) are run through in weft (3), and two adjacent lantern ring connection positions of latitudinal direction are located the both sides of weft (3) respectively.

2. A high tensile handkerchief textile structure as in claim 1 wherein: the first warp (1) is formed by weaving a first textile thread (11) and a second textile thread (12), the first textile thread (11) and the second textile thread (12) are wound in a crossed mode, and the crossed and wound positions form lantern ring connecting positions.

3. A high tensile handkerchief textile structure as in claim 2 wherein: at least one of the first textile thread (11) and the second textile thread (12) is cotton textile thread.

4. A high tensile handkerchief textile structure as in claim 1 or 2 wherein: when the first textile thread (11) and the second textile thread (12) are crossed and wound, at least twice crossing is carried out to form a convex antiskid part (4).

5. A high tensile handkerchief textile structure as in claim 3 wherein: when the weft (3) penetrates through the air holes (6), air gaps (61) are formed on two sides of the weft (3).

6. A high tensile handkerchief textile structure as in claim 5 wherein: every both sides at the alternately winding position of first warp (1) are all inwards sunken to be formed with two left and right recesses (5), and two adjacent left and right recesses (5) combination formation bleeder vent (6) in the latitude.

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