KR101985716B1 - A towel improved leno textile and manufacturing method thereof - Google Patents

Abstract

A towel manufacturing method according to the present invention, when manufacturing a number of towels in one weaving machine including a reinforcing part spaced apart from each other at regular intervals in a weft direction at the same time weaving a main warp yarn and a leno yarn, prevents ladder in the weft direction. No additional sewing or other anti-ladder process is needed, and at the same time, the weft yarn left over after cutting is formed into fleece, so that the production speed and quality of the product can be increased while lowering the cost of the product.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a towel,

The present invention relates to a towel reinforced with a Leno structure and a method of manufacturing the towel. More particularly, the present invention relates to a towel which is separated from each other at regular intervals in a weft direction and is warp- The present invention relates to a towel and a method for manufacturing the towel.

Generally, fabrics are manufactured by knitting warp and weft in a weaving machine. The loom for manufacturing the loom is divided into a shuttle loom using a shuttle and a shuttle loom using no shuttle depending on a method of supplying the weft yarn.

The shuttle is a sort of drum for picking up and transporting weft yarns between opening portions of warp yarns. As the loom that does not use the shuttle, there are a looper knitting machine using a gripper instead of a shuttle and a water jet loom using water.

The fabric woven by the shuttle loom has a smooth appearance because the weft does not come out from the selvage at both ends of the fabric, and there is an advantage that the selvage treatment is not required in the sewing process, but the fabric is expensive. On the other hand, fabrics woven with water jet looms have advantages of low cost, but they have a problem that the weft is discharged from the selvage at both ends of the fabric and the appearance is poor and the selvage treatment is required in the sewing process.

On the other hand, in general, a towel is used to remove foreign matters such as water and sweat of a user, and friction is inevitably generated when using it. In addition to such friction, the towel may be curled, curled, And the width is difficult to be adjusted. In order to prevent the above-mentioned phenomenon, it is necessary to separately finish the side surfaces such as finishing or side molding, or to perform the finishing treatment There is a problem that the manufacturing process becomes complicated.

Korean Patent No. 10-1455257 (October 21, 2014)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a towing machine in which when a plurality of towels are produced in a single weaving machine, The present invention relates to a towel and a manufacturing method which can prevent mass production and reduce the cost of a product.

The present invention relates to a towel reinforced with a Leno structure and a method of manufacturing the towel.

One aspect of the present invention is a method of making a towel by weaving weft yarns, pile yarns, main warp yarns and leno yarns,

a) selecting a weft, a file yarn, a main warp, and a leno warp;

b) correcting the tilt so as to correct the tilt by driving the tennis game, wherein the tilt regulation is repeated twice or more in the weft direction;

c) determining the texture of the fabric, and then weaving and wefting the weft and pile yarn on the weaving machine;

d) cutting and sewing the fabric; And

e) dyeing said fabric

Wherein the leno structure is reinforced by the leno structure.

[rule]

B-A-B-C

(In the above rule, A is the part where the main inclination is arranged, B is the part where the main inclination and the Leno inclination are arranged at the same time, and C is the part where the main inclination and the Leno inclination are not all arranged).

In the present invention, the sewing is performed by forming a sewing line at a predetermined distance in the oblique direction from the end of the warp yarn, and cutting the warp yarn in the portion where the main warp and the leno warp are not arranged in the fabric, .

In the present invention, any one or plural selected from the weft yarn, the filament yarn, the main yarn, and the Leno yarn may include any one or a plurality of fibers selected from natural fibers, synthetic fibers, and regenerated fibers.

Another aspect of the present invention is a towel manufactured by weaving a weft, a filament yarn, a main warp and a Lenovo warp, wherein the towels are spaced from each other at regular intervals in the weft direction and have a reinforcing portion in which main warp yarns and leno warp yarns are simultaneously woven, And a warp formed at an end of the weft direction, wherein the reinforcing portion has a warp density of 100 b / in or more.

In the present invention, the towel satisfies the following formula (1).

[Formula 1]

In the formula 1, l ₁ is the weft length of the main texture, l ₂ is the weft length of the reinforcement part, and the main texture and the reinforcement part are adjacent to the Leno texture centered on one Leno texture.

In the present invention, the towel is formed with a sewing line at a position spaced a certain distance in an oblique direction from an end of a tilt.

The towel according to the present invention includes a reinforcing portion spaced apart from each other at regular intervals in the weft direction so that the main warp yarns and the leno warp yarns are simultaneously woven to produce a number of towels in one weaving machine, And other artifact prevention processes are not required. At the same time, the remaining weft yarns are naturally formed into a fleece to increase the production speed and quality of the product, and reduce the cost of the product.

FIG. 1 is a photograph of a towel manufactured according to the present invention. FIG.
2 is a conceptual view showing an example of a towel reinforced with a Leno structure according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating a leno organization according to an embodiment of the present invention.

Hereinafter, a towel reinforced with a Leno structure according to the present invention and a method of manufacturing the same will be described in detail with reference to specific examples. The following specific embodiments are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention.

Therefore, the present invention is not limited to the embodiments shown below, but may be embodied in other forms. The embodiments shown below are only for clarifying the spirit of the present invention, and the present invention is not limited thereto.

Here, unless otherwise defined, technical terms and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. In the following description, the gist of the present invention is unnecessarily blurred And a description of the known function and configuration will be omitted.

Also, the singular forms as used in the specification and the appended claims are intended to include the plural forms as well, unless the context clearly indicates otherwise.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected to or connected to the other component, It should be understood that an element may be "connected," "coupled," or "connected."

In the present invention, the 'warp yarn' is a yarn arranged parallel to the longitudinal direction of the fabric, and defines a direction parallel to the warp in an oblique direction.

In the present invention, the 'weft yarn' is a yarn intersecting the inclination at right angles to the inclination, and defines a direction parallel to the weft in a weft direction.

The inventor of the present invention has been studying to develop a method of producing a towel more efficiently in order to improve the quality and lowering the cost of the product while applying a new process for preventing the occurrence of the edges in addition to sewing, The main tissue including pile yarn, the reinforcing portion including the leno structure, and the cut portion which is not supplied with the warp, by cutting the cut portion to prevent occurrence of the cut, The weft is naturally formed into a fleece to confirm the method of increasing the production speed and quality of the product, and thus the present invention has been completed.

A towel including a warp of Lenovo according to the present invention is a fabric having a reinforcing portion formed at the edge portion. More specifically, the weft yarn, the pile yarn and the main warp yarn are weaved, the weft yarn is warp- And a cutting portion in which the weft and the warp are not supplied and the weft cut in the cutting process forms a fleece.

The present invention relates to a method of manufacturing a towel by weaving a weft yarn, a filament yarn, a main warp yarn and a Leno yarn,

a) selecting a weft, a file yarn, a main warp, and a leno warp;

b) correcting the tilt so as to correct the tilt by driving the tennis game, wherein the tilt regulation is repeated twice or more in the weft direction;

c) determining the texture of the fabric, and then weaving and wefting the weft and pile yarn on the weaving machine;

d) cutting and sewing the fabric; And

e) dyeing said fabric

And a control unit.

In the present invention, the step a) determines the material, fineness, and other processing conditions of each fiber constituting the towel according to weft, filament yarn, main warp and Leno warp.

The weft yarn, filament yarn, main warp yarn and warp yarn are not limited to the types of fibers. For example, it may include natural fibers such as cotton fiber, hemp fiber, and parent fiber, synthetic fibers such as polyester, polyamide, polystyrene, polyacryl, and regenerated fibers such as rayon. Preferably, .

In the present invention, the weft yarn, the filament yarn, the main warp yarn, and the Leno yarn yarn are not limited to the fineness. For example, the fineness of the fibers may be in the range of 10 to 500 denier, and when the range is satisfied, a soft feeling may be developed, and smooth weaving can be performed without deteriorating the cut rate.

In the present invention, the weft yarn, the filament yarn, the main warp yarn, and the Leno yarn warp yarn may be composed of a plurality of fibers having different materials as needed, or they may be covered with filaments to reinforce the properties of the natural fibers.

The above-mentioned folding process refers to a process of making two yarns, three yarns, etc. by combining two or more yarns originally, but usually refers to a process of moving yarn to a bobbin so that the yarn can be twisted prior to the twisting process.

In addition, the twisting process is a process for imparting a twist to a yarn to improve the rigidity and connectivity of the yarn to improve workability in the weaving process, and to impart a round appearance and elasticity to the yarn to provide a special appearance, texture, and texture . However, since the twisting process is performed by applying a force in a predetermined direction to the yarn, it is desirable to further perform the heat fixing process after the twisting process.

Here, the weft yarn, the filament yarn, the main warp, and the warp yarn may further be subjected to a sizing process for feeding the yarn to the yarn for the purpose of improving the weft. The above-mentioned step of imparting strength to the yarn in order to withstand a strong tension and friction during weaving. In this case, the sizing agent used in the step of curing includes a polymer having excellent film forming ability such as starch and polyvinyl alcohol, It is preferable to use a composition as described in, for example, Korean Patent Publication No. 10-1988-0000503.

In addition, the weft yarn, filament yarn, main warp yarn and leno yarn warp may be subjected to a surface treatment in order to enhance the bonding property between each fiber, prevent slippage, and improve dyeability before the above-mentioned kneading process or weaving.

In the present invention, examples of the surface treatment method of the fiber include electron beam irradiation, plasma treatment, weight reduction using an acidic solution or an alkali solution, polymer coating or grafting, and the like. Surface treatment is most preferable.

In the present invention, the electron beam irradiation is a method of raising the roughness of the surface by cutting the main chain or the branch or forming a new bond by inducing the chemical deformation of the nucleus and the molecular structure constituting the fiber by colliding electrons having almost uniform velocity with the surface of the fiber .

Since the electron beam irradiation is a dry process unlike a wet process using existing organic materials, it is possible to uniformly irradiate the electron beam at a high speed without requiring drying, thereby reducing the cost and being eco-friendly because no noxious gas is emitted. Further, since the internal structure of the fiber is not destroyed, there is an advantage that the deterioration of mechanical properties is not large.

In the present invention, the absorbed dose during the electron beam irradiation is preferably 1 to 100 kGy, more preferably 20 to 50 kGy. If it is less than the above range, unevenness is not properly formed on the surface of the fiber, and if it exceeds the above range, the mechanical strength of the fiber may be greatly lowered.

In the present invention, the plasma is produced by separating particles into a strong electric field or a high temperature and separating them into electrons, neutral particles, ions, etc., and etching the particles by physically colliding them with the surface of the fibers to remove portions having relatively low strength etching process.

The plasma treatment induces a chemical reaction similar to the electron beam to form a functional group on the surface to change the surface activity, thereby greatly changing the adhesion and removability of the material. Further, since the plasma can exhibit various surface characteristics depending on the kind of particles used, it has an advantage that various particles can be used depending on the purpose of introduction.

In the present invention, the plasma treatment is preferably performed in one or two or more gas atmosphere selected from oxygen, hydrogen, nitrogen, argon and neon, and the number of ions per unit area is in the range of 1 × 10 ¹⁰ / cm 2 to 1 × 10 ¹⁵ / Cm < 2 >. The ion source preferably has an ion energy of 0.1 to 2 keV. It is preferable that the surface structure of the fiber is easily controlled within the above range and the energy consumption can be reduced.

After the selection process including the pretreatment of the fibers used for the warp or weft yarns is performed as described above, the warp yarns are warped by driving the warp yarn as described above.

In the present invention, the warping process is performed by arranging warp yarns in accordance with the warp density, arrangement, width, etc. of the designed fabric and winding the yarn on the weaving yarn by a design length, so that the tension applied to the warp yarns should be constant.

According to the present invention, in the regularization process, the main texture, which is fed only the main tilts according to the inclination density of the towel structure, the reinforcing portion where the main tilts and the leno tilts cross each other, and the cut portions where both the main tilts and the leno tilts are not supplied It is preferable to proceed the regularizing process.

Wherein when the main warp and the leno warp are wound on the weaving beam, the warp is warped in the weft direction in the order of the following arrangement rule.

[rule]

B-A-B-C

(In the above rule, A is the part where the main inclination is arranged, B is the part where the main inclination and the Leno inclination are arranged at the same time, and C is the part where the main inclination and the Leno inclination are not all arranged).

That is, the method of manufacturing a towel according to the present invention is characterized in that the canning process is performed such that the main body 10, the reinforcing portion 20, and the cut portion 30 are repeatedly formed as shown in FIG. 2, The reinforcing portion 20 and the reinforcing portion 20 are formed in the order of the reinforcing portion 20 and the reinforcing portion 20, So that the arrangement is repeated. That is, the reinforcing portion 20 of the Leno structure is located on both sides of the main body 10 on the basis of the weft direction, and the cut portion 30 is located at one side of the reinforcement portion, The finished fabric is divided into a plurality of towels, and the chopped strands can be left as moss without removing them.

This is because the Leno structure forming the reinforcement part is arranged in front of and behind the main body so as to be formed at the edge of the fabric to prevent the appearance of the main tissue and the cut part is arranged next to the reinforcement part to cut one fabric, When the towel is manufactured, it is cut so that the tress is formed naturally on the edge of the towel.

In the present invention, the canning process can determine the width of the main texture, the reinforcing portion and the cut portion according to the supply density of the inclination, and more specifically, it satisfies the following Formula 1.

[Formula 1]

(Where l ₁ is the weft length of the main texture and l ₂ is the weft length of the reinforcement).

3, the reinforcing portion according to the present invention includes two types of warp yarns designated by a main warp yarn 2 and a leno warp yarn 3, respectively, and the main warp yarns 2 are arranged in a straight line like a normal fabric But the leno warp 3 interlocks with the weft while its position is regularly changed to the left and right of the main warp. Therefore, there is a slight gap between the weft and the weft because the warp is twisted at the position where the position changes to the right and left. When the warp passes through the gap and the tension of the main warp and the warp warp is constant after weaving, the stitching becomes more rigid and the morphological stability of the fabric is increased. At this time, as described above, the position of the inclination of each weft yarn is shifted to the left and right, which is called a "mesh fabric" among the Reno fabrics.

In the case of such a Leno fabric, there is an advantage in that the texture point is somewhat cubic due to the twist of the two warp yarns, so that it is not adhered to the skin at the same time with a thick feeling, and the warp yarn density is low. The cotton fabric of the Leno organization is only about 70% in weight compared to a typical summer cotton fabric. Furthermore, since the ventilation holes defined by the weft yarns and the warp yarns are formed relatively clearly (like a rectangular window), the fabrics do not come in close contact with the skin and have excellent air permeability. The fact that the warp yarn density is low and the ventilation hole is formed clearly can be taken as meaning that the woven fabric can be easily pushed. However, in the case of the Reno woven fabric, the warp yarns alternately juxtaposed to the left and right are strongly stuck to the weft yarn, So that it is possible to prevent the occurrence of the fabric.

However, if the cotton fabric is woven with the Leno structure, there are various excellent characteristics as the summer fabric. However, there is a problem that it is not easy to weave the Leno fabric according to the characteristics of the cotton yarn. First, there is a problem of woven fabric which occurs when the yarn is weaved while alternately twisting the yarn using left and right yarns. In particular, when the density of the warp yarn is increased to a certain level or more, serious problems occur in the weaving performance. However, if the density is too low, the drape property may deteriorate, which may lead to a problem of easy sliding.

Therefore, it is preferable to adjust the width of the main structure and the reinforcing portion to a certain degree in addition to adjusting the density of the thread. This can be achieved by adjusting the warp density at the time of regulation, more preferably, by adjusting the width of the portion where only the main warp is regularized and the portion where the main warp and the leno warp are simultaneously warped. Therefore, It is good to adjust the degree. For this purpose, the beam for winding the tilt may be provided in the form of a double beam in which the tilt and the main tilt are wound on different beams.

In the present invention, the reinforcing portion does not limit the shape of the leno structure. As described above, the main warp yarns and the Leno warp yarns may be woven in the form of a plain weave, which is formed by alternately crossing the weft yarns up and down like a general plain weave yarn. However, The leno warp may be made in the form of a fancy gauze that passes through the weft without crossing the weft more than two, and forms the organization points of warp and weft as little as possible. In this case, the number of tissue points formed when the reinforcing portion forms a weaving pattern is not limited to the present invention.

Further, in the present invention, the portion where the main slope and the leno slope are not simultaneously adjusted in the regularizing process, that is, the cut portion is not limited in width. For example, when the weft is cut along the center of the cut portion in the cutting process, each of the cut weft yarns becomes a fleece formed on the edge of each one of the towels. Therefore, depending on the purpose of use and the sales strategy of the product, It is possible to determine a portion where the inclination is not simultaneously corrected.

When the canning process is completed as described above, the preparation process before the weaving can be completed by performing the process of passing the weft in the order of the weft, the body, and the dropper according to the weaving design.

Next, the warp yarn is trimmed to determine the texture of the fabric, and weft yarn and weft yarn are fed on the weaving machine to weave the yarn.

In the weaving process, the weave shape of the portion corresponding to the reinforcing portion at the time of weaving is such that the weft thread is passed through the gap formed by the main warp and the Leno warp so that the Leno structure is formed as described above. Not limited. For example, the main structure may be woven as a flat fabric, a twill fabric, a water-repellent fabric or the like depending on the type of the fabric that interlocks the warp and weft yarns, and may be woven in any form depending on the use place and the physical properties of the fabric.

In the present invention, the weaving machine used for weaving is not limited to the type of loom that can form a leno structure including a plurality of leno sheaths. For example, a weaving machine in which a plurality of leno healds are arranged as described in Korean Patent No. 10-1681984 can be used. However, since the present weaving machine can be formed of various tissues such as plain weave and twill weave in addition to the leno weave, it is preferable that the leno weir is arranged according to the width of the reinforcing part.

In addition, a tension adjusting device may be further provided to adjust the tension of the warp between the beam wound around the warp and the weaving machine, if necessary. In this case, the tension adjusting device includes a support, a shaft vertically coupled to the center of the support, and a washer inserted into and removed from the shaft. When the tilt passes around the shaft, The tension applied to the yarn can be controlled by the weight or the number of the yarns.

In the present invention, it is preferable that the main inclination and the leno inclination have different tensile forces. In particular, in consideration of the expansion and contraction to be exhibited in the weaving process, the main yarn must be given a stronger tension than the Leno warp. That is, tension balancing is required between the warp yarns, which can be solved by adjusting the number or weight of the washer applied to the main warp and the Leno warp. In addition to the adjustment of the washer, it can also be performed by controlling the angle of inclination through the tension adjusting device. For example, by making the passing angle of the main warp smaller than the angle of the leno warp, a stronger tension can be given to the main warp.

 The above-described woven fabric may be manufactured by d) cutting and sewing the fabric, and e) dyeing the fabric.

In the present invention, the cutting is performed by cutting the weft yarn constituting the cut portion 30 of the weft-knitted fabric as shown in FIG. 2 along a cutting line A to form a fleck. It is preferable to cut the center of the weft yarn in an oblique direction, The present invention is not limited thereto.

In addition, sewing is performed to prevent the sewing thread from reaching the end of the slope at the finished fabric, and a sewing line may be formed at a position spaced apart from the end of the slope by a certain distance in an oblique direction.

The dyeing is one of post-processing, and a fiber dyeing method which is generally known in the art can be applied, and the dyeing method may be changed according to the dye to be used. But may further comprise a bleaching process to improve dyeability prior to dyeing, wherein the bleaching process may remove the impurities and oils contained in the fabric by applying the medicament to the fabric, and bleach the fabric.

When the yarn used in the dying process is a cotton yarn, any one selected from direct dyes, sulphide dyes, bat dyes, azo dyes, acid dyes, basic dyes and reactive dyes, which are dyes used for dyeing cellulosic fibers, It can be carried out by using a dyeing method such as a batch dyeing method or a continuous dyeing method using two or more dyes.

In addition to the above-mentioned dyes, a mordant such as alum, aluminum acetate, aluminum chloride, copper acetate, copper sulfate and sodium sulfate may be used in the preparation of the salt solution. Alkyl sulfates, alkyl phosphates, alkyl sulfonates, alkyl polyoxyethylene ether sulfonates, alkyl polyoxyethylene ethersulfates, and the like. The above materials can be freely adjusted depending on the type of dye, the temperature of the salt solution, the dyeing process and the purpose of use, and the present invention is not limited thereto.

The post-treatment may include processes such as a soaping process, a softening process, a bio-treatment, an embroidery printing, and other functional coatings.

In the present invention, the soaping process is for removing dyes, coating liquids, and other process liquids left after dyeing or other coating processes and post-processing. The soaping agent such as PROTEPON RSA or PROTEPON NRC And can proceed by immersing the woven towel. In this case, the soaping agent is preferably added in an amount of 1 to 5 g per 1 liter of water, and the process condition is not limited, but is preferably performed at a temperature of 90 to 110 ° C for 20 minutes to 1 hour.

In the present invention, the softening treatment is for imparting repulsive elasticity, smoothness, bulky and soft touch of the towel, and the softening treatment can be carried out by a method usually performed in the art.

The softening liquid composition may include a softening agent and water, and the softening agent may be any softening agent conventionally used in the art. As the softening agent, for example, CSE-920 available from Chungsan Chemtech is used, but it is not limited thereto, and it is preferable to add 1 to 5% by weight of o.w.f. It is preferable that the above-mentioned softening treatment is carried out at 20 to 60 ° C for 10 to 60 minutes.

In the present invention, the bioprocess is for imparting functions such as anti-atopy, antibacterial, deodorization, and infection prevention by utilizing a diverging function of a human-friendly functional organic material. The bioprocessing may be applied by coating or bonding a biocompatible polymer to a fiber surface .

Examples of the biocompatible polymer include complex compounds such as chitosan, gelatin, collagen, sericin, and other natural gums. Examples of the biocompatible polymer include compounds inducing binding of these polymers to cellulose using a mediator, Followed by coating on the surface of the fiber.

The present invention includes towels made by weaving weft yarns, filament yarns, main warp yarns and leno warp yarns. Wherein the towers are spaced apart from each other at regular intervals in the weft direction and include reinforcing portions in which the main warp yarns and the leno warp yarns are woven simultaneously and mullions formed at the ends in the warp direction and the weft direction, And the warp density is higher than that of the present tissue. More specifically, the warp density of the reinforcing portion is 100 bands / inch or more, more preferably 100 to 200 bands / inch, so that the kneading force between the weft yarns and the warp yarns can be increased while maintaining the warp.

In the present invention, the towel satisfies the following formula (1).

[Formula 1]

(Where l ₁ is the weft length of the main texture and l ₂ is the weft length of the reinforcement).

As described above, Equation 1 defines the weft length of the main texture and the reinforcing portion, and is an optimal range for satisfying the flexibility, wrinkle and feel of the fabric while preventing the occurrence of weft yarns and improving the shape stability. , The warp of the weft caused by the friction due to the low edge stability occurs, or the weft is weakened and the fabric becomes uneven and the feeling is reduced, and the brittle and stretchability can be greatly reduced due to the increase of dense tissue.

In the present invention, the towel includes fur formed at the ends of the warp direction and the warp direction. The fleece imparts a soft feel to the user together with the filament yarn woven together on the surface of the towel in a warp direction (warp direction) that has been cut off and a weft yarn (weft direction) that is left uncut So that the water absorbing property and the diffusing property can be always excellent.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the embodiments and experiments described above are illustrative in all aspects and not restrictive.

A: Cutting line
1: Weft
2: Main slope
3: Sergeant Leno
10: Organization
20:
30: Cutting section
40: Bleeding line

Claims (7)

A method of making a towel by weaving a weft, a filament yarn, a main warp, and a Lenovo warp,
a) selecting a weft, a file yarn, a main warp, and a leno warp;
b) correcting the tilt so as to correct the tilt by driving the tennis game, wherein the tilt regulation is repeated twice or more in the weft direction;
c) determining the texture of the fabric, and then weaving and wefting the weft and pile yarn on the weaving machine;
d) cutting and sewing the fabric; And
e) dyeing said fabric
Wherein the leno structure is reinforced by the leno structure.
[rule]
BABC
(In the above rule, A is the part where the main inclination is arranged, B is the part where the main inclination and the Leno inclination are arranged at the same time, and C is the part where the main inclination and the Leno inclination are not all arranged).
The method according to claim 1,
Wherein the sewing is performed by forming a sewing line at a predetermined distance in an oblique direction from the end of the inclination.
The method according to claim 1,
Wherein the cutting is performed by cutting the weft in a portion where the main warp and the leno warp are not arranged in the fabric in an oblique direction.
The method according to claim 1,
Wherein one or more selected from the weft yarn, the filament yarn, the main warp yarn and the Leno yarn yarn includes one or more fibers selected from natural fibers, synthetic fibers and regenerated fibers, Gt;
A towel manufactured by weaving weft yarn, filament yarn, main warp and leno warp, wherein the towels are spaced from each other at regular intervals in the weft direction and are reinforced at the same time by weft yarns and warp yarns, Wherein the reinforcing portion has a warp density of at least 100 yarns / in.
6. The method of claim 5,
Wherein the towel satisfies the following formula (1).
[Formula 1]

(In the above formula 1, l ₁ is the weft length of the main texture formed by weaving main warp and weft, and l ₂ is the weft length of the reinforcement.)
The method according to claim 6,
Wherein the towel is formed with a sewing line at a predetermined distance in an oblique direction at an end of the inclination.

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