CN116555962A - Ribbon with automatic recovery function after folding and production process thereof - Google Patents

Abstract

The invention relates to the technical field of braid production processes, and discloses a braid with an automatic recovery function after folding and a production process thereof. According to the invention, the concave strip part and the main body part adopt different weaving methods, the concave strip part is thinner by using the fine warp yarns, the common warp yarns and the common weft yarns and adopting yarns of different types, the concave strip part is formed to divide the braid into parts with different widths, the braid is easier to fold along the concave strip part due to the narrower part, and the braid can rebound rapidly when no external force is extruded; the wide part of meshbelt can ensure the atress condition of meshbelt when wearing, does not influence the travelling comfort, has improved the travelling comfort of meshbelt when wearing, and the meshbelt of being convenient for loses external force influence and kick-backs rapidly after folding in narrower part, need not to smooth the meshbelt through the manual, makes the meshbelt have better ventilative, perspiration, rapid-curing cutback effect through concave strip part.

Description

Ribbon with automatic recovery function after folding and production process thereof

Technical Field

The invention relates to the technical field of braid production processes, in particular to a braid with an automatic recovery function after folding and a production process thereof.

Background

The trousers head band is usually a web-shaped fabric woven by two or more layers of warp yarns and weft yarns, and has a certain thickness, and the woven belt body (comprising a wide jacquard woven belt, only a plane or concave-convex pattern is formed on the part of the woven belt, and the structure of the woven belt body is not changed) is a plane structure, so that the trousers head band can be woven by adopting a more uniform weaving method. When wearing underpants with wide webbing (such as width greater than 30 mm), fat people or large belly fat people can fold and turn the webbing easily when sitting down, and the webbing is not easy to recover when standing up, so that uncomfortable feeling is caused, the improvement scheme of the conventional underpants is generally to use thicker yarn raw materials, and the whole body of the underpants is thickened so as to improve folding rebound resilience of the wide underpants.

The prior art has the following disadvantages:

the first point is that the wide headband is tightly attached to the body when standing, however, the wide headband is extruded by the belly from the body when sitting down, the wide headband can be folded downwards and turned over, the folded and turned over part is possibly capable of automatically recovering when the width of the folded wide headband is small, however, when the width of the folded wide headband is large, the wide headband is difficult to automatically recover to an initial state, at the moment, the wide headband needs to be manually smoothed, and discomfort can be caused in some public places;

the second point is that thicker yarn raw materials which are generally used in the market are thickened to increase the stiffness and the folding resistance of the belt body, but the belt body is difficult to recover after being folded, the thick belt body affects the comfort, and the production cost is also increased;

the third point is that stiff and hard yarns can be adopted in the market, the bending resistance and folding recovery capability of the belt body are enhanced, but the recovery capability is poor due to the limitation of the materials of the yarns, and the comfort of the wearer is reduced by the hard belt body;

fourth, the fabric is generally compact and thick, and particularly has poor air permeability and perspiration and a stuffy feel when the fabric is used for sports.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects in the prior art, the invention provides the braid with the automatic recovery function after folding and the production process thereof, which can effectively solve the problems in the prior art.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention discloses a braid with an automatic recovery function after folding and a production process thereof, comprising two groups of main body parts, wherein the outer walls of the two ends of the main body parts are distributed with a plurality of groups of elastic warp yarns, and concave strip parts are distributed among the elastic warp yarns;

the main body part comprises eight common warp yarns, and the eight common warp yarns are uniformly divided into two groups which are distributed in an up-down staggered way;

the concave strip part comprises eight fine warp yarns;

the common warp yarns and the outer part of the concave strip part are distributed with a plurality of groups of common weft yarns.

More further, one end of the main body part is provided with a group of elastic warp yarns on the outer wall, the other end of the main body part is provided with two groups of elastic warp yarns, and the two groups of main body parts and the elastic warp yarns are in mirror symmetry in weaving.

More precisely, the concave strip portion is located between two groups of elastic warp yarns distributed outside the main body portion.

More specifically, the common weft yarns are interwoven perpendicularly with the common warp yarns and the valley portions.

More specifically, the common warp yarn and the common weft yarn of the main body part positioned at the upper layer are orderly and alternately woven by the common warp yarn positioned above three common weft yarns and then the common warp yarn positioned below the next common weft yarn, and the common warp yarn and the common weft yarn of the main body part comprising the lower layer are orderly and alternately woven by the common warp yarn positioned above the next common weft yarn and then the common weft yarn positioned below the three common weft yarns.

More specifically, the elastic warp yarns and the common weft yarns are alternately woven in an orderly manner with the elastic warp yarn positioned above one common weft yarn and the elastic warp yarn positioned below the next common weft yarn.

More further, the fine warp yarns alternate with the normal weft yarns in an order where the fine warp yarn is located above one normal weft yarn and the fine warp yarn is located below the next normal weft yarn.

More further, the fine warp yarns may be denier yarns.

More specifically, the common warp yarn may use 70 denier yarn and the common weft yarn may use 150 denier yarn.

More further, the process flow is as follows:

s1, preparing materials of common warp yarns, common weft yarns, elastic warp yarns and fine warp yarns;

s2, selectively performing yarn dyeing and color changing operation on common warp yarns, common weft yarns and fine warp yarns according to whether color requirements exist or not;

s3, winding the common warp yarns, the common weft yarns and the fine warp yarns on a winding machine respectively, and removing weak links and yarn defects of the common warp yarns, the common weft yarns and the fine warp yarns;

s4, winding the common warp yarns, the common weft yarns, the elastic warp yarns and the fine warp yarns on a warp beam in parallel and uniformly according to a certain length;

s5, enabling common warp yarns, elastic warp yarns and fine warp yarns on a warp beam to pass through healds and reeds according to a drafting chart in sequence, and then releasing a warp stop sheet;

s6, controlling the heald wire to move up and down through a pattern arranging chain or an electronic pattern plate according to a structural schematic diagram of the ribbon loom, interweaving common warp yarns and common weft yarns to form a main body part comprising two layers of face yarns and bottom yarns, and interweaving fine warp yarns and common weft yarns to form a concave strip part;

s7, weaving, dyeing and finishing the main body part, the elastic warp yarns and the concave strip parts to form a woven belt;

s8, testing mechanical properties, washing fastness, color fastness, shrinkage rate and the like of the braid according to requirements, and checking the appearance size and the like of the braid;

s9, packaging and warehousing the qualified braid according to the requirements.

(III) beneficial effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

according to the invention, the concave strip part and the main body part adopt different weaving methods, the concave strip part is thinner by using the fine warp yarns, the common warp yarns and the common weft yarns and adopting yarns of different types, the concave strip part is formed to divide the braid into parts with different widths, the braid is easier to fold along the concave strip part due to the narrower part, and the braid can rebound rapidly when no external force is extruded; the wide part of meshbelt can ensure the atress condition of meshbelt when wearing, does not influence the travelling comfort, has improved the travelling comfort of meshbelt when wearing, and the meshbelt of being convenient for loses external force influence and kick-backs rapidly after folding in narrower part, need not to smooth the meshbelt through the manual, makes the meshbelt have better ventilative, perspiration, rapid-curing cutback effect through concave strip part.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of the organization structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention;

fig. 3 is a cross-sectional view of the present invention.

The reference numerals in the text represent respectively: 1. a main body portion; 2. common warp yarns; 3. a common weft yarn; 4. elastic warp yarns; 5. webbing belt; 6. a concave strip portion.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples

The webbing with the automatic recovery function after folding and the production process thereof in the embodiment are shown in fig. 1-2, and comprise two groups of main body parts 1, wherein a plurality of groups of elastic warp yarns 4 are distributed on the outer walls of the two ends of the main body parts 1, and concave strip parts 6 are distributed among the elastic warp yarns 4;

the main body part 1 comprises eight common warp yarns 2, the eight common warp yarns 2 are uniformly divided into two groups which are distributed in a vertically staggered manner, the common warp yarns 2 and the common weft yarns 3 of the main body part 1 positioned at the upper layer are orderly and alternately woven by the common warp yarns 2 positioned above the three common weft yarns 3 and then the common warp yarns 2 positioned below the next common weft yarns 3, and the main body part 1 comprises the common warp yarns 2 and the common weft yarns 3 of the lower layer are orderly and alternately woven by the common warp yarns 2 positioned above the next common weft yarns 3 and then positioned below the three common weft yarns 3;

the concave strip part 6 comprises eight fine warp yarns;

the common warp yarn 2 and the outside of the concave strip portion 6 are distributed with groups of common weft yarns 3.

As shown in fig. 1-2, a group of elastic warp yarns 4 are distributed on the outer wall of one end of the main body part 1, two groups of elastic warp yarns 4 are distributed on the other end of the main body part 1, the two groups of main body part 1 and the elastic warp yarns 4 are mirror-symmetrical in weaving, the concave strip part 6 is positioned between the two groups of elastic warp yarns 4 distributed outside the main body part 1, the common weft yarns 3 are vertically interwoven with the common warp yarns 2 and the concave strip part 6, the elastic warp yarns 4 and the common weft yarns 3 are orderly and alternately woven with the elastic warp yarns 4 positioned above one common weft yarn 3 and the elastic warp yarns 4 positioned below the next common weft yarn 3, the fine warp yarns and the common weft yarns 3 are orderly and alternately woven with the fine warp yarns positioned above one common weft yarn 3 and the fine warp yarns positioned below the next common weft yarn 3, and the common warp yarns 2, the elastic warp yarns 4 and the fine warp yarns and the common weft yarns 3 follow the schematic structure as shown in fig. 1 in weaving.

As shown in fig. 1-2, the process operation flow is as follows:

s1, preparing materials of a common warp yarn 2, a common weft yarn 3, an elastic warp yarn 4 and a fine warp yarn;

s2, selectively performing yarn dyeing and color changing operation on the common warp yarn 2, the common weft yarn 3 and the fine warp yarn according to whether color needs exist or not;

s3, winding the common warp yarn 2, the common weft yarn 3 and the fine warp yarn on a winding machine respectively, and removing weak links and yarn defects of the common warp yarn 2, the common weft yarn 3 and the fine warp yarn;

s4, winding the common warp yarn 2, the common weft yarn 3, the elastic warp yarn 4 and the fine warp yarn on a warp beam in parallel and uniformly according to a certain length;

s5, enabling the common warp yarn 2, the elastic warp yarn 4 and the fine warp yarn on the warp beam to pass through a heald wire and a reed according to a drawing-in sequence, and then releasing a warp stop sheet;

s6, controlling the heald wire to move up and down through a pattern arranging chain or an electronic pattern plate according to a structural schematic diagram of the ribbon loom, interweaving the common warp yarn 2 and the common weft yarn 3 to form a main body part 1 comprising two layers of face yarn and bottom yarn, and interweaving the fine warp yarn and the common weft yarn 3 to form a concave strip part 6;

s7, weaving and dyeing and finishing the main body part 1, the elastic warp yarns 4 and the concave strip parts 6 to form a woven belt 5;

s8, testing the mechanical property, washing fastness, color fastness, shrinkage rate and the like of the braid 5 according to requirements, and checking the appearance size and the like of the braid 5;

s9, packaging and warehousing the qualified braid 5 according to the requirements.

In summary, when weaving, please refer to fig. 1, wherein the transverse numbers one to thirty indicate warp yarns, the vertical numbers one to eight indicate weft yarns, then the transverse second to nine indicate eight common warp yarns 2, the eight warp yarns are in a group of upper layers according to the second, fourth, sixth and eighth warp yarns, the third, fifth, seventh and ninth are in a group of lower layers, the black frame in fig. 1 indicates that the common warp yarns 2, the elastic warp yarns 4 or the fine warp yarns are located above the common weft yarns 3, the white frame indicates that the common warp yarns 2, the elastic warp yarns 4 or the fine warp yarns are located below the common weft yarns 3, so that after weaving, the main body portion 1 has a double layer structure, and the concave strip portion 6 has a single layer structure, and because the fine warp yarns can use yarns of 40 deniers, the common warp yarns 2 use 70 deniers, the common weft yarns 3 use 150 deniers, wherein the concave strip portion 6 and the main body portion 1 use different weaving methods, and the fine warp yarns 2 and the common weft yarns 3 can use different types, thereby making the concave strip portion thinner, and the concave strip portion 5 can be easily pressed down along the concave strip portion 5, and the concave strip portion 5 can be easily and quickly folded when the concave portion 5 is not easily pressed down along the narrow portion 5; the wide part of the webbing 5 can ensure the stress condition of the webbing 5 when wearing, the comfort is not affected, the integral folding property and rebound resilience of the webbing 5 can be controlled by the quantity of the fine warps contained in the concave strip part 6 according to the requirements of different widths in actual production, the comfort of the webbing when wearing is improved, the webbing 5 can lose the influence of external force after folding, the webbing 5 is convenient to rebound rapidly, the webbing 5 is not required to be flattened by hands, the webbing 5 has better ventilation, perspiration and quick drying effects through the concave strip part 6 contained in the webbing 5, and the attention is paid to that the fine warps, the common warps 2 and the common wefts 3 use yarns with the same specification, the concave strips can be formed similarly, but the fine warps, the common warps 2 and the common wefts 3 adopt yarns with different types so that the formed concave strip parts are thinner.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A braid with automatic recovery function after folding and its production process are characterized in that: the novel fabric comprises two groups of main body parts (1), wherein a plurality of groups of elastic warp yarns (4) are distributed on the outer walls of two ends of the main body parts (1), and concave strip parts (6) are distributed among the elastic warp yarns (4);

the main body part (1) comprises eight common warp yarns (2), and the eight common warp yarns (2) are uniformly divided into two groups and are distributed in an up-down staggered way;

the concave strip part (6) comprises eight fine warp yarns;

the common warp yarns (2) and the concave strip parts (6) are externally distributed with a plurality of groups of common weft yarns (3).

2. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: one end outer wall of the main body part (1) is distributed with a group of elastic warp yarns (4), the other end of the main body part (1) is distributed with two groups of elastic warp yarns (4), and the two groups of main body parts (1) and the elastic warp yarns (4) are mirror symmetry in weaving.

3. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: the concave strip part (6) is positioned between two groups of elastic warp yarns (4) distributed outside the main body part (1).

4. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: the common weft yarn (3) is vertically interwoven with the common warp yarn (2) and the concave strip portion (6).

5. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: the main body part (1) is arranged on the upper layer of common warp yarns (2) and common weft yarns (3) and is orderly and alternately woven above three common weft yarns (3) by the common warp yarns (2) and then below the next common weft yarn (3), and the main body part (1) comprises the lower layer of common warp yarns (2) and common weft yarns (3) and is orderly and alternately woven above the next common weft yarn (3) and then below the three common weft yarns (3) by the common warp yarns (2).

6. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: the elastic warp yarns (4) and the common weft yarns (3) are sequentially and alternately woven by the elastic warp yarns (4) above one common weft yarn (3) and the elastic warp yarns (4) below the next common weft yarn (3).

7. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: the fine warp yarns and the common weft yarns (3) are sequentially and alternately woven in a mode that the fine warp yarns are positioned above one common weft yarn (3) and then the fine warp yarns are positioned below the next common weft yarn (3).

8. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: the fine warp yarns may be 40 denier yarns.

9. The webbing with automatic recovery function after folding and production process thereof according to claim 1, wherein: the common warp yarn (2) may use a 70 denier yarn, and the common weft yarn (3) may use a 150 denier yarn.

10. A braid with automatic recovery function after folding and its production process, the technological operation flow is:

s1, preparing materials of common warp yarns (2), common weft yarns (3), elastic warp yarns (4) and fine warp yarns;

s2, selectively performing yarn dyeing and color changing operation on the common warp yarns (2), the common weft yarns (3) and the fine warp yarns according to whether color requirements exist or not;

s3, winding the common warp (2), the common weft (3) and the fine warp on a winding machine respectively, and removing weak links and yarn defects of the common warp (2), the common weft (3) and the fine warp;

s4, winding the common warp yarn (2), the common weft yarn (3), the elastic warp yarn (4) and the fine warp yarn on a warp beam in parallel and uniformly according to a certain length;

s5, enabling the common warp (2), the elastic warp (4) and the fine warp on the warp beam to sequentially pass through healds and reeds according to a drafting chart, and then releasing a warp stop sheet;

s6, controlling the heald wire to move up and down through a pattern arranging chain or an electronic pattern plate according to a structural schematic diagram of the ribbon loom, interweaving the common warp yarn (2) and the common weft yarn (3) to form a main body part (1) comprising two layers of face yarn and bottom yarn, and interweaving the fine warp yarn and the common weft yarn (3) to form a concave strip part (6);

s7, weaving and dyeing and finishing the main body part (1), the elastic warp yarns (4) and the concave strip parts (6) into a woven belt (5);

s8, testing the mechanical property, washing fastness, color fastness, shrinkage rate and the like of the braid (5) according to requirements, and checking the appearance size and the like of the braid (5);

s9, packaging and warehousing the qualified braid (5) according to the requirements.