CN113388946B - Elastic ribbon for preventing shrinkage - Google Patents

Abstract

The invention discloses an anti-shrinkage elastic mesh belt which comprises a mesh belt formed by kneading a plurality of groups of folds along a belt surface and sewing a plurality of groups of elastic wire loops to shape the folds. The elastic nylon band woven by the shrink-proof elastic ribbon provided by the invention is subjected to pleat pinching, then two circles of cotton thread loops are respectively sewn on the outer ring, two circles of hot melt yarns are sewn on the inner ring, and finally a plurality of circles of elastic core wires are sewn between the two circles of cotton thread loops and the two circles of hot melt yarns, so that the pleats are fixed, and the integral shrinkage of the woven band is greatly increased.

Description

Anti-shrinking elastic ribbon

Technical Field

The invention relates to an anti-shrinking rib elastic woven belt.

Background

The elastic woven belt is inserted into the fixed toothholder of the weaving machine after the weft yarn pipe is formed by yarn warp winding and weft winding, the weft yarn pipe rotates and moves along the 8-shaped track to draw the yarns to be woven in a mutually crossed mode, and the woven belt is flat.

According to patent No. CN201911290401.4, an elastic braid and a weaving process thereof are disclosed, comprising: the woven belt main body comprises warp yarns and weft yarns which are interwoven with each other, the woven belt main body is divided into a spacer region and a V-shaped line region, the spacer region and the V-shaped line region are distributed at intervals along the weft direction, the V-shaped line region is provided with V-shaped lines which are continuously distributed along the warp direction, and the length of the warp floating long lines of the V-shaped line region is larger than that of the warp floating long lines of the spacer region. Form V-arrangement line district and spacer through organizational change in the meshbelt main part, the line length of floating through long line of floating of V-arrangement line district is greater than the long line of floating through of spacer, and the V-arrangement line district gives fabric main part high elasticity and bendability, and the spacer plays the effect of stably consolidating bending deformation to satisfy the diversified market demand of product.

Such flat-sheet elastic webbing is often used in women's garments such as girdles for long skirts, waistbands for business skirts, and the like. The elastic woven belt can lose original elasticity after being stretched for many times, so that the contractibility of the elastic woven belt is poor, the original effect of the elastic woven belt is lost, the attractiveness of the clothes is affected, and certain trouble can be brought to a user.

Disclosure of Invention

The object of the present invention is to provide a shrinkproof elastic webbing for solving the above problems.

In order to achieve the above purpose, the invention provides the following technical scheme: an anti-shrinkage elastic mesh belt comprises a mesh belt which is formed by kneading a plurality of groups of folds along a belt surface and is formed by sewing a plurality of groups of elastic thread loops to shape the folds.

Preferably, the webbing is specifically an elastic nylon webbing.

Preferably, each of said pleats is embodied in a "W" configuration.

Preferably, the number of the elastic thread loops is not less than six, two loops from the outer side to the inner side of the woven belt are cotton thread loops, two loops from the inner side to the outer side of the woven belt are hot melt yarns, and elastic core threads are distributed between the two cotton thread loops and the two hot melt yarns.

The mesh belt comprises mixed knitting wool, first strong yarn and polyamide fiber yarn, wherein the mixed knitting wool and the first strong yarn are woven in a staggered mode to form a belt surface, and the polyamide fiber yarn is continuously sewn on two side surfaces of the belt surface in an S shape.

Preferably, the blended yarn is composed of four strands, the first high-strength yarn is composed of two strands, and each strand is formed by weaving two elastic yarns.

Preferably, the blended yarn is woven from a second high-strength yarn about a circular array of the polydodecalactam fiber yarns.

A method of knitting an elastic webbing comprising the steps of:

1) Penetrating six second strong yarns and one polydodecalactam fiber yarn into a creel, and manufacturing blended wool on a yarn beating machine;

2) The latex yarn, the mixed wool with four strands as a group and the beaten first strong yarn are put into an air-flow knitting machine and knitted into a belt surface;

3) Loading the polyamide fiber yarns and the belt surface into a ribbon loom according to a ratio of 1; after being coiled into a disc, the obtained woven belt is immersed into a mixed solution of polyacrylate emulsion with the concentration of 5% and water, and is taken out after 12-18 minutes;

4) Rolling out 40-60% of residual slurry on the woven belt by using a rubber roller;

5) And ironing the woven belt at the ironing temperature of 135-145 ℃ and the ironing speed of 22m/min.

In the technical scheme, the anti-shrinkage elastic mesh belt provided by the invention has the following beneficial effects: the elastic nylon belt formed by weaving is pleated, then two circles of cotton fiber wire loops are sewed on the outer ring, two circles of hot melt yarns are sewed on the inner ring, and a plurality of circles of elastic core wires are sewed between the two circles of cotton fiber wire loops and the two circles of hot melt yarns, so that the folds are fixed, and the whole contractibility of the woven belt is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic overall structure diagram provided in an embodiment of the present invention;

FIG. 2 is a partial detailed structural schematic diagram provided in accordance with an embodiment of the present invention;

FIG. 3 is a schematic diagram of a detailed structure of a webbing provided in an embodiment of the present invention;

fig. 4 is a detailed structural schematic diagram of the webbing provided by the embodiment of the present invention.

Description of the reference numerals:

1. folding; 2. an elastic wire loop; 21. a cotton thread ring; 22. thermally melting the yarns; 23. an elastic core wire; 3. weaving a belt; 11. mixing the wool; 12. a first strong yarn; 13. a polyamide fiber yarn; 111. a second strong yarn; 112. a thread of polydodecalactam fibers.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings.

Example 1

As shown in fig. 1-4, a shrinkproof elastic webbing includes a webbing 3 that is pinched into a plurality of sets of pleats 1 along a webbing face and is stitched with a plurality of sets of elastic thread loops 2 to shape the pleats 1. And each corrugation 1 is embodied in a "W" shaped configuration. The number of the plurality of groups of elastic thread loops 2 is not less than six, two loops from the outside to the inside of the webbing 3 are cotton thread loops 21, two loops from the inside to the outside of the webbing 3 are heat fusible yarns 22, and elastic threads 23 are distributed between the two groups of cotton thread loops 21 and the two groups of heat fusible yarns 22 (the state shown in fig. 1). Thereby greatly increasing the whole contractibility of the woven ribbon.

The webbing 3 is specifically an elastic nylon belt 1.

Further, in the above-described embodiment, as can be seen from fig. 3, the webbing 3 includes the mixed knitting yarn 11, the first strong yarn 12, and the polyamide fiber yarn 13, the mixed knitting yarn 11 and the first strong yarn 12 are interlaced to form the belt surface, and the polyamide fiber yarn 13 is continuously sewn to both side surfaces of the belt surface in an "S" shape.

Furthermore, the blended yarn 11 has a set of four strands, the first high-strength yarn 12 has a set of two strands, and each strand is formed by weaving two elastic yarns.

Further, the mixed wool 11 is formed by weaving second strong yarns 111 in a circular array with respect to the polydodecalactam fiber yarns 112.

In the above scheme, an anti-shrinkage elastic webbing comprises the following steps:

1) Penetrating six second strong yarns 111 and one polydodecalactam fiber yarn 112 into a creel, and manufacturing blended wool 11 on a yarn beating machine;

2) Loading the latex yarn, the mixed wool 11 with four strands as a group and the beaten first strong yarn 12 into an air-flow knitting machine, and knitting to form a belt surface;

3) Loading the polyamide fiber thread 13 and the belt surface into a ribbon loom according to the weight ratio of 1; after being coiled into a disc, the obtained woven belt 3 is immersed into a mixed solution of polyacrylate emulsion with the concentration of 5% and water, and is taken out after 12-18 minutes;

4) Rolling out 40-60% of residual slurry on the woven belt by using a rubber roller;

5) And ironing the woven tape, wherein the ironing temperature is 135-145 ℃, and the ironing speed is 22m/min.

Example 2

1) Penetrating 9 pieces of 70D spandex filament yarns into a creel, and manufacturing spandex yarns on a yarn beating machine;

2) Filling the latex yarn and the beaten spandex yarn into a knitting machine, and knitting the spandex-coated stretch yarn;

3) Filling the elastic yarn and the nylon or polyester yarn into a ribbon loom according to the proportion of 1; after being coiled into a disc, the obtained woven belt is immersed into a mixed solution of polyacrylate emulsion with the concentration of 5% and water, and is taken out after 12-18 minutes;

4) Rolling out 40-60% of residual slurry on the woven belt by using a rubber roller;

5) And ironing the woven belt at the ironing temperature of 130-150 ℃ and the ironing speed of 18-22 m/min.

The embodiment provides a preparation method of products sold on the market for a long time at present, and the shrink-proof elastic woven belt provided by the invention belongs to the same type of harmful products.

The belt surface of each of the example 1 and the example 2 was subjected to a repeated tensile test at a tensile force of 20kg/f, and the following experimental data were obtained:

example 1

Example 2

Number of times of stretching	Length before stretching	Length after stretching
			10000	60cm	65cm
20000	60cm	67cm
			30000	60cm	68cm
40000	60cm	70cm
			50000	60cm	70cm

It can be seen that in the comparative data above, example 2, which is 60c long with increasing number of stretches, stays at 70cm at the maximum and stops stretching, whereas the elastic webbing of example 1 stays at 65cm and the shrinkability after stretching is greatly improved. Therefore, the knitted elastic nylon belt is pleated, then two circles of cotton fiber wire loops are sewn on the outer ring, two circles of hot melt yarns are sewn on the inner ring, and finally a plurality of circles of elastic core wires are sewn between the two circles of cotton fiber wire loops and the two circles of hot melt yarns, so that the folds are fixed, and the whole contractibility of the knitted braid is greatly improved.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (4)

1. An anti-shrinkage elastic mesh belt is characterized by comprising a mesh belt (3) which is formed by kneading a plurality of groups of folds (1) along the belt surface and sewing a plurality of groups of elastic thread loops (2) to shape the folds (1);

the number of the elastic thread loops (2) is not less than six, two inward loops from the outer side of the woven belt (3) are cotton thread loops (21), two outward loops from the inner side of the woven belt (3) are hot melt yarns (22), and elastic core threads (23) are distributed between the two cotton thread loops (21) and the two hot melt yarns (22);

the mesh belt (3) comprises mixed knitting wool (11), first strong yarn (12) and polyamide fiber yarn (13), the mixed knitting wool (11) and the first strong yarn (12) are woven in a staggered mode to form a belt surface, and the polyamide fiber yarn (13) is continuously sewn on two side surfaces of the belt surface in an S shape;

four strands of the blended wool (11) form one group, two strands of the first high-strength yarn (12) form one group, and each strand is formed by weaving two elastic yarns;

the blended wool (11) is woven by second strong yarns (111) in a circle center array of the polydodecalactam fiber yarns (112).

2. A shrinkproof elastic webbing according to claim 1, characterised in that the webbing (3) is in particular an elastic nylon webbing.

3. A web as claimed in claim 1, characterised in that each of said pleats (1) is of a "W" configuration.

4. A method of weaving an elastic webbing, an anti-beading elastic webbing according to any one of claims 1 to 3, characterised by the steps of:

1) Penetrating six second strong yarns (111) and one polydodecalactam fiber yarn (112) into a creel, and manufacturing mixed wool (11) on a yarn beating machine;

2) Putting the latex yarn, the blended wool (11) with four strands as a group and the beaten first strong yarn (12) into an air-flow braider, and weaving into a belt surface;

3) Loading the polyamide fiber thread (13) and the belt surface into a ribbon loom according to the ratio of 1; after the obtained woven belt (3) is coiled into a disc, the woven belt is immersed into a mixed solution of polyacrylate emulsion with the concentration of 5% and water, and the woven belt is taken out after 12-18 minutes;

4) Rolling out 40-60% of residual slurry on the woven belt by using a rubber roller;

5) And ironing the woven belt at the ironing temperature of 135-145 ℃ and the ironing speed of 22m/min.

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