CN216338191U - Cationic polyester composite yarn - Google Patents

Abstract

The utility model discloses a positive polyester composite yarn, which belongs to the technical field of positive polyester composite yarns, and particularly relates to a positive polyester composite yarn, which comprises a positive ion polyester filament yarn, a tough fiber layer wound on the outer wall of the positive ion polyester filament yarn, an anti-static yarn wrapping the tough fiber layer, and a touch surface layer adhered to the periphery of the outer wall of the anti-static yarn.

Description

Cationic polyester composite yarn

Technical Field

The utility model relates to the technical field of cationic polyester composite yarns, in particular to cationic polyester composite yarns.

Background

The positive polyester composite filament is also called dancing dragon yarn and Yilongsha positive polyester composite filament which is formed by twisting, texturing and compounding cation dyeable polyester and common polyester. In the process, uneven air interlacing is used to generate variable long and short pitches, and two effects of color alternation are generated on the surface of the fabric after weaving. Different cation proportions can achieve different bicolor effects, such as different colors, light and shade, white remaining and the like. Different specifications of products and different interweaving modes obtain different double-color effects such as stripes, lattices, jacquard patterns and the like, so that the style of the fabric is more diversified.

The existing cation-polyester composite yarn is not ideal in toughness and strength, easy to break and poor in stretchability when used, bacteria and static electricity are easily generated on the surface, and the cation-polyester composite yarn is harmful to human bodies after long-term use.

SUMMERY OF THE UTILITY MODEL

The present invention has been made in view of the above and/or other problems occurring in the conventional polyester/acrylic composite yarn.

Accordingly, an object of the present invention is to provide a cationic polyester composite yarn, which can solve the above-mentioned problems of the prior art by winding a tough fiber layer around the outer wall of a cationic polyester filament yarn, wrapping an antistatic yarn around the outer wall of the tough fiber layer, and bonding a touch surface layer to the outer wall of the antistatic yarn.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

a cationic polyester composite yarn, comprising: the cationic polyester filament yarn further comprises a tough fiber layer wound on the outer wall of the cationic polyester filament yarn, an anti-static yarn wrapping the tough fiber layer, and a touch surface layer bonded on the periphery of the outer wall of the anti-static yarn.

As a preferable scheme of the cation-polyester composite yarn, the cation-polyester composite yarn comprises the following components: the flexible fiber layer comprises polyurethane elastic fiber yarns, diene elastic fiber yarns, composite elastic fiber yarns, polyolefin elastic fiber yarns, nylon fiber yarns and basalt fiber yarns, and the polyurethane elastic fiber yarns, the diene elastic fiber yarns, the composite elastic fiber yarns, the polyolefin elastic fiber yarns, the nylon fiber yarns and the basalt fiber yarns are uniformly arranged around the outer wall of the cationic polyester filament yarns.

As a preferable scheme of the cation-polyester composite yarn, the cation-polyester composite yarn comprises the following components: the polyurethane elastic fiber yarn, the diene elastic fiber yarn, the composite elastic fiber yarn, the polyolefin elastic fiber yarn, the nylon fiber yarn and the basalt fiber yarn are mutually wound.

As a preferable scheme of the cation-polyester composite yarn, the cation-polyester composite yarn comprises the following components: the polyurethane elastic fiber yarns, the diene elastic fiber yarns, the composite elastic fiber yarns, the polyolefin elastic fiber yarns, the nylon fiber yarns and the basalt fiber yarns are wound on the outer wall of the cationic polyester filament yarns.

As a preferable scheme of the cation-polyester composite yarn, the cation-polyester composite yarn comprises the following components: the outer walls of the polyurethane elastic fiber yarns, the diene elastic fiber yarns, the composite elastic fiber yarns, the polyolefin elastic fiber yarns, the nylon fiber yarns and the basalt fiber yarns are wrapped with the antistatic yarns.

As a preferable scheme of the cation-polyester composite yarn, the cation-polyester composite yarn comprises the following components: the touch surface layer comprises cotton fiber yarns, bamboo fiber yarns, ramie fiber yarns, flax fiber yarns, apocynum venetum fiber yarns and pineapple fiber yarns, and the cotton fiber yarns, the bamboo fiber yarns, the ramie fiber yarns, the flax fiber yarns, the apocynum venetum fiber yarns and the pineapple fiber yarns are all bonded around the outer wall of the anti-static yarn.

Compared with the prior art: under the action of polyurethane elastic fiber yarns, diene elastic fiber yarns, composite elastic fiber yarns and polyolefin elastic fiber yarns, the toughness and the stretchability of the integral yarn are increased;

under the action of the nylon fiber yarns and the basalt fiber yarns, the rigidity and the strength of the integral silk yarns are increased;

under the action of the antistatic yarn, the antistatic yarn can play an antistatic role on the surface without influencing the toughness and the strength of the whole silk thread;

and under the action of cotton fiber yarn, bamboo fiber yarn, ramie fiber yarn, flax fiber yarn, apocynum venetum fiber yarn and pineapple fiber yarn, the touch feeling of the whole silk yarn is increased, the anti-static capacity and the bacteriostatic capacity of the whole silk yarn are increased, and the effect of preventing static electricity and bacteria from causing harm to human bodies is achieved.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional structure provided by the present invention;

FIG. 2 is a schematic view of an anti-static yarn attachment structure provided by the present invention;

fig. 3 is a schematic structural diagram of a tough fiber layer provided by the present invention.

In the figure: the antistatic polyester filament yarn comprises a cationic polyester filament yarn 1, a tough fiber layer 2, a polyurethane elastic fiber yarn 21, a diene elastic fiber yarn 22, a composite elastic fiber yarn 23, a polyolefin elastic fiber yarn 24, a nylon fiber yarn 25, a basalt fiber yarn 26, an antistatic yarn 3, a touch surface layer 4, a cotton fiber yarn 41, a bamboo fiber yarn 42, a ramie fiber yarn 43, a flax fiber yarn 44, an apocynum venetum fiber yarn 45 and a pineapple fiber yarn 46.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a cationic polyester composite yarn, which has the touch of an integral yarn, increases the anti-static capacity and the bacteriostatic capacity of the integral yarn, and has the advantages of preventing static electricity and bacteria from causing harm to human bodies, and please refer to fig. 1-3, wherein the cationic polyester composite yarn comprises a cationic polyester filament yarn 1, a tough fiber layer 2, an anti-static yarn 3 and a touch surface layer 4;

further, the flexible fiber layer 2 is wound on the outer wall of the cationic polyester filament 1, the flexible fiber layer 2 comprises a polyurethane elastic fiber 21, a diene elastic fiber 22, a composite elastic fiber 23, a polyolefin elastic fiber 24, a nylon fiber 25 and a basalt fiber 26, specifically, the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are uniformly arranged around the outer wall of the cationic polyester filament 1, the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are mutually wound, and the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the basalt fiber 26 are mutually wound, The nylon fiber 25 and the basalt fiber 26 are wound on the outer wall of the cationic polyester filament 1, the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are wrapped with the antistatic yarn 3, the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are uniformly arranged around the outer wall of the cationic polyester filament 1, when the compounding is carried out, the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are firstly uniformly laid on the outer wall of the cationic polyester filament 1, and then the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are uniformly laid on the outer wall of the cationic polyester filament 1, and then the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 22, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are uniformly laid on the outer wall of the cationic polyester filament 1, Diene elastic fiber filaments 22, composite elastic fiber filaments 23, polyolefin elastic fiber filaments 24, nylon fiber filaments 25 and basalt fiber filaments 26 are wound around the cationic polyester filament 1, so that the cationic polyester filament 1 is fixed on the outer wall of the polyester filament 1 to play a role in fixing, under the action of the polyurethane elastic fiber filaments 21, the diene elastic fiber filaments 22, the composite elastic fiber filaments 23 and the polyolefin elastic fiber filaments 24, toughness and stretchability are increased for the whole filament, under the action of the nylon fiber filaments 25 and the basalt fiber filaments 26, rigidity and strength are increased for the whole filament, and an effect of preventing easy breakage during stretching is achieved, wherein the polyurethane elastic fiber filaments 21 have the advantages of high strength and good elasticity, when the filament is stretched by 50%, the elasticity of medium-strength elastic fibers is equivalent to that of spandex, and the light resistance, the chlorine bleaching resistance, the acid and alkali resistance and the like of the medium-strength elastic fibers are better than those of common spandex, the elongation of the diene elastic fiber 22 is generally between 100% and 300%, the main chemical component is vulcanized polyisoprene, the diene elastic fiber has good chemical and physical properties such as high temperature resistance, acid and alkali resistance, wear resistance and the like, the novel dual-component composite elastic fiber prepared by the composite elastic fiber 23 and common PET through an advanced composite spinning process has natural permanent spiral crimp, excellent bulkiness, elasticity, elastic recovery rate, color fastness and particularly soft hand feeling, the composite elastic fiber can be independently pure woven and can also be interwoven with cotton, viscose, terylene, chinlon and the like, the polyolefin elastic fiber 24 is prepared by melt spinning a polyolefin thermoplastic elastomer, has good elasticity and 500% elongation at break, the nylon fiber 25 has the advantages of superior wear resistance compared with other fibers, and has the advantage of good elasticity compared with wool and excellent elastic recovery rate, the strength is excellent, the basalt fiber 26 is continuous fiber prepared by high-speed drawing of a platinum-rhodium alloy drawing plate, not only has high strength, but also has various excellent performances of electric insulation, corrosion resistance, high temperature resistance and the like.

Further, the antistatic yarn 3 is internally wrapped with the tough fiber layer 2, specifically, the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 are wrapped with the antistatic yarn 3, after the tough fiber layer 2 is fixed, the antistatic yarn 3 is wrapped with the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26, so that the antistatic effect is achieved on the surface under the condition that the toughness and the strength of the whole silk thread are not affected, wherein the antistatic yarn 3 is a fabric subjected to antistatic processing and has antistatic performance.

Further, the touch surface layer 4 is adhered to the outer wall of the antistatic yarn 3, the touch surface layer 4 includes cotton fiber filaments 41, bamboo fiber filaments 42, ramie fiber filaments 43, flax fiber filaments 44, apocynum venetum fiber filaments 45 and pineapple fiber filaments 46, specifically, the cotton fiber filaments 41, the bamboo fiber filaments 42, the ramie fiber filaments 43, the flax fiber filaments 44, the apocynum venetum fiber filaments 45 and the pineapple fiber filaments 46 are all adhered to the periphery of the outer wall of the antistatic yarn 3, after the antistatic yarn 3 wraps the tough fiber layer 2, the cotton fiber filaments 41, the bamboo fiber filaments 42, the ramie fiber filaments 43, the flax fiber filaments 44, the apocynum venetum fiber filaments 45 and the pineapple fiber filaments 46 are adhered to the outer wall of the antistatic yarn 3, and then the touch surface layer 4 is fixed, and under the action of the cotton fiber filaments 41, the bamboo fiber filaments 42, the ramie fiber filaments 43, the flax fiber filaments 44, the apocynum venetum fiber filaments 45 and the pineapple fiber filaments 46, the touch feeling of the whole silk thread is increased, the anti-static capacity and the bacteriostatic capacity of the whole silk thread are increased, and the effect of preventing static electricity and bacteria from damaging human bodies is achieved, wherein the cotton fiber 41 is soft fiber and has the effect of comfort, the bamboo fiber 42 is cellulose fiber extracted from naturally growing bamboos, has the characteristics of good air permeability, instant water absorption, strong wear resistance, good dyeing property and the like, and has the functions of natural antibiosis, bacteriostasis, mite removal, deodorization and ultraviolet resistance, the ramie fiber 43 is textile fabric with the functions of bacteriostasis, ventilation, coolness, anticorrosion, mildew prevention, sweat absorption and the like, the flax fiber 44 has the functions of temperature regulation, allergy resistance, static electricity prevention and antibiosis and good hygroscopicity, the apocynum fiber 45 has good bacteriostatic performance and has obvious inhibiting effect on candida albicans, staphylococcus aureus, escherichia coli, pseudomonas aeruginosa and the like, has good prevention and treatment effects on skin diseases, bedsore, eczema and gynecological diseases, and the pineapple fiber 46 has white appearance, softness and smoothness and hand feeling like silk.

When in specific use, a person skilled in the art uniformly lays the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 on the outer wall of the cationic polyester filament 1, then winds the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26 around the cationic polyester filament 1 to fix the cationic polyester filament on the outer wall of the polyester filament 1, after fixing the flexible fiber layer 2, wraps the antistatic yarn 3 on the outer walls of the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23, the polyolefin elastic fiber 24, the nylon fiber 25 and the basalt fiber 26, wraps the antistatic yarn 3 on the flexible fiber layer 2, and then the cotton fiber 41, the bamboo fiber 42, the ramie fiber 43, the flax fiber 44, the apocynum venetum fiber 45 and the pineapple fiber 46 are bonded on the outer wall of the anti-static yarn 3, and further the touch surface layer 4 is fixed, thereby completing the composite operation, when in use, under the action of the polyurethane elastic fiber 21, the diene elastic fiber 22, the composite elastic fiber 23 and the polyolefin elastic fiber 24, the toughness and the stretchability are increased for the whole silk thread, under the action of the nylon fiber 25 and the basalt fiber 26, the rigidity and the strength are increased for the whole silk thread, under the action of the anti-static yarn 3, the anti-static function is played on the surface under the condition that the toughness and the strength of the whole silk thread are not influenced, and under the action of the cotton fiber 41, the bamboo fiber 42, the ramie fiber 43, the flax fiber 44, the apocynum venetum fiber 45 and the pineapple fiber 46, the touch feeling of the whole silk thread is increased, the anti-static capacity and the bacteriostatic capacity of the whole silk thread are increased, and the effect of preventing static electricity and bacteria from causing harm to human bodies is achieved.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. The cationic polyester composite yarn comprises cationic polyester filament yarns (1) and is characterized in that: the antistatic polyester filament yarn is characterized by further comprising a tough fiber layer (2) wound on the outer wall of the cationic polyester filament yarn (1), antistatic yarns (3) wrapping the tough fiber layer (2), and a touch surface layer (4) bonded on the periphery of the outer wall of the antistatic yarns (3).

2. The positive-polyester composite filament according to claim 1, wherein the flexible fiber layer (2) comprises polyurethane elastic fiber filaments (21), diene elastic fiber filaments (22), composite elastic fiber filaments (23), polyolefin elastic fiber filaments (24), nylon fiber filaments (25) and basalt fiber filaments (26), and the polyurethane elastic fiber filaments (21), the diene elastic fiber filaments (22), the composite elastic fiber filaments (23), the polyolefin elastic fiber filaments (24), the nylon fiber filaments (25) and the basalt fiber filaments (26) are uniformly arranged around the outer wall of the cationic polyester filament (1).

3. The positive-polyester composite filament according to claim 2, wherein the polyurethane elastic fiber filament (21), the diene elastic fiber filament (22), the composite elastic fiber filament (23), the polyolefin elastic fiber filament (24), the nylon fiber filament (25) and the basalt fiber filament (26) are intertwined with each other.

4. The positive-polyester composite filament according to claim 2, wherein the polyurethane elastic fiber filament (21), the diene elastic fiber filament (22), the composite elastic fiber filament (23), the polyolefin elastic fiber filament (24), the nylon fiber filament (25) and the basalt fiber filament (26) are wound on the outer wall of the cationic polyester filament (1).

5. The positive-polyester composite filament according to claim 2, wherein the polyurethane elastic fiber filament (21), the diene elastic fiber filament (22), the composite elastic fiber filament (23), the polyolefin elastic fiber filament (24), the nylon fiber filament (25) and the basalt fiber filament (26) are wrapped with the antistatic yarn (3).

6. The positive polyester composite yarn as claimed in claim 1, wherein the touch surface layer (4) comprises cotton fiber filaments (41), bamboo fiber filaments (42), ramie fiber filaments (43), flax fiber filaments (44), apocynum venetum fiber filaments (45) and pineapple fiber filaments (46), and the cotton fiber filaments (41), the bamboo fiber filaments (42), the ramie fiber filaments (43), the flax fiber filaments (44), the apocynum venetum fiber filaments (45) and the pineapple fiber filaments (46) are bonded around the outer wall of the antistatic yarn (3).

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