CN216663416U - Antibacterial anti-static lace fabric - Google Patents

Abstract

The utility model aims at the problem that the existing lace fabric does not have the functions of antibiosis and static prevention generally, and designs an antibacterial and static prevention lace fabric which comprises the following components in parts by weight: antibacterial yarns, down cotton yarns and conductive yarns; the lace spindle structure comprises at least two lace spindle structures, wherein the radial lines are down cotton lines and at least one conductive yarn, the delineation lines are antibacterial yarns, and the delineation lines are at least four layers; the spindle connecting structure is arranged between the two lace spindle structures, and the radial line and the delineation line both use down cotton threads; the lace structure is arranged on one side of the lace main shaft structure, a single piece of antibacterial yarn and a single piece of down cotton yarn are twisted into a radial line, and the radial line is woven into a net structure; the pompon structure is arranged on one side of the lace structure, and is made of down feather cotton threads, and the pompon is sewn with the edge of the lace structure.

Description

Antibacterial anti-static lace fabric

Technical Field

The utility model relates to the field of lace fabrics, in particular to an antibacterial and anti-static lace fabric.

Background

Most of the existing laces are made into a form of independent fabric and are sewn to the required edges of clothes when the clothes are needed. Because the lace fabric usually adopts artificial fiber, static electricity is easy to generate; and the lace is easily polluted to cause the generation of bacteria, so that an antibacterial and antistatic lace fabric needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model designs an antibacterial anti-static lace fabric, which aims at the problem that the existing lace fabric does not have the antibacterial and anti-static functions generally.

An antibacterial anti-static lace fabric comprises: antibacterial yarn, down cotton and conductive yarn;

the lace main shaft structure is at least two, the radial lines use down cotton lines and at least one conductive yarn, the tracing lines use antibacterial yarns, and the tracing lines are at least four layers;

the spindle connecting structure is arranged between the two lace spindle structures, and the radial line and the delineation line both use down cotton threads;

the lace structure is arranged on one side of the lace main shaft structure, a single piece of antibacterial yarn and a single piece of down cotton yarn are twisted into a radial line, and the radial line is woven into a net structure;

the pompon structure is arranged on one side of the lace structure, and is made of down feather cotton threads, and the pompon is sewn with the edge of the lace structure.

Preferably, the radial line direction of the lace main shaft structure is vertical to the radial line direction of the main shaft connecting structure;

the tracing line of the lace main shaft structure also uses down feather cotton thread, and the down feather cotton thread is napped, so that a napping layer is formed on the surface layer of the down feather cotton thread.

Preferably, the lace structure is twisted into a knot by using radial lines to form nodes of a net structure, and an acute angle between the radial lines of the lace structure and the radial lines of the lace main shaft structure is between 40 and 55 degrees.

Preferably, the diameter of the single pompon is larger than the inner diameter of the meshes of the lace structure;

the pompompon of the pompon structure is connected and reinforced by using the down cotton thread.

Preferably, the antibacterial yarn is chitin yarn or silver ion yarn.

The utility model has the beneficial effects that: can be effectual not changing under the original sense of touch of lace surface fabric and the figurative condition of lace, make the lace surface fabric possess antibiotic and prevent the function of static to reduce the cloth because make up the problem that the cloth that the lace produced pollutes and static is multiple.

Drawings

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

FIG. 2 is a schematic sectional view of the main shaft structure of the lace of the present invention;

FIG. 3 is a schematic cross-sectional view of a spindle attachment structure of the present invention;

in the figure: 1. Lace spindle structure, 2 spindle connecting structure, 3 spindle connecting structure, 4 spindle connecting structure, 5 spindle connecting structure, 6 spindle connecting structure, 7 spindle connecting structure, and 5 spindle connecting structure.

Detailed Description

The technical solution of the present invention is further specifically described below by way of specific examples in conjunction with the accompanying drawings.

Example 1

As shown in fig. 1, 2 and 3, the antibacterial and antistatic lace fabric comprises: antibacterial yarn 5, down cotton yarn 7 and conductive yarn 6;

the lace main shaft structure 1 is totally two, the radial lines use down cotton threads 7 and at least one conductive yarn 6, the tracing lines use antibacterial yarns 5, and the tracing lines at least trace four layers;

the spindle connecting structure 2 is arranged between the two lace spindle structures 1, and the radial line and the tracing line both use down cotton threads 7;

the lace structure 3 is arranged on one side of the lace main shaft structure 1, a strand of radial line is twisted by using a single piece of antibacterial yarn 5 and a single piece of down cotton 7, and a net structure is woven by the radial line;

and the pompon structure 4 is arranged on one side of the lace structure 3, and is made of down feather cotton threads 7 and sewn with the edge of the lace structure 3.

The two parallel lace main shaft structures 1 form a main central shaft structure of a lace, the two parallel lace main shaft structures 1 are sewn left and right through the main shaft connecting structure 2, and as shown in fig. 1, a lace structure 3 in the embodiment is as follows: pompon structure 4, lace structure 3, lace main shaft structure 1, main shaft connection structure 2, lace main shaft structure 1.

The radial line direction of the lace main shaft structure 1 is vertical to the radial line direction of the main shaft connecting structure 2;

the lace main shaft structure 1 is characterized in that the tracing line also uses down feather cotton thread 7, and the down feather cotton thread 7 is napped, so that a napping layer is formed on the surface layer of the down feather cotton thread 7.

The lace structure 3 is twisted into a structure by using radial lines to form nodes of a net structure, and an acute angle included angle between the radial lines of the lace structure 3 and the radial lines of the lace main shaft structure 1 is 45 degrees.

The diameter of the single pompon is larger than the inner diameter of the meshes of the lace structure 3;

the pompoms of the pompon structure 4 are connected and reinforced by using down cotton threads 7.

The antibacterial yarn 5 is chitin yarn.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The utility model provides an antibiotic antistatic lace fabric which characterized in that includes: antibacterial yarn, down cotton and conductive yarn;

the lace main shaft structure is at least two, the radial lines use down cotton lines and at least one conductive yarn, the tracing lines use antibacterial yarns, and the tracing lines are at least four layers;

the spindle connecting structure is arranged between the two lace spindle structures, and the radial line and the delineation line both use down cotton threads;

the lace structure is arranged on one side of the lace main shaft structure, a single piece of antibacterial yarn and a single piece of down cotton yarn are twisted into a radial line, and the radial line is woven into a net structure;

the pompon structure is arranged on one side of the lace structure, and is made of down feather cotton threads, and the pompon is sewn with the edge of the lace structure.

2. The antibacterial and antistatic lace fabric as claimed in claim 1, wherein the radial line direction of the lace main shaft structure is perpendicular to the radial line direction of the main shaft connecting structure;

the tracing line of the lace main shaft structure also uses down feather cotton thread, and the down feather cotton thread is napped, so that a napping layer is formed on the surface layer of the down feather cotton thread.

3. The antibacterial and antistatic lace fabric as claimed in claim 1, wherein the lace structure is twisted into a structure by using radial lines to form nodes of a mesh structure, and an acute angle included angle between the radial lines of the lace structure and the radial lines of the lace main shaft structure is 40-55 degrees.

4. The antibacterial and antistatic lace fabric as claimed in claim 3, wherein the diameter of the single pompon is larger than the inner diameter of the meshes of the lace structure;

the pompompon of the pompon structure is connected and reinforced by using the down cotton thread.

5. The antibacterial and antistatic lace fabric as claimed in claim 1, wherein the antibacterial yarn is chitin yarn or silver ion yarn.

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