CN213138062U - Antistatic silk knitted fabric - Google Patents

Abstract

The utility model discloses an antistatic silk knitted fabric belongs to knitted fabric technical field, including outer yarn layer, one side plain weave on outer yarn layer has the inner yarn layer, and has woven into between outer yarn layer and the inner yarn layer conductive fiber line A and conductive fiber line B, conductive fiber line A and conductive fiber line B weave into for crisscross between outer yarn layer and the inner yarn layer, weave into between outer yarn layer and the inner yarn layer conductive fiber line A and conductive fiber line B, and conductive fiber line A and conductive fiber line B that antistatic agent made form the conducting layer at the surface on inner yarn layer and outer yarn layer, can reduce knitted fabric's surface resistance, make static leak rapidly through conductive fiber line A and conductive fiber line B after producing.

Description

Antistatic silk knitted fabric

Technical Field

The utility model relates to a knitted fabric technical field especially relates to an antistatic silk knitted fabric.

Background

The knitted fabric is a fabric formed by bending yarns into loops by using a knitting needle and interlooping the loops. Knitted fabrics differ from woven fabrics in the form of the yarn in the fabric. The knitting is divided into weft knitting and warp knitting, and the knitted fabric is widely applied to products such as clothing fabric, lining fabric and home textiles and is popular with consumers.

Patent No. CN201711024063.0 discloses a knitted fabric of silk underwear, which is knitted by taking Chang mulberry silk as a face yarn and spandex silk as an inner yarn; the mass ratio of the mulberry silk to the spandex silk is 9:1, and the invention aims to provide the silk underwear knitted fabric integrating functionality, ultra-light property, ultra-thin property and soft and smooth hand feeling.

1. When the conventional silk knitted fabric is used in winter, the surface of the fabric is easy to rub to generate static electricity, and the static electricity can be released when the fabric is in contact with a human body, so that the human body feels uncomfortable.

2. After the existing silk knitted fabric is soaked by sweat, salt and residues in the sweat can be accumulated in the silk knitted fabric, bacteria can be bred in the silk knitted fabric in the past for a long time, and then human skin is damaged, so that the antistatic silk knitted fabric is provided.

3. When the clothes made of the conventional silk knitted fabric are worn in summer, sweat can be adsorbed on the inner yarn surface of the silk fabric, and the fabric can be attached to the outer wall of the skin of a wearer to cause the discomfort of adhesion.

SUMMERY OF THE UTILITY MODEL

The utility model provides an antistatic silk knitted fabric, conductive fiber thread A and conductive fiber thread B are woven between an outer yarn layer and an inner yarn layer, the conductive fiber thread A and the conductive fiber thread B made of antistatic reagent form a conductive layer on the outer surfaces of the inner yarn layer and the outer yarn layer, can reduce the surface resistance of the silk knitted fabric, leads static electricity to be quickly leaked through the conductive fiber line A and the conductive fiber line B after being generated, silver ion inner yarn is woven between the outer yarn layer and the inner yarn layer, silver ion reagent components are arranged in the silver ion inner yarn between the outer yarn layer and the inner yarn layer to inhibit the breeding of bacteria in the fabric and effectively prevent the breeding of bacteria in the interior of the silk knitted fabric, the outer surface layer of the inner yarn layer is woven into silk fiber knots by silk fibers, after the inner yarn layer is soaked by sweat, the protruding knot face top of silk fiber knot is in the skin outside, prevents that the human skin of excessive laminating after the interior yarn layer is moist from producing to glue the sense.

The utility model provides a specific technical scheme as follows:

the utility model provides a pair of antistatic silk knitted fabric, including outer yarn layer, one side plain weave on outer yarn layer has the inner yarn layer, and weaves into between outer yarn layer and the inner yarn layer and have conductive fiber line A and conductive fiber line B, conductive fiber line A and conductive fiber line B weave into for crisscross between outer yarn layer and inner yarn layer.

Optionally, silver ion inner yarn clamping is woven between the outer yarn layer and the inner yarn layer, and the silver ion inner yarn clamping is penetrated by the conductive fiber line a and the conductive fiber line B.

Optionally, the outer surface of the inner yarn layer, which faces away from the outer yarn layer, is woven with silk fiber knots in a staggered manner.

Optionally, the conductive fiber line a and the conductive fiber line B are of the same type, and the conductive fiber line a and the conductive fiber line B are formed by winding four lines soaked with an antistatic agent.

The utility model has the advantages as follows:

1. the utility model discloses a weave into between outer yarn layer and the interior yarn layer with conductive fiber line A and conductive fiber line B, conductive fiber line A and conductive fiber line B that antistatic agent made form the conducting layer at the surface on interior yarn layer and outer yarn layer, can reduce the surface resistance of silk knitted fabric, make static leak rapidly through conductive fiber line A and conductive fiber line B after producing, solved the problem that current silk knitted fabric produced static easily.

2. The utility model discloses a press from both sides the yarn in weaving into silver ion between outer yarn layer and interior yarn layer, it has silver ion reagent composition to restrain the surface fabric to breed the bacterium to press from both sides in the silver ion between outer yarn layer and the interior yarn layer in the yarn, prevents effectively that the inside of silk knitted fabric from breeding the bacterium, has solved the inside problem of breeding the bacterium easily of current silk knitted fabric.

3. The utility model discloses an extexine on internal yarn layer is made into silk fibre knot with the silk fibre, and after internal yarn layer was steeped by the sweat, the bellied silk knot face top of silk fibre knot was in the skin outside, prevented that the human skin of excessive laminating after the internal yarn layer is moist from producing to glue the sense, has solved the problem that current silk knitted fabric produced to glue the sense by the attached skin production of sweat after attaching.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a composition level diagram of an antistatic silk knitted fabric according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of a conductive fiber thread of an antistatic silk knitted fabric according to an embodiment of the present invention.

In the figure: 1. an outer yarn layer; 2. an inner yarn layer; 3. a conductive fiber line A; 4. a conductive fiber wire B; 5. silver ion internal yarn clamping; 6. and (5) silk fiber knots.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

An antistatic silk knitted fabric according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 2.

Referring to fig. 1, the embodiment of the utility model provides an antistatic silk knitted fabric, including outer yarn layer 1, one side plain weave of outer yarn layer 1 has inner yarn layer 2, and has woven into between outer yarn layer 1 and the inner yarn layer 2 conductive fiber line A3 and conductive fiber line B4, conductive fiber line A3 and conductive fiber line B4 weave into for crisscross between outer yarn layer 1 and inner yarn layer 2.

Illustratively, the conductive fiber line A3 and the conductive fiber line B4 are woven between the outer yarn layer 1 and the inner yarn layer 2, and the conductive fiber line A3 and the conductive fiber line B4 which are made of antistatic agents form conductive layers on the outer surfaces of the inner yarn layer 2 and the outer yarn layer 1, so that the surface resistance of the silk knitted fabric can be reduced, and static electricity can be rapidly leaked through the conductive fiber line A3 and the conductive fiber line B4 after being generated.

Referring to fig. 1, a silver ion inner yarn 5 is woven between the outer yarn layer 1 and the inner yarn layer 2, and the silver ion inner yarn 5 is penetrated by a conductive fiber line a3 and a conductive fiber line B4.

The silver ion inner yarn clamping device comprises an outer yarn layer 1, an inner yarn layer 2 and an inner yarn layer 5, wherein silver ion reagent components are arranged in the silver ion inner yarn clamping device 5 between the outer yarn layer 1 and the inner yarn layer 2, so that the breeding of bacteria in the fabric can be inhibited, and the breeding of bacteria in the interior of the silk knitted fabric can be effectively prevented.

Referring to fig. 1, the outer surface of the inner yarn layer 2 facing away from the outer yarn layer 1 is interwoven with silk fiber knots 6.

The silk fiber knot 6 is woven with the silk fibre in the extexine of inner yarn layer 2 to the example, and after inner yarn layer 2 was soaked by the sweat, the protruding silk knot face top of silk fiber knot 6 was in the skin outside, prevented that the excessive human skin of laminating produced the sense of adhesion after inner yarn layer 2 was moist.

Referring to fig. 1 and 2, the wire bodies of the conductive fiber wire A3 and the conductive fiber wire B4 are the same type of wire body, and the conductive fiber wire A3 and the conductive fiber wire B4 are formed by winding four wire bodies soaked with the antistatic agent.

For example, the conductive fiber wire a3 and the conductive fiber wire B4 made of four-strand bodies have strong tensile toughness.

The utility model relates to an antistatic silk knitted fabric, weave conductive fiber line A3 and conductive fiber line B4 into between outer yarn layer 1 and interior yarn layer 2, conductive fiber line A3 and conductive fiber line B4 that antistatic agent made form the conducting layer at the surface of interior yarn layer 2 and outer yarn layer 1, can reduce the surface resistance of silk knitted fabric, make static leak through conductive fiber line A3 and conductive fiber line B4 after producing rapidly, weave silver ion inner yarn clamp 5 between outer yarn layer 1 and interior yarn layer 2, it has silver ion reagent composition to restrain the surface fabric and breed the bacterium in the silver ion inner yarn clamp 5 between outer yarn layer 1 and interior yarn layer 2, effectively prevent the knitted inside of silk fabric from breeding the bacterium, the ectosexine of interior yarn layer 2 uses silk fibre knot 6, after interior yarn layer 2 is soaked by sweat, the bellied silk knot face of silk fibre knot 6 pushes up in the skin outside, prevent the inner yarn layer 2 from excessively attaching to the skin of the human body after being wetted to generate the sticky feeling.

It should be noted that, the utility model relates to an antistatic silk knitted fabric, including outer yarn layer 1, interior yarn layer 2, conductive fiber line A3, conductive fiber line B4, silver ion interior yarn 5, silk fiber knot 6, surface fabric and fibre are the surface fabric and the fibre that technical staff in the field knows, and its structure and principle all are that this technical staff all can learn through the technical manual or learn through conventional experimental method.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (4)

1. The utility model provides an antistatic silk knitted fabric, includes outer yarn layer (1), its characterized in that: one side plain weave of outer yarn layer (1) has interior yarn layer (2), and has knitted into between outer yarn layer (1) and interior yarn layer (2) conductive fiber line A (3) and conductive fiber line B (4), conductive fiber line A (3) and conductive fiber line B (4) are for crisscross the knitting in between outer yarn layer (1) and interior yarn layer (2).

2. The antistatic silk knitted fabric according to claim 1, characterized in that: silver ion inner yarn clamping (5) is woven between the outer yarn layer (1) and the inner yarn layer (2), and the silver ion inner yarn clamping (5) is penetrated through by the conductive fiber line A (3) and the conductive fiber line B (4).

3. The antistatic silk knitted fabric according to claim 1, characterized in that: the outer surface of the inner yarn layer (2) departing from the outer yarn layer (1) is woven into silk fiber knots (6) in a staggered mode.

4. The antistatic silk knitted fabric according to claim 1, characterized in that: the conductive fiber wire A (3) and the conductive fiber wire B (4) are of the same type, and the conductive fiber wire A (3) and the conductive fiber wire B (4) are formed by winding four wire bodies soaked with an antistatic agent.

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