CN219781640U - Antistatic cardigan - Google Patents

Abstract

The utility model relates to the field of clothing, and provides an antistatic cardigan, which comprises a cardigan main body, wherein the cardigan main body is knitted by a plurality of composite yarns, each composite yarn comprises at least one first elastic yarn arranged in the middle along the length direction, an antistatic yarn wound on the first elastic yarn, a plurality of thermal insulation yarns arranged in the length direction, the thermal insulation yarns are arranged on the outer edges of the antistatic yarns, each thermal insulation yarn comprises a second elastic yarn arranged in the middle along the length direction, and a thermal insulation layer coated on the second elastic yarn, and each thermal insulation layer comprises a plurality of thermal insulation fibers. The composite yarn has the effects of elasticity, warmth retention and static electricity prevention, and solves the technical problem that the cardigan is easy to generate static electricity and has uncomfortable effect for human bodies.

Description

Antistatic cardigan

Technical Field

The utility model relates to the field of clothing, in particular to an antistatic cardigan.

Background

The cardigan is a loose coat, most of which are sweater, the traditional cardigan is generally long-sleeve, sleeveless or five-sleeve, and buttons are arranged on the front surface of the garment. There is also a button-less cardigan, which is designed to allow the wearer to simply open the front naturally. When the cardigan is put on or taken off, static electricity is easily generated, and the cardigan can be electrified to a human body, so that uncomfortable effects are caused.

Chinese patent application No.: 202223099599.8 the utility model provides a take cap cardigan, a take cap cardigan structurally includes a cardigan body, be provided with the cap on the cardigan body, still include set up in the first waist-down subassembly and the second waist-down subassembly of the both ends about the cardigan body front side waist, set up in the back waist fixed subassembly of cardigan body trailing side waist, first waist-down subassembly and second waist-down subassembly other end all pass cardigan body medial surface respectively; and the first waisted component and the second waisted component are identical in structure. When the cardigan is put on or taken off, static electricity is easily generated, and the cardigan can be electrified to a human body, so that uncomfortable effects are caused.

Disclosure of Invention

Accordingly, in view of the above-mentioned problems, the present utility model provides an antistatic cardigan. The technical problem that static electricity is easy to generate for the cardigan and uncomfortable effect is generated for human body is solved.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an antistatic cardigan, includes cardigan main part, cardigan main part is knitted by a plurality of compound yarns and forms, compound yarn includes at least one locate the middle part along the first elastic yarn that length direction set up, twine in the antistatic yarn of first elastic yarn, a plurality of keep warm yarn that length direction set up, a plurality of keep warm yarn arranges in antistatic yarn outer edge, keep warm yarn is including locating the middle part along the second elastic yarn that length direction set up, cladding in the thermal layer of second elastic yarn, the thermal layer includes a plurality of thermal fibers.

Further:

the thermal insulation fiber is wool fiber.

The thermal insulation fiber is cotton fiber.

The first elastic yarn and the second elastic yarn are spandex yarns.

The antistatic yarn is made of metal conductive fibers or carbon conductive fibers.

The middle part of the cardigan main body is provided with buttons or zippers.

The cardigan main body is provided with a pocket.

The two elbows of the cardigan main body are provided with reinforcing parts.

The reinforcement is formed by stitching graphene yarns.

By adopting the technical scheme, the utility model has the beneficial effects that:

the cardigan is knitted by the composite yarn, the first elastic yarn of the composite yarn has good elasticity, the antistatic yarn is wound around the first elastic yarn, the elastic yarn has certain elasticity and buffer property, the stretching of the first elastic yarn is not influenced, meanwhile, the second elastic yarn of the thermal insulation yarn also has elasticity, and the thermal insulation layer is made of thermal insulation fibers, so that the thermal insulation effect is achieved, the stretching of the second elastic yarn is not influenced, the structure is comfortable to wear, the composite yarn is firm, the composite yarn cannot break after being stretched, the antistatic yarn is contacted with each thermal insulation yarn, and static electricity can be prevented from being generated on the thermal insulation yarns; further, the thermal insulation fibers can be wool fibers or cotton fibers, so that the thermal insulation effect is good; furthermore, the elbow is provided with a reinforcing part, and the elbow is often bent and rubbed to be contacted with other objects, so that the elbow can be prevented from being worn; furthermore, the graphene yarn is high in strength and not easy to wear.

Drawings

FIG. 1 is a schematic view of the cardigan of the present utility model;

FIG. 2 is a cross-sectional view of a composite yarn;

fig. 3 is a schematic view of a structure in which a reinforcement portion is provided on a cardigan.

Detailed Description

The utility model will now be further described with reference to the drawings and detailed description.

Referring to fig. 1 and 2, the embodiment provides an antistatic cardigan, which comprises a cardigan body 1, wherein the cardigan body 1 is knitted by a plurality of composite yarns, the composite yarns comprise a first elastic yarn 11 arranged in the middle along the length direction, an antistatic yarn 12 wound around the first elastic yarn 11, and a plurality of thermal yarns 13 arranged in the length direction, the thermal yarns 13 are arranged on the outer edges of the antistatic yarn 12, the thermal yarns 13 comprise a second elastic yarn 131 arranged in the middle along the length direction, and a thermal layer 132 wrapped on the second elastic yarn 131, and the thermal layer 132 comprises a plurality of thermal fibers.

The thermal insulation fibers are wool fibers, cotton fibers or other thermal insulation fibers, the thermal insulation fibers are Mao Xuzhuang, and are adhered and fixed on the second elastic yarns 131 through glue or other materials, so that the thermal insulation layer 132 is formed, which is a known technical means and will not be described herein.

The number of the first elastic yarns 11 may be two, three or even more, and is particularly set according to circumstances.

The first elastic yarn 11 and the second elastic yarn 131 may be spandex yarns or other elastic fibers, which are well known materials and will not be described herein.

The antistatic yarn 12 is made of metal conductive fiber, carbon conductive fiber or other antistatic materials, which are well known materials and will not be described herein.

Buttons or zippers can be arranged in the middle of the cardigan main body 1, and the cardigan main body is specifically arranged according to the situation.

The cardigan body 1 may be provided with a pocket, and the pocket may be provided according to circumstances.

Referring to fig. 3, the two elbows of the cardigan body 1 may be provided with reinforcing portions 14, and the reinforcing portions 14 may be formed by sewing graphene yarns or other yarns, as the case may be.

The working mode of the utility model is as follows:

the cardigan main body 1 is worn on a human body, has good elasticity, is comfortable to wear, the thermal yarn 13 has good thermal effect, and the antistatic yarn 12 can prevent static electricity.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (9)

1. An antistatic cardigan, includes cardigan main part, its characterized in that: the cardigan main body is knitted by a plurality of compound yarns, the compound yarns include at least one locate the middle part along the first elastic yarn that length direction set up, twine in the antistatic yarn of first elastic yarn, a plurality of keep warm yarn that length direction set up, a plurality of keep warm yarn arranges in antistatic yarn outer edge, keep warm yarn is including locating the middle part along the second elastic yarn that length direction set up, cladding in the thermal layer of second elastic yarn, the thermal layer includes a plurality of thermal fibers.

2. An antistatic cardigan as defined in claim 1, wherein: the thermal insulation fiber is wool fiber.

3. An antistatic cardigan as defined in claim 1, wherein: the thermal insulation fiber is cotton fiber.

4. An antistatic cardigan as defined in claim 1, wherein: the first elastic yarn and the second elastic yarn are spandex yarns.

5. An antistatic cardigan as defined in claim 1, wherein: the antistatic yarn is made of metal conductive fibers or carbon conductive fibers.

6. An antistatic cardigan as defined in claim 1, wherein: the middle part of the cardigan main body is provided with buttons or zippers.

7. An antistatic cardigan as defined in claim 1, wherein: the cardigan main body is provided with a pocket.

8. An antistatic cardigan according to any one of claims 1 to 7, characterized in that: the two elbows of the cardigan main body are provided with reinforcing parts.

9. An antistatic cardigan as defined in claim 8, wherein: the reinforcement is formed by stitching graphene yarns.