CN219947505U - Thermal insulation antistatic fabric - Google Patents

Abstract

The utility model provides a thermal insulation antistatic fabric, which relates to the technical field of clothing fabrics and comprises the following components: the heat preservation mechanism, heat preservation mechanism includes the cotton layer, one side of cotton layer is provided with the eiderdown layer, one side that the cotton layer was kept away from to the eiderdown layer is provided with antistatic backing, antistatic backing includes polyimide fiber layer, one side that the eiderdown layer was kept away from to polyimide fiber layer is provided with the rayon layer, one side that the eiderdown layer was kept away from to the cotton layer is provided with the pitch thin layer, one side that the cotton layer was kept away from to the pitch thin layer is provided with the wool layer. According to the heat-insulating antistatic fabric, the antistatic mechanisms are arranged on the two sides of the heat-insulating mechanism, and the asphalt thin layer and the wool layer are arranged on the side close to the human body, so that the heat-insulating antistatic fabric has good heat-insulating performance and antistatic performance, heat loss and static electricity of the human body can be effectively prevented, and the practicability of the heat-insulating antistatic fabric in the actual use process is improved.

Description

Thermal insulation antistatic fabric

Technical Field

The utility model relates to the technical field of clothing fabrics, in particular to a thermal insulation antistatic fabric.

Background

The existing fabric generally only ensures the heat preservation function of the fabric so that people can keep out cold when using the fabric, and people usually need to wear warm clothing in cold winter to keep the body warm. However, most of the existing thermal clothes are simply thermal, and inconvenience is brought to the life of people regardless of how static electricity generation is reduced. In some cold environments, one has to add plush underwear internally to increase warmth. However, such underwear often rubs the thermal fabric, generates static electricity, causes uncomfortable feeling, and reduces the practicality of the thermal garment. Therefore, we provide a thermal insulation antistatic fabric.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and the traditional fabric has a heat preservation function and is easy to generate static electricity in the use process of people, so that the heat preservation and static electricity prevention fabric is provided.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a thermal insulation antistatic fabric, comprising: the heat preservation mechanism, heat preservation mechanism includes the cotton layer, one side of cotton layer is provided with the eiderdown layer, one side that the cotton layer was kept away from to the eiderdown layer is provided with antistatic backing, antistatic backing includes polyimide fiber layer, one side that the eiderdown layer was kept away from to polyimide fiber layer is provided with the rayon layer, one side that the eiderdown layer was kept away from to the cotton layer is provided with the pitch thin layer, one side that the cotton layer was kept away from to the pitch thin layer is provided with the wool layer.

As a preferred embodiment, one side of the cotton layer is connected to one side of the down layer by means of weaving.

As a preferred embodiment, one side of the asphalt layer is attached to one side of the fleece layer by means of spinning.

As a preferred embodiment, the side of the asphalt layer remote from the fleece layer is connected to the side of the cotton layer remote from the down layer by means of weaving.

As a preferred embodiment, one side of the polyimide fiber layer is connected to the side of the down feather layer, which is far away from the cotton layer, by a spinning mode.

As a preferred embodiment, one side of the rayon layer is connected to the side of the polyimide fiber layer remote from the down feather layer by means of weaving.

Compared with the prior art, the utility model has the advantages and positive effects that:

according to the utility model, through arranging the antistatic mechanisms on the two sides of the heat preservation mechanism and arranging the asphalt thin layer and the wool layer on the side close to the human body, good heat preservation performance and antistatic performance are realized, and heat loss and static electricity generation of the human body are effectively prevented, so that the practicability of the heat preservation antistatic fabric in the actual use process is improved.

The anti-static mechanism is made of conductive fibers and can effectively disperse static electricity accumulated by clothes, so that discomfort of a human body is reduced. The asphalt thin layer and the wool layer enhance the heat preservation performance of the fabric, and effectively prevent the heat loss of human bodies. Meanwhile, the special processing mode of the heat-insulating antistatic fabric also increases wear resistance and durability, and is more suitable for long-time wearing.

Drawings

Fig. 1 is a schematic structural diagram of a thermal insulation antistatic fabric provided by the utility model.

Fig. 2 is a schematic structural diagram of an antistatic mechanism of the thermal insulation antistatic fabric provided by the utility model.

Fig. 3 is a schematic structural diagram of a thermal insulation mechanism of the thermal insulation antistatic fabric provided by the utility model.

Fig. 4 is a schematic diagram of a layered structure of a thermal insulation mechanism of the thermal insulation antistatic fabric provided by the utility model.

Legend description:

1. a heat preservation mechanism; 11. a cotton layer; 12. a down layer;

2. an antistatic mechanism; 21. a wool layer; 22. a thin layer of asphalt; 23. a polyimide fiber layer; 24. a layer of rayon.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-4, the present utility model provides a technical solution: a thermal insulation antistatic fabric, comprising: the heat preservation mechanism 1, heat preservation mechanism 1 includes cotton layer 11, one side of cotton layer 11 is provided with down layer 12, one side of cotton layer 11 is connected in one side of down layer 12 through the weaving mode, one side that down layer 12 kept away from cotton layer 11 is provided with antistatic mechanism 2, antistatic mechanism 2 includes polyimide fiber layer 23, one side of polyimide fiber layer 23 is connected in one side that down layer 12 kept away from cotton layer 11 through the weaving mode, one side that down layer 12 was kept away from to polyimide fiber layer 23 is provided with rayon layer 24, one side of rayon layer 24 is connected in one side that down layer 12 was kept away from to polyimide fiber layer 23 through the weaving mode, one side that down layer 12 was kept away from to cotton layer 11 is provided with pitch thin layer 22, one side that wool layer 21 was kept away from to pitch thin layer 22 is connected in one side that down layer 11 was kept away from to cotton layer 11 through the weaving mode, one side that pitch thin layer 22 was kept away from cotton layer 11 is provided with wool layer 21, one side that pitch thin layer 22 is connected in one side at wool layer 21 through the weaving mode.

In this embodiment, the wool layer 21, the asphalt layer 22, the cotton layer 11, the down layer 12, the polyimide fiber layer 23 and the rayon layer 24 are woven and connected together according to the sequence in the embodiment to form a thermal insulation antistatic fabric, and then the thermal insulation antistatic fabric can be further processed and treated as required to form various thermal insulation antistatic products such as clothes, gloves, caps and the like. Compared with the traditional fabric, the heat-insulating anti-static fabric has the advantages that the heat-insulating anti-static fabric has good heat-insulating performance and anti-static performance, heat loss and static electricity generation of a human body can be effectively prevented, the heat-insulating function of the fabric is guaranteed to be used by people for resisting cold, in some cold environments, the plush underwear is additionally arranged in the fabric for resisting cold, so that the plush garment is easy to rub with the heat-insulating fabric to generate static electricity, and discomfort is generated in the use process of the fabric. The heat-insulating antistatic fabric has the advantages that the antistatic mechanism 2 is arranged on the two sides of the heat-insulating mechanism 1, the asphalt thin layer 22 and the wool layer 21 are arranged on the side close to the human body, so that the heat-insulating antistatic fabric has good heat-insulating performance and antistatic performance, heat loss and static electricity generation of the human body can be effectively prevented, and the practicability of the heat-insulating antistatic fabric in the actual use process is improved.

Working principle:

as shown in fig. 1 to 4, the heat-insulating antistatic fabric is manufactured by weaving and connecting a wool layer 21, an asphalt layer 22, a cotton layer 11, a down layer 12, a polyimide fiber layer 23 and an artificial fiber layer 24 according to the sequence in the embodiment, and then further processing and treating according to the need. The heat-insulating antistatic fabric with the multilayer structure not only has excellent heat-insulating performance, but also has excellent antistatic effect. Compared with the defect that the traditional thermal fabric only has a thermal function, the thermal anti-static fabric has the advantage that the comfort level of people is greatly improved through the treatment of the thermal anti-static fabric aiming at the static problem.

In some extremely cold weather or outdoor environments, we often need to wear thick clothing to keep warm. However, if the fabric of the garment is not antistatic, people easily feel rough or generate static inductance of the body. The heat-insulating antistatic fabric can be used for manufacturing various heat-insulating antistatic products, such as clothes, gloves, hats and the like, and the problems are perfectly solved. The thick thermal insulation antistatic fabric is matched with a good process, and the thermal insulation garment is thermal insulation and meets the actual needs.

In a word, the research and the application of the heat-insulating antistatic fabric provide more diversified choices for comfortable life of people. The fabric not only has good heat preservation performance, but also integrates an antistatic function. In the winter of cold wind and barking, the clothing with double effects can keep warm and eliminate static electricity, and the clothing is used for a better and healthy life.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (6)

1. The utility model provides a heat preservation antistatic fabric which characterized in that includes: thermal insulation mechanism (1), thermal insulation mechanism (1) includes cotton layer (11), one side of cotton layer (11) is provided with feather layer (12), one side that cotton layer (11) was kept away from to feather layer (12) is provided with antistatic backing (2), antistatic backing (2) include polyimide fiber layer (23), one side that feather layer (12) was kept away from to polyimide fiber layer (23) is provided with rayon layer (24), one side that feather layer (12) was kept away from to cotton layer (11) is provided with pitch thin layer (22), one side that cotton layer (11) was kept away from to pitch thin layer (22) is provided with wool layer (21).

2. The thermal insulation antistatic fabric according to claim 1, wherein: one side of the cotton layer (11) is connected with one side of the down feather layer (12) in a spinning mode.

3. The thermal insulation antistatic fabric according to claim 2, wherein: one side of the asphalt thin layer (22) is connected to one side of the wool layer (21) in a spinning mode.

4. The thermal insulation antistatic fabric according to claim 1, wherein: the side of the asphalt thin layer (22) far away from the wool layer (21) is connected to the side of the cotton layer (11) far away from the down layer (12) in a spinning mode.

5. The thermal insulation antistatic fabric according to claim 1, wherein: one side of the polyimide fiber layer (23) is connected to one side of the down feather layer (12) far away from the cotton layer (11) in a spinning mode.

6. The thermal insulation antistatic fabric according to claim 1, wherein: one side of the artificial fiber layer (24) is connected to one side of the polyimide fiber layer (23) far away from the down feather layer (12) in a spinning mode.