CN210821235U - Antistatic blended fabric - Google Patents

Abstract

The utility model discloses an antistatic blended fabric, which belongs to the technical field of textile, and comprises a cotton spinning layer, wherein a non-woven fabric layer A and a non-woven fabric layer B are interwoven on two sides of the cotton spinning layer, a silver ion antibacterial layer B is interwoven on the outer side of the non-woven fabric layer A, a silver ion antibacterial layer A is interwoven on the outer side of the non-woven fabric layer B, a fluorescent fabric is sewed on the outer side of the silver ion antibacterial layer B, a cashmere fabric is sewed on the outer side of the silver ion antibacterial layer A, the antibacterial agent is directly made into chemical fibers by adopting a spinning-level antibacterial technology through the arrangement of the silver ion antibacterial layer A and the silver ion antibacterial layer B, the antibacterial layer A and the non-woven fabric layer B are blended to form an antibacterial layer, the antibacterial layer can eliminate peculiar smell generated by bacteria through sterilization, and keep the fabric clean, solves the problem of peculiar smell caused by the propagation of bacteria in the fabric.

Description

Antistatic blended fabric

Technical Field

The utility model relates to the field of textile technology, especially, relate to an antistatic blending fabric.

Background

The fabric is a product formed by weaving textile fibers, and is divided into woven fabric and knitted fabric, China is one of the earliest countries producing textiles in the world, the main production places are Zhejiang Pu institute, Hebei Qinghe and the like, the correct stacking method of the textiles is to select the places which are favorable for ventilation and convenient for fire prevention, the all-cotton fabric is preferably placed in places with good ventilation, such as places away from a door and nearest to a window, the width of the door is one meter, the width of the door is a conventional width of the door, the 2 nd layer is placed in a row in a rolling mode from 6 to 7, the 2 nd layer is placed in a vertical mode, the quantity is the same as that of the bottom, the 3 rd layer is placed in a horizontal mode, the quantity.

1. The antistatic blended fabric in the prior art has no antibacterial effect, and can cause odor on the surface of the fabric to affect wearing of people due to bacteria adsorption and reproduction when the fabric is worn for a long time.

2. The single-layer tensile resistance of the fabric of the antistatic blended fabric in the prior art is low, when a person pulls the stretched antistatic blended fabric, the fabric is partially torn, the use of a consumer is influenced, the existing antistatic fabric only conducts antistatic on the surface layer of the fabric when weaving antistatic fibers, and the additional layer inside the fabric is not subjected to antistatic treatment, so that the inside of the fabric can still be injured by static electricity when clothes are worn.

3. The fabric of the antistatic blended fabric in the prior art has no anti-combustion effect, and when the antistatic blended fabric is used for manufacturing antistatic fire-fighting clothing, the antistatic blended fabric is easy to burn in case of fire, and cannot adapt to the long-term work of firemen in high-temperature fire.

4. Most of fabrics of antistatic blended fabrics in the prior art are single-layer fabrics, so that consumers can be attacked by cold air when wearing the antistatic blended fabrics in cold winter, the wearing bodies are cooled, and diseases are easy to occur.

SUMMERY OF THE UTILITY MODEL

The utility model provides an antistatic blending fabric, it is through being equipped with the antibiotic layer A of silver ion and the antibiotic layer B of silver ion, adopt the antibiotic technique of spinning level to directly do the chemical fiber the inside to the antiseptic, then make the antibiotic layer A of silver ion that the fibre was interweaved into and silver ion antibiotic layer B and non-woven fabrics layer A carry out the blending and form antibiotic layer, antibiotic layer can eliminate the peculiar smell that produces because of the bacterium through the sterilization, make the fabric keep clean and tidy, the peculiar smell problem that the bacterium breeds and brings in the surface fabric has been solved, it is through being equipped with non-woven fabrics layer A and non-woven fabrics layer B, it has powerful fiber's non-woven fabrics layer A and non-woven fabrics layer B to interweave the blending in the both sides on cotton spinning layer, promote the whole tensile power of stretching resistance of antistatic blending fabric, the fibre of having solved antistatic blending fabric is tearing problem when dragging the atress too big, and the dacron long silk and the conducting fiber that interweave The static electricity is led out, the problem that the human body is injured by static electricity generated by an additional fabric inside the clothes is solved, the antistatic blended fabric is provided with an aramid fiber flame-retardant layer A and an aramid fiber flame-retardant layer B, the aramid fiber flame-retardant layer A is interwoven between a silver ion antibacterial layer A and a cashmere fabric, the aramid fiber flame-retardant layer B is interwoven between the silver ion antibacterial layer B and a fluorescent cloth, the phosphorus flame-retardant layer A and the aramid fiber flame-retardant layer B containing phosphorus flame retardants form a high-temperature-resistant layer on the surface layers of the aramid fiber flame-retardant layer A and the aramid fiber flame-retardant layer B when encountering fire, the phosphorus flame-retardant layer forms a high-temperature-resistant layer on the surface layers of the aramid fiber flame-retardant layer A and the aramid fiber flame-retardant layer B, the cloth is prevented from burning, the problem that the antistatic blended fabric cannot prevent fire when being used for manufacturing the fire-fighting clothes is solved, the cashmere fabric is sewn on, the windproof and heat-insulating fabric also plays a certain role in wind prevention and heat insulation, and solves the problem that the single-layer antistatic blended fabric cannot resist cold when being worn in winter.

The utility model provides a specific technical scheme as follows:

the utility model provides a pair of antistatic blending fabric, including the cotton layer of spinning, the both sides interweaving on cotton layer has non-woven fabrics layer A and non-woven fabrics layer B, non-woven fabrics layer A's outside blending has the antibiotic layer B of silver ion, non-woven fabrics layer B's outside blending has the antibiotic layer A of silver ion, fluorescent cloth has been sewed up in the antibiotic layer B's of silver ion outside, cashmere surface fabric has been sewed up in the antibiotic layer A's of silver ion outside, there have dacron filament and conductive fiber around longitude and latitude line direction vertically and horizontally interweaving between non-woven fabrics layer A, non-woven fabrics layer B, the antibiotic layer A of silver ion, the antibiotic layer B of silver ion, fluorescent cloth and the cashmere surface fabric.

Optionally, adhesive glue is coated between the non-woven fabric layer a, the non-woven fabric layer B, the silver ion antibacterial layer a and the silver ion antibacterial layer B.

Optionally, an aramid flame-retardant layer a is interwoven between the silver ion antibacterial layer a and the cashmere fabric, and an aramid flame-retardant layer B is interwoven between the silver ion antibacterial layer B and the fluorescent cloth.

The utility model has the advantages as follows:

1. the utility model discloses a be equipped with the antibiotic layer A of silver ion and the antibiotic layer B of silver ion, adopt the antibiotic technique of spinning level directly to be the chemical fiber the inside to the antiseptic, then make the antiseptic the antibiotic layer A of silver ion and the antibiotic layer B of non-woven fabrics layer B of fiber interweaving and non-woven fabrics layer A carry out the blending and form antibiotic layer, antibiotic layer can eliminate the peculiar smell that produces because of the bacterium through the sterilization, make the fabric keep clean and tidy, the peculiar smell problem that the bacterium breeds and bring in the surface fabric has been solved.

2. The utility model discloses a be equipped with non-woven fabrics layer A, non-woven fabrics layer B, polyester filament and conductive fiber, the blending that interweaves in the both sides on cotton spinning layer has powerful fibrous non-woven fabrics layer A and non-woven fabrics layer B, promote the whole anti-tensile power of tearing of antistatic blending fabric, the fibre of having solved antistatic blending fabric is dragging the tearing problem when the atress is too big, and the polyester filament and the conductive fiber who interweave between fabric top surface fabric and inlayer surface fabric can derive the static that the inboard additional surface fabric of fabric produced, the inside additional surface fabric of clothing produces the problem that the static struck the human body of having solved.

3. The utility model discloses a be equipped with fire-retardant layer A of aramid fiber and the fire-retardant layer B of aramid fiber, it has fire-retardant layer A of aramid fiber to have interweaved between antibiotic layer A of silver ion and cashmere surface fabric, it has fire-retardant layer B of aramid fiber to have interweaved between antibiotic layer B of silver ion and fluorescence cloth, the fire-retardant layer A of aramid fiber and the fire-retardant layer B of aramid fiber that contain phosphorus series flame retardant are when meeting the conflagration, phosphorus series flame retardant form high temperature resistant layer on the top layer of fire-retardant layer A of aramid fiber and the fire-retardant layer B of aramid fiber, prevent the cloth burning, the problem of unable fire prevention when having solved antistatic blending.

4. The utility model discloses a be equipped with the cashmere surface fabric, sewed up the cashmere surface fabric in the outside of the antibiotic layer A of silver ion, high heat retaining cashmere surface fabric has good heat preservation effect with the contact of wearing personnel skin, and the gas permeability is not high between the multilayer surface fabric of antistatic blended fabric, has also played certain prevent wind heat preservation effect, has solved the problem that the unable cold-resistant is dressed in winter to the antistatic blended fabric of individual layer.

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 an overall fabric interweaving schematic diagram of the antistatic blended fabric according to the embodiment of the present invention.

Fig. 2 is a schematic view of the conductive fabric interweaving of the antistatic blended fabric according to the embodiment of the present invention.

In the figure: 1. a cotton-spun layer; 2. adhesive glue; 3. a silver ion antibacterial layer A; 4. a silver ion antibacterial layer B; 5. a non-woven fabric layer A; 6. a non-woven fabric layer B; 7. polyester filament yarn; 8. a conductive fiber; 9. an aramid flame-retardant layer A; 10. an aramid flame-retardant layer B; 11. a wool heat-insulating layer; 12. fluorescent cloth.

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 blended 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 and 2, an antistatic blended fabric provided by an embodiment of the present invention includes a cotton layer 1, a non-woven fabric layer a5 and a non-woven fabric layer B6 are interwoven on two sides of the cotton layer 1, a silver ion antibacterial layer B4 is interwoven on the outer side of the non-woven fabric layer a5, a silver ion antibacterial layer A3 is interwoven on the outer side of the non-woven fabric layer B6, a fluorescent fabric 12 is sewed on the outer side of the silver ion antibacterial layer B4, a cashmere fabric 11 is sewed on the outer side of the silver ion antibacterial layer A3, and a polyester filament 7 and a conductive fiber 8 are interwoven around the warp and weft directions between the non-woven fabric layer a5, the non-woven fabric layer B6, the silver ion antibacterial layer A3, the silver ion antibacterial layer B4, the fluorescent fabric 12, and the cashmere fabric 11.

In an example, a silver ion antibacterial layer A3 and a silver ion antibacterial layer B4 which are made of antibacterial agents and interwoven with fibers are blended with a non-woven fabric layer B6 and a non-woven fabric layer A5 to form the antibacterial layers, the non-woven fabric layer A5 and the non-woven fabric layer B6 which are blended with strong fibers are interwoven on two sides of the cotton spinning layer 1, the integral tensile resistance of the antistatic blended fabric is improved, and the fluorescent cloth 12 is sewn on the outer side of the silver ion antibacterial layer B4 to increase the surface color brightness of the antistatic blended fabric.

Referring to fig. 1, adhesive glue 2 is coated between the non-woven fabric layer a5, the non-woven fabric layer B6, the silver ion antibacterial layer A3 and the silver ion antibacterial layer B4.

For example, the adhesive 2 between the non-woven fabric layer a5, the non-woven fabric layer B6, the silver ion antibacterial layer A3 and the silver ion antibacterial layer B4 is the adhesive 2 made of seaweed glue and PVA mixed slurry, and the interweaving tightness degree between fabrics can be increased.

Referring to fig. 1, an aramid flame-retardant layer a9 is interwoven between the silver ion antibacterial layer A3 and the cashmere fabric 11, and an aramid flame-retardant layer B10 is interwoven between the silver ion antibacterial layer B4 and the fluorescent cloth 12.

In the case of fire, the phosphorus flame retardant agent forms a high temperature resistant layer on the surface layers of the aramid flame retardant layer a and the aramid flame retardant layer B to prevent the fabric from burning.

When the antistatic blended fabric is used, clothing is made of the antistatic blended fabric through clothing making equipment, the clothing is worn on a body, an antibacterial agent in the fabric is made into a silver ion antibacterial layer A3 and a silver ion antibacterial layer B4 which are interwoven with fibers, a non-woven fabric layer B6 and a non-woven fabric layer A5 are blended to form the antibacterial layer, the antibacterial layer can eliminate peculiar smell generated by bacteria through sterilization to keep the fabric clean, the non-woven fabric layer A5 and a non-woven fabric layer B6 which are interwoven with strong fibers on two sides of a cotton spinning layer 1 to improve the integral tensile strength of the antistatic blended fabric, an aramid fiber flame-retardant layer A9 is interwoven between a silver ion antibacterial layer A3 and a cashmere fabric 11, an aramid fiber flame-retardant layer B10 is interwoven between a silver ion antibacterial layer B4 and a fluorescent fabric 12, and an aramid fiber flame-retardant layer A9 and an aramid fiber flame-retardant layer B10 containing phosphorus flame-retardant form a high-temperature resistant layer on the surface layers of the aramid fiber-retardant layer A9 and the flame-retardant layer B10, the cashmere fabric 11 is sewn on the outer side of the silver ion antibacterial layer A3, the cashmere fabric 11 with high heat preservation has good heat preservation effect when being contacted with skin of a wearer, the air permeability among multiple layers of fabrics of the antistatic blended fabric is not high, and a certain windproof heat preservation effect is achieved, the adhesive 2 between the non-woven fabric layer A5, the non-woven fabric layer B6, the silver ion antibacterial layer A3 and the silver ion antibacterial layer B4 is the adhesive 2 made of seaweed glue and PVA mixed pulp, the interweaving tightness among the fabrics can be increased, the fluorescent cloth 12 is sewn on the outer side of the silver ion antibacterial layer B4 to increase the surface color brightness of the antistatic blended fabric, and the polyester filament 7 and the conductive fiber 8 interwoven among the multiple layers of fabrics can lead out the static electricity of the inner-layer additional fabrics, so that the static electricity is prevented from damaging a human body.

It should be noted that, the utility model relates to an antistatic blending fabric, including cotton spinning layer 1, adhesive glue 2, the antibiotic layer A3 of silver ion, the antibiotic layer B4 of silver ion, non-woven fabrics layer A5, non-woven fabrics layer B6, polyester filament 7, conductive fiber 8, the fire-retardant layer A9 of aramid fiber, the fire-retardant layer B10 of aramid fiber, cashmere surface fabric 11, fluorescent cloth 12, surface fabric layer and material are the general surface fabric of textile field or surface fabric and material that technical staff in the field knows, its interweave structure and surface fabric blending principle all can learn through the technical manual or learn through conventional experimental method for this technical staff.

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 (3)

1. An antistatic blended fabric comprises a cotton spinning layer (1), and is characterized in that: the cotton-wool blended fabric comprises a cotton-wool layer (1), a non-woven fabric layer A (5) and a non-woven fabric layer B (6) are interwoven on two sides of the cotton-wool layer (1), a silver ion antibacterial layer B (4) is interwoven on the outer side of the non-woven fabric layer A (5), a silver ion antibacterial layer A (3) is interwoven on the outer side of the non-woven fabric layer B (6), a fluorescent fabric (12) is sewn on the outer side of the silver ion antibacterial layer B (4), a cashmere fabric (11) is sewn on the outer side of the silver ion antibacterial layer A (3), and polyester filaments (7) and conductive fibers (8) are interwoven among the non-woven fabric layer A (5), the non-woven fabric layer B (6), the silver ion antibacterial layer A (3), the silver ion antibacterial layer B (4), the fluorescent fabric (12) and the cashmere fabric (11).

2. An antistatic blended fabric according to claim 1, wherein: adhesive glue (2) is coated among the non-woven fabric layer A (5), the non-woven fabric layer B (6), the silver ion antibacterial layer A (3) and the silver ion antibacterial layer B (4).

3. An antistatic blended fabric according to claim 1, wherein: an aramid flame-retardant layer A (9) is interwoven between the silver ion antibacterial layer A (3) and the cashmere fabric (11), and an aramid flame-retardant layer B (10) is interwoven between the silver ion antibacterial layer B (4) and the fluorescent cloth (12).

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