CN211066084U - Anti-static carpet - Google Patents

Abstract

The utility model relates to the technical field of carpets, in particular to an anti-static carpet, which comprises an anti-slip bottom layer, a first conductive fiber non-woven fabric layer, a base layer, a conductive soft layer, a second conductive fiber non-woven fabric layer and a surface velvet layer, wherein a plurality of first conductive rods are arranged inside the anti-slip bottom layer, the top surface of the anti-slip bottom layer is bonded with the first conductive fiber non-woven fabric layer, and the top surface of the first conductive fiber non-woven fabric layer is bonded with the base layer, the utility model has strong practicability, and the static electricity on the surface of the carpet can be rapidly and effectively conducted to the ground bottom by arranging the second conductive fiber non-woven fabric layer, the conductive soft layer, the second conductive rods, a first conductive branch line, a second conductive branch line, the first conductive fiber non-woven fabric layer and the first conductive rods, thereby not only avoiding the electrostatic damage to users, but also preventing the dust from being accumulated on the carpet and further reducing the cleaning difficulty, in addition, the phenomenon that a large amount of static electricity is accumulated to generate sparks easily is effectively avoided, and therefore the risk of fire is reduced.

Description

Anti-static carpet

Technical Field

The utility model belongs to the technical field of the carpet technique and specifically relates to an antistatic carpet.

Background

The carpet is a ground laying object made of natural fibers or chemical synthetic fibers such as cotton, hemp, wool, silk and grass yarn through manual or mechanical knitting, tufting or weaving. It is one of the traditional arts with a long history worldwide. The floor covering is covered on the ground of houses, hotels, meeting rooms, entertainment places, gymnasiums, exhibition halls, vehicles, ships, airplanes and the like, and has the effects of reducing noise, insulating heat, improving foot feel, preventing slipping and preventing air pollution. The using areas in the house are kitchen, bedroom, bedside, tea table, sofa, toilet and living room. Even carpets made using the same manufacturing process produce carpets with different appearance effects due to the use of raw materials, pile form, pile height, hand, texture, and density.

The existing carpet surface fluff is generally dense, and in the process of repeated use of the carpet, the fluff on the carpet surface can generate a large amount of static electricity, so that static electricity can be brought to users to cause electrostatic damage, the static electricity can generate adsorption to dust, the dust is very easy to accumulate on the carpet, the carpet is difficult to clean, in addition, a large amount of static electricity is easy to accumulate to generate sparks, and therefore the risk of fire disasters is increased. Based on this, we propose an antistatic carpet to solve the deficiencies of the prior art.

Disclosure of Invention

The utility model provides a to prior art not enough, the utility model provides a prevent static carpet, this carpet can effectively solve the problem that above-mentioned background art provided through simple structural design.

The technical scheme of the utility model is that:

an antistatic carpet, characterized in that: it includes anti-skidding bottom, first conductive fiber non-woven fabrics layer, basic unit, electrically conductive soft layer, second conductive fiber non-woven fabrics layer and facial hair layer, the inside of anti-skidding bottom is provided with a plurality of first conducting rods, the top surface of anti-skidding bottom bonds and has first conductive fiber non-woven fabrics layer, the top surface of first conductive fiber non-woven fabrics layer bonds and has the basic unit, the basic unit is formed by nylon fiber, ya keli fibre and polypropylene fibre through the combination of weaving process, the inside of basic unit is provided with a plurality of second conducting rods and the bottom of second conducting rod is connected with first conductive fiber non-woven fabrics layer, the outside of second conducting rod has welded respectively from top to bottom has a plurality of first electrically conductive separated time and a plurality of electrically conductive separated time of second, the other end of first electrically conductive separated time and electrically conductive separated time of second is connected with first conductive fiber non-woven fabrics layer respectively, the top surface of basic unit bonds and has electrically conductive soft layer, the top end of the second conductive rod is connected with the conductive soft layer, the top surface of the conductive soft layer is bonded with a second conductive fiber non-woven fabric layer, and the top surface of the second conductive fiber non-woven fabric layer is bonded with a surface velvet layer.

Through adopting above-mentioned technical scheme, after the fine hair on carpet surface produced static, at first conduct the static to the electrically conductive soft layer through second conductive fiber non-woven fabrics layer, then, conduct static to first conductive fiber non-woven fabrics layer again through the inside second conducting rod of basic unit, wherein, set up the first electrically conductive separated time and the electrically conductive separated time of second on the second conducting rod and can further transmit static fast, and finally, static is in the ground through first conducting rod conduction.

Furthermore, the material of antiskid bottom is anti-skidding silica gel.

By adopting the technical scheme, the anti-slip silica gel has better anti-slip performance, and when a user tramples on the surface of the carpet, the anti-slip strip can effectively prevent the carpet from shifting and deviating.

Furthermore, the first conductive fiber non-woven fabric layer and the second conductive fiber non-woven fabric layer are formed by inserting and arranging conductive fibers in non-woven fabric through a weaving process.

By adopting the technical scheme, the conductive fibers generally refer to fibers with the conductivity of more than 10-7 omega/cm, and the fibers have good conductivity and durability, particularly have good durable antistatic property under low humidity, so the conductive fibers have great application in the fields of industry, civil use and the like. Therefore, the conductive fiber is woven in the non-woven fabric, and meanwhile, the non-woven fabric of the conductive fiber has better conductivity.

Furthermore, the conductive soft layer adopts PU conductive sponge.

Through adopting above-mentioned technical scheme, set up the electrically conductive sponge of PU, not only can regard as the electrically conductive medium between second conductive fiber non-woven fabrics layer and the basic unit, moreover, the compliance on this layer is higher, can increase the comfort that the user trampled when the carpet.

Furthermore, the first conductive rod, the second conductive rod, the first conductive branch line and the second conductive branch line are all made of pure copper.

Through adopting above-mentioned technical scheme, adopt pure copper, mainly because pure copper's wire performance is higher, can transmit static fast.

Furthermore, the surface pile layer is composed of densely distributed piles.

Through adopting above-mentioned technical scheme, set up the fine hair of densely covered, can bring very high comfort level for the user, improve experience and feel.

The utility model has the advantages that: the utility model discloses simple structure, the practicality is strong, through being equipped with second conductive fiber non-woven fabrics layer, electrically conductive soft layer, the second conducting rod, first electrically conductive separated time, the electrically conductive separated time of second, first conductive fiber non-woven fabrics layer and first conducting rod, can be rapidly effectively with the static conduction on carpet surface to the ground on, not only avoid bringing the static injury for the user, moreover, can prevent that the dust from piling up on the carpet, and then reduce the clean degree of difficulty, in addition, still effectively avoided a large amount of static aggregations to produce the spark easily, thereby reduced the risk of causing the conflagration.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1, a non-slip bottom layer; 2. a first conductive fiber nonwoven layer; 3. a base layer; 4. a conductive soft layer; 5. a second conductive fiber nonwoven layer; 6. a pile layer; 7. a first conductive rod; 8. a second conductive rod; 9. a first conductive branch line; 10. a second conductive branch line; 11. and (3) fluff.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

as shown in fig. 1, an antistatic carpet, it includes anti-skidding bottom 1, first conductive fiber non-woven fabrics layer 2, basic unit 3, electrically conductive soft layer 4, second conductive fiber non-woven fabrics layer 5 and facial hair layer 6, the inside of anti-skidding bottom 1 is provided with a plurality of first conducting rod 7, the top surface of anti-skidding bottom 1 bonds and has first conductive fiber non-woven fabrics layer 2, the top surface of first conductive fiber non-woven fabrics layer 2 bonds and has basic unit 3, basic unit 3 is formed through weaving technology combination by nylon fiber, ya keli fibre and polypropylene fibre, the inside of basic unit 3 is provided with the bottom and is connected with first conductive fiber non-woven fabrics layer 2 of a plurality of second conducting rod 8 and second conducting rod 8, the outside of second conducting rod 8 welds respectively from top to bottom has a plurality of first conductive separated time 9 and a plurality of second conductive separated time 10 of a plurality of first conductive separated time 9 and the conductive separated time 10 of second, the other end of first conductive separated time 9 and the conductive separated time 10 of second is connected with first conductive fiber non-woven fabrics layer 2 respectively And a conductive soft layer 4 is bonded on the top surface of the base layer 3, the top end of the second conductive rod 8 is connected with the conductive soft layer 4, a second conductive fiber non-woven fabric layer 5 is bonded on the top surface of the conductive soft layer 4, and a surface pile layer 6 is bonded on the top surface of the second conductive fiber non-woven fabric layer 5.

The material of antiskid bottom layer 1 is anti-skidding silica gel.

The first conductive fiber non-woven fabric layer 2 and the second conductive fiber non-woven fabric layer 5 are both formed by inserting conductive fibers into non-woven fabric through a weaving process.

The conductive soft layer 4 is made of PU conductive sponge.

The first conductive rod 7, the second conductive rod 8, the first conductive branch 9 and the second conductive branch 10 are all made of pure copper.

The surface pile layer 6 is composed of densely distributed piles 11.

The utility model discloses a conductive process does: after the fluff 11 on the surface of the carpet generates static electricity, the static electricity is firstly conducted to the conductive soft layer 4 through the second conductive fiber non-woven fabric layer 5, then the static electricity is conducted to the first conductive fiber non-woven fabric layer 2 through the second conductive rod 8 inside the base layer 3, wherein the first conductive branch 9 and the second conductive branch 10 which are arranged on the second conductive rod 8 can further rapidly transmit the static electricity, and finally the static electricity is conducted to the ground bottom through the first conductive rod 7.

The foregoing embodiments and description have been provided to illustrate the principles and preferred embodiments of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

Claims (6)

1. An antistatic carpet, characterized in that: it comprises an anti-slip bottom layer (1), a first conductive fiber non-woven fabric layer (2), a base layer (3), a conductive soft layer (4), a second conductive fiber non-woven fabric layer (5) and a surface velvet layer (6), wherein a plurality of first conductive rods (7) are arranged in the anti-slip bottom layer (1), the first conductive fiber non-woven fabric layer (2) is bonded on the top surface of the anti-slip bottom layer (1), the base layer (3) is bonded on the top surface of the first conductive fiber non-woven fabric layer (2), the base layer (3) is formed by combining nylon fibers, acrylic fibers and polypropylene fibers through a weaving process, a plurality of second conductive rods (8) are arranged in the base layer (3), the bottom ends of the second conductive rods (8) are connected with the first conductive fiber non-woven fabric layer (2), a plurality of first conductive branch lines (9) and a plurality of second conductive branch lines (10) are welded on the outer side of the second conductive rods (8) from top to bottom respectively, the other end of the first conductive branch (9) and the other end of the second conductive branch (10) are respectively connected with the first conductive fiber non-woven fabric layer (2), the top surface of the base layer (3) is bonded with the conductive soft layer (4), the top end of the second conductive rod (8) is connected with the conductive soft layer (4), the top surface of the conductive soft layer (4) is bonded with the second conductive fiber non-woven fabric layer (5), and the top surface of the second conductive fiber non-woven fabric layer (5) is bonded with the surface velvet layer (6).

2. An antistatic carpet as claimed in claim 1 wherein: the anti-slip bottom layer (1) is made of anti-slip silica gel.

3. An antistatic carpet as claimed in claim 2 wherein: the first conductive fiber non-woven fabric layer (2) and the second conductive fiber non-woven fabric layer (5) are formed by inserting conductive fibers into non-woven fabric through a weaving process.

4. An antistatic carpet as claimed in claim 3 wherein: the conductive soft layer (4) is made of PU conductive sponge.

5. An antistatic carpet as claimed in claim 4 wherein: the first conductive rod (7), the second conductive rod (8), the first conductive branch line (9) and the second conductive branch line (10) are all made of pure copper.

6. An antistatic carpet as claimed in claim 5 wherein: the surface fluff layer (6) is composed of densely distributed fluff (11).

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