CN210520877U - Antistatic superfine fiber towel - Google Patents

Abstract

The utility model discloses an antistatic superfine fiber towel, which comprises a towel main body and a composite conductive layer, wherein the composite conductive layer contains conductive sponge and conductive gel, the towel main body has two layers, the two layers of towel main bodies are sewed by stitches, and the composite conductive layer is wrapped between the two layers of towel main bodies; meanwhile, the weaving material used by the towel main body is a twin-wire containing composite fiber, and the composite fiber contains carbon fiber leads and metal microspheres; and the conductive sponge comprises two layers, and porous carbon fiber cloth with high porosity is arranged between the two layers of conductive sponge. The utility model discloses an antistatic microfiber towel simple structure has excellent antistatic performance to, because the composite fiber who adds, electrically conductive sponge and high porosity porous carbon fiber cloth have excellent collapsible performance, consequently can make antistatic microfiber towel have better folding performance after adding the product.

Description

Antistatic superfine fiber towel

Technical Field

The utility model relates to a daily fabrics technical field specifically is an antistatic superfine fiber towel.

Background

The towel is a cleaning article and is characterized by being a square pure cotton textile, and the using method is to wring out and wipe the skin after wetting so as to achieve the effects of removing stains and cleaning and cooling.

The electrostatic phenomenon tends to make clothes stained with dust and dirt, close to the skin, and have a slight electric shock feeling. The related data show that static electricity has great harm to human body. The persistent static electricity can increase the alkalinity of blood, reduce the calcium content in serum and increase the calcium excretion in urine. Excessive static electricity is accumulated in the human body, and can also cause abnormal conduction of the current of the cerebral nerve cell membrane and influence the central nerve. Static electricity also interferes with the blood circulation, immunity and nervous system of the human body, and affects the normal operation of the organs. In flammable and explosive areas, people with static electricity can cause fire, and people working in a charged environment and an electromagnetic environment need to wear corresponding anti-static clothes to ensure safety.

The anti-static processing method of the fabric generally comprises the following steps: firstly, the fabric is subjected to after-treatment by using an antistatic finishing agent; secondly, fiber grafting modification and blending and interweaving of hydrophilic fibers for the purpose of improving the moisture absorption of the fabric; thirdly, blending or embedding the conductive fiber; the action mechanisms of the first two methods are to improve the moisture regain of the fabric, reduce the insulativity and accelerate the static leakage. Thus the processing effect is either not durable, or not noticeable, if in a dry environment or after multiple washings. Only the third method can solve the static problem of the textile with durability and high efficiency.

The first two methods are often used when the traditional towel is subjected to anti-static treatment, so that the towel does not have a long-acting anti-static effect, the anti-static effect of the towel can be effectively improved by using the third anti-static method, however, the towel treated by the third method is poor in use effect due to the fact that the towel needs to be continuously rubbed, and therefore the towel which can be folded at will and has a long anti-static property needs to be researched.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an antistatic superfine fiber towel to solve the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme:

the antistatic superfine fiber towel is characterized in that the composite conductive layer contains conductive sponge and conductive gel, and the addition of the composite conductive layer containing the conductive sponge and the conductive gel can ensure that the towel has better conductive performance under the condition of keeping the towel to be folded at will.

Preferably, the towel main body is formed by weaving twin-yarn yarns by a shuttle loom, and the towel main body comprises two layers, namely a first towel main body and a second towel main body.

Preferably, the double-stranded wire is formed by weaving superfine fibers and composite fibers; the outer layer of the composite fiber is polyester fiber, the inner side of the polyester fiber is spandex fiber, and the inner side of the spandex fiber is coated with carbon fiber short fiber and metal microspheres; the double-stranded yarn mixed by the superfine fiber and the composite fiber is adopted as the weaving material of the towel main body, so that the surface conductivity of the towel can be improved, and the spandex, the broken carbon fiber and the metal microspheres are added into the composite fiber, so that the composite fiber has the foldability similar to common fiber, and the practicability of the product is improved.

Preferably, the metal microspheres are any one of copper microspheres, aluminum microspheres or carbon steel microspheres, and the metal microspheres can be used as joint points for connecting carbon fibers, so that the carbon fibers have better foldability.

Preferably, the conductive gel is filled in the pore structure of the conductive sponge.

Preferably, the conductive sponge has two layers, namely a first conductive sponge and a second conductive sponge, and porous carbon fiber cloth is arranged between the first conductive sponge and the second conductive sponge; the porosity of the porous carbon fiber cloth is 70-80%.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model adds the composite conductive layer in the antistatic superfine fiber towel, firstly, the conductive sponge with the internal pore structure filled with the conductive gel is added in the composite conductive layer, because the conductive sponge has better water absorption, the water absorption performance of the product can be further improved, and the conductive sponge has excellent deformable performance and can be folded and bent at will under any condition, thereby after the conductive sponge is added in the product, the towel can have original foldable performance and has good antistatic performance, and simultaneously, the conductive gel is filled in the conductive sponge, therefore, when the conductive sponge is extruded, the conductive gel can be moved at will in the pore structure of the conductive sponge, thereby the product can have even antistatic performance, secondly, in the composite conductive layer, the porous carbon fiber cloth with high porosity is also added between two layers of conductive sponge, therefore, the antistatic property of the product can be improved, and the good folding property of the product can be kept.

(2) The utility model discloses add composite fiber in antistatic superfine fiber towel, on the one hand, metal microsphere has been added in the composite fiber, and the double fibre of metal microsphere is fixed in the junction of carbon fiber short fiber, thereby can make the carbon fiber short fiber have excellent foldability, and then make towel top layer fibre have excellent foldability under the prerequisite that has good antistatic properties, on the other hand, the spandex has been added in the cladding fiber in the carbon fiber short fiber outside, the spandex has better elasticity, thereby can make composite fiber keep the connected state of carbon fiber short fiber and metal microsphere at crooked in-process, and then improve the life of product.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

Fig. 1 is a schematic structural view of an antistatic ultrafine fiber towel according to the present invention;

FIG. 2 is a cross-sectional view of a twin wire of the antistatic microfiber towel of the present invention;

fig. 3 is a cross-sectional view of the composite fiber of the antistatic superfine fiber towel of the present invention;

fig. 4 is a cross-sectional view of the conductive sponge of the antistatic microfiber towel of the present invention.

In the figure: the towel comprises a towel body 1, a towel body 1-1, a first towel body 1-2, a second towel body 2, a composite conductive layer 2, a conductive sponge 3, a first conductive sponge 3-1, a second conductive sponge 3-2, a conductive gel 4, a superfine fiber 5, a composite fiber 6-1, a polyester fiber 6-2, a spandex fiber 6-3, a carbon fiber short fiber 6-4, a metal microsphere 7 and a porous carbon fiber cloth.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, 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 work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, an antistatic ultrafine fiber towel includes a towel main body 1 and a composite conductive layer 2, wherein the composite conductive layer 2 includes a conductive sponge 3 and a conductive gel 4.

The towel comprises a towel main body 1, a towel cover and a towel cover, wherein the towel main body 1 is formed by weaving twin yarns through a shuttle loom, and the towel main body 1 comprises two layers, namely a first towel main body 1-1 and a second towel main body 1-2; the first towel main body 1-1 and the second towel main body 1-2 are sewed through a sewing thread, and the composite conductive layer is wrapped between the first towel main body 1-1 and the second towel main body 1-2.

Wherein, the bifilar yarn is formed by weaving superfine fiber 5 and composite fiber 6; the outer layer of the composite fiber 6 is polyester fiber 6-1, the inner side of the polyester fiber 6-1 is spandex fiber 6-2, and the inner side of the spandex fiber 6-2 is coated with carbon fiber short fiber 6-3 and metal microspheres 6-4.

Wherein, the metal microspheres 6-4 are carbon steel microspheres.

Wherein, the conductive gel 4 is filled in the pore structure of the conductive sponge 3.

The conductive sponge 3 is provided with two layers, namely a first conductive sponge 3-1 and a second conductive sponge 3-2, and porous carbon fiber cloth 7 is arranged between the first conductive sponge 3-1 and the second conductive sponge 3-2; the porosity of the porous carbon fiber cloth 7 was 70%.

The utility model discloses a theory of operation is: when the antistatic superfine fiber towel designed by the utility model is used, firstly, because the towel main body 1 is woven by the twin-wire, and the twin-wire is woven by the superfine fiber 5 and the composite fiber 6, in the using process of the product, electrons generated by the towel main body can be uniformly dispersed in the product through the carbon fiber short fiber 6-3 and the metal microsphere 6-4 in the composite fiber 6, thereby preventing the accumulation of the electrons, and further improving the antistatic property of the product, and because the metal microsphere 6-4 exists, the carbon fiber short fiber 6-3 in the composite fiber 6 can have excellent foldability, thereby having better service performance; secondly, the composite conductive layer 2 is arranged between the first towel main body 1-1 and the second towel main body 1-2, and the composite conductive layer 2 comprises the conductive sponge 3 and the conductive gel 4, so that electrons can be further dispersed by the conductive sponge 3 and the conductive gel 4 in the using process of a product, the accumulation of electrons in the towel is prevented, the product has better antistatic performance, the conductive sponge 3 can be bent and folded randomly under the action of force, and meanwhile, the conductive gel 4 can be uniformly dispersed under the action of pressure, so that the antistatic performance of the towel is improved, the service performance of the product is further improved, and the carbon fiber short fibers in the composite fibers and the conductive sponge 3 can keep long-acting conductive performance, so that the product has long-acting antistatic performance, and the service life of the product is prolonged; the conductive materials in the conductive sponge 2 and the towel body 1 are conductive during the process of soaking and drying the towel, so that the product has long-term conductivity.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (4)

1. The antistatic superfine fiber towel comprises a towel main body (1) and a composite conductive layer (2), and is characterized in that the composite conductive layer (2) contains conductive sponge (3) and conductive gel (4), the towel main body (1) is formed by weaving a bifilar yarn through a shuttle loom, the towel main body (1) contains two layers, namely a first towel main body (1-1) and a second towel main body (1-2), the bifilar yarn is formed by weaving superfine fibers (5) and composite fibers (6), the outer layer of the composite fibers (6) is polyester fibers (6-1), the inner side of the polyester fibers (6-1) is spandex fibers (6-2), and the inner side of the spandex fibers (6-2) is coated with carbon fiber short fibers (6-3) and metal microspheres (6-4).

2. The antistatic ultrafine fiber towel as claimed in claim 1, wherein the metal microspheres (6-4) are any one of copper microspheres, aluminum microspheres or carbon steel microspheres.

3. The antistatic ultrafine fiber towel according to claim 1, wherein the conductive gel (4) is filled in the pore structure of the conductive sponge (3).

4. The antistatic ultrafine fiber towel as claimed in claim 1, wherein the conductive sponge (3) has two layers, namely a first conductive sponge (3-1) and a second conductive sponge (3-2), and a porous carbon fiber cloth (7) is arranged between the first conductive sponge (3-1) and the second conductive sponge (3-2); the porosity of the porous carbon fiber cloth (7) is 70-80%.

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