KR20190089239A - Conductive sheet coated with antistatic coating composition and method for producing the sheet - Google Patents

Abstract

The present invention relates to a conductive sheet coated with an antistatic coating composition and a manufacturing method thereof. An objective of the present invention is to provide a conductive sheet coated with an antistatic coating composition and a manufacturing method thereof which produce an antistatic coating composition by using Schungite mineral as a main additive component, use the produced antistatic coating composition to form a patterned conductive layer of various decorative designs on a sheet member, induce and allow harmful current, electromagnet wave, and static electricity to flow to the ground by the formed patterned conductive layer to stably induce and offset various harmful waves having adverse effects on the body of a user, exterminate various harmful bacteria, and perform antibacterial and deodorizing functions to provide the body of the user with benefits. Therefore, to achieve objective, the conductive sheet coated with an antistatic coating composition comprises: a sheet member having an antimicrobial composition impregnated into sheet fabric made of any one material among a fabric, a synthetic resin, and an artificial leather material; and a patterned conductive layer of a decorative design to use Schungite powder, precious serpentine powder, pozzolan powder, talc powder, and an antistatic coating composition mixed and composed by natural binding on the entire surface of the sheet member impregnated with the antimicrobial composition, and induce a current.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a conductive sheet coated with an antistatic coating composition and a method for producing the sheet,

The present invention relates to a conductive sheet having a harmful electromagnetic wave and an electrostatic induction canceling function, and more particularly to a conductive sheet having a carbone amorphous substance (Schungite mineral), which is a natural nano- An antistatic coating composition is produced and the resulting antistatic coating material is printed or applied in a variety of decorative patterns such as an industrial pad for a special purpose industrial purpose pad or a construction finish material as well as a covering material for an electric heating mat to produce static electricity and electromagnetic waves The present invention relates to a conductive sheet on which an antistatic coating composition is applied so as to stably induce and offset the conductive sheet and a method for producing the sheet.

Today, the massive diffusion of high-tech devices due to industrial development, for example, the use of various household appliances and communication devices, makes life of people more convenient and enriched. However, behind that, It can be seen that the cause of the harmful factor, that is, the problem of coexistence of the electromagnetic waves, is given.

Such electromagnetic waves are used for electric power generation, transmission, and wavelengths that occur when the electric power is used, for example, household electric appliances such as televisions, microwave ovens, electric heating mats, wired / wireless communication devices such as smart phones, computers, And other industrial equipment, etc., such harmful waves occur when the electromagnetic wave is adversely affecting the hormone secretion system or immune cells in the human body. Therefore, the user's body is exposed to electromagnetic waves for a long time In addition, changes in body temperature and bodily rhythm cause side effects such as headache, sleeping disorder, memory loss, and even cause leukemia, brain tumor, breast cancer, dementia, male infertility and the like.

Recently, as a method for safely protecting the user's body from harmful electromagnetic waves as described above, there has been proposed a method for manufacturing a material for a smack and an electromagnetic wave registered in the Korean Intellectual Property Office (Patent Registration No. 0298832) "Electron and Sulfate Absorbing Neutralizing Composition and Method for Producing the Same" (Patent Registration No. 0491983).

However, such pre-registration technologies take a constituent material for blocking harmful electromagnetic waves, for example, as a kind of basic raw material composition for selectively applying to various products in various industrial fields, It is necessary to provide a separate process technology or equipment in accordance with the characteristics of the mass-produced products. In particular, if the products to which the control substances are added and those that do not are specifically limited or unspecified, There is a problem that it is only confused with the question of selecting the use of such a composition material in which way and in which way it is to be mass-produced as a specified product, and the use efficiency is extremely lowered .

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the conventional problems of conventional harmful electromagnetic wave shielding members,

It is an object of the present invention to provide a natural mineral substance of a carbone amorph component which not only stably absorbs and neutralizes static electricity and electromagnetic waves harmful to a human body but also has properties such as adsorption, Schungite mineral as a main additive component, an antistatic coating composition is produced, and a patterned conductive layer of various ornamental patterns is formed on a sheet made of a fabric, synthetic resin, artificial leather or the like using the antistatic coating composition The patterned conductive layer thus formed functions as a grounding electrode for flowing a harmful current, an electromagnetic wave, and static electricity to the ground, thereby stably inducing and canceling harmful harmful influences to the user's body , As well as the eradication of various harmful microbes, antibacterial and deodorizing functions, From the factors, the anti-charging a human body to protect the user stably the coating composition to provide a method of producing a conductive coating sheet and the sheet.

Another object of the present invention is to provide an antistatic coating composition which is obtained by cutting a coated sheet in a size and shape according to the user's need and by cutting the cut sheet into a product for household use or various industrial products such as an electric heating mat, An antistatic coating composition which can be applied to a wide range of industrial fields ranging from pallets to mouse pads and architectural finishing materials to be utilized for various purposes and purposes to greatly improve versatility, use efficiency, functionality and economy And a method for producing the sheet.

In order to accomplish the above objects, there is provided a conductive sheet having an antistatic coating composition applied thereto according to the present invention and a method for producing the sheet.

A sheet member made of a material selected from the group consisting of a fabric, a synthetic resin, and an artificial leather material and impregnated with an antimicrobial composition on the sheet fabric; and a shigid powder, , Pozzolana powder. An antistatic coating composition mixed with talc powder and natural binding is used to form a patterned conductive layer of an ornamental pattern to induce an electric current.

As described above, the conductive sheet coated with the antistatic coating composition according to the present invention and the method for producing the sheet are produced by using Schungite mineral as a main additive component to produce an antistatic coating composition, A patterned conductive layer of various ornamental patterns is formed on a sheet member made of a fabric, synthetic resin, artificial leather material or the like by using a composition, and ground electrodes for flowing static electricity and harmful electromagnetic waves to the ground by the formed patterned conductive layer And also makes it possible to combine antibacterial and deodorizing functions as well as eradication of various noxious bacteria by adsorption, catalysis, antibacterial action and the like. This is because, from external factors such as various harmful waves and other diseases, It is possible to stably protect the display device.

Meanwhile, the conductive sheet coated with the antistatic coating composition according to the present invention and the method for producing the sheet can be applied to a home-use product such as an electric heating mat, an electric heating blankets, a cushion, a pallet, And other various industrial products such as a mouse pad, a construction material for a door, and the like, and has been utilized for various purposes and purposes. This has greatly improved versatility, use efficiency, functionality and economy, It provides a very useful expectation.

1 is a perspective view of a conductive sheet to which an antistatic coating composition according to the present invention is applied;
2 is a constitutional diagram of an antimicrobial composition applied to the present invention
Fig. 3 is a constitutional diagram of an antistatic coating composition according to the present invention
Fig. 4 is a graph showing the use examples of the conductive sheet applied with the antistatic coating composition according to the present invention
5 is a flow chart of the process for producing a conductive sheet in which the antistatic coating composition according to the present invention is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a conductive sheet and a method of manufacturing the same according to the present invention will be described in detail with reference to the accompanying drawings.

First, with reference to the accompanying drawings, a schematic configuration of a conductive sheet coated with an antistatic coating composition according to the present invention will be described.

This is constituted by the sheet member 1, the patterned conductive layer 2, and the auxiliary ground connector 3 as shown in Fig.

Here, first, the sheet member 1, which is the first component of the present invention, is made of a synthetic fiber such as a nonwoven fabric, a compressed plaster or the like, or a thin flat sheet made of natural fibers such as pongee, The sheet member 1 is made of a mixture of sulfide and flame retardant processed to a nanoparticle size and a mixture of kaolin solution Is immersed in the antimicrobial composition to form an antimicrobial composition impregnated with the components as shown in Fig. 2 on the surface and the entire inner surface.

At this time, in the antimicrobial composition impregnated over the surface and the entire inner surface of the sheet member 1, the sulfur sulfide is a safety substance harmless to the human body and the living environment as known in the art, and can be used for eradicating harmful bacteria such as bacteria and mold viruses In addition, in the present invention, when sulfur dioxide is applied to the present invention, it is known that the sulfurized nano-particles (hereinafter referred to as " sulfurized nano-particles " A raw material of sulfur niobate nanoparticles extracted with a particle size of 5 nm to 10 nm is used by a production method of, for example, a production method using hydrogen sulfide and an organic solvent or a production method employing hydrogen sulfide and an aqueous solvent.

In addition, in the above-mentioned antimicrobial composition impregnated over the surface and the entire inner surface of the sheet member 1, the flame retardant is a common material material widely used for delaying or cutting off the propagation of flame in the event of a fire, In the present invention, it is preferable to mainly use the additive type flame retardant processed to have a particle size of 5 nm to 10 nm, and as a further explanation, the type of the added flame retardant is not limited to the hydroxyl value Based flame retardant, phosphorus-based flame retardant, and the like. In the present invention, these various conventional flame retardants can be selectively used as needed.

Alternatively, in the above-mentioned antimicrobial composition impregnated over the surface and the entire inner surface of the sheet member 1, the kaolin is hydrated aluminum silicate produced from a natural clay mineral, that is, a silicate mineral, which is a white or milky powder And has a chemical formula of Al ₂ Si ₂ O ₅ (OH) _{4. It} is slimy and tactile, has a large amount of anions, quantum energy, and far-infrared rays, And admiral action. In applying this kaolin to the present invention, kaolin in the form of fine powder processed to a particle size of 5 nm to 10 nm is added to the water and dissolved therein It is used as kaolin solution.

On the other hand, the pattern-type conductive layer 2, which is the second component of the present invention, can prevent harmful currents, for example, static electricity and electromagnetic waves from being applied to the surface of the sheet member 1 impregnated with the above- The patterned conductive layer 2 as described above has a constitution as shown in FIG. 3, for example, a shiggit powder, a tailpipe powder , An antistatic coating composition comprising a pozzolan powder and a talc powder and natural binders to form an antistatic coating composition, and then the thus formed antistatic coating composition is applied to the surface of the sheet member 1 by various decorative patterns The composition ratio of the antistatic coating composition for forming the patterned conductive layer 2 is preferably in the range of 40 to 60% by weight, And the talc powder is mixed at a weight ratio of 30 to 40%, pozzolana powder at a weight ratio of 5 to 10%, and talc powder at a weight ratio of 5 to 10 to form a base powder mixture, and natural binding is then applied to the base powder mixture 5: 5 by weight.

At this time, in the antistatic coating composition for forming the patterned conductive layer (2) described above, the above mentioned Kunstit is a composite mineral having a natural nano structure containing 30 to 40% of carbon and 60 to 70% of silicate, It contains more than 20 trace elements beneficial to the human body. It is a natural antioxidant that enhances human immunity against diseases. In addition, it has a function of adsorbing water and air, In addition to the catalytic function of decomposing the material, it also has various functional material properties such as absorption and shielding of harmful electromagnetic waves and neutralization and absorption of radiation. In applying such a water-absorbing agent to the present invention, It is preferable that the powder is processed into powder particles of 5 to 10 μm or less.

In addition, in the antistatic coating composition for forming the patterned conductive layer 2 described above, it is preferable that the above-mentioned mannal is selected from the group consisting of natural (natural) materials rich in human-beneficial ingredients such as magnesium, potassium, sodium, calcium, iron, It has a far infrared ray emissivity of 93.8%, a bactericidal power of 97.5%, and a deodorizing function of 95.6%. In particular, it neutralizes snakes (electromotive force) and electromagnetic waves, The present invention is applied to the present invention in that it is prepared by processing the natural mineral of the Chinese cabbage into powder particles of 5 to 10 탆 or less. desirable.

Further, in the antistatic coating composition for forming the patterned conductive layer 2 described above, the pozzolan is a soluble and silicic acid component, and when it is combined with calcium hydroxide by water, although not water-soluble, ), Which is classified into pozzolans collected from natural minerals such as diatomaceous earth, silicate clay, tuff, and volcanic ash, and artificial pozzolans such as fly ash, blast furnace slag and calcined clay, Pozzolans are widely used in various industrial fields due to their functions such as deodorization, sterilization and mold removal by a large amount of far-infrared rays and anion generating action. Therefore, when applying pozzolan to the present invention, It is preferable that the pozzolans are processed into powder particles of 5 to 10 mu m or less.

In the antistatic coating composition for forming the patterned conductive layer 2 described above, the talc is a rock belonging to a monoclinic system having a crystal structure such as mica, and has a white color, a silver white color, a pale green color, Applications include minerals such as {Mg3 (OH) 2Si4O10}, which is a material used for processing art paper or a very widely used magnesium silicate such as rubber, medicine, plating, insecticide, flame retardant, filler, cosmetics, When such talc is applied to the present invention, natural mineral talc is preferably processed into powder particles of 5 to 10 탆 or less.

In addition, in the antistatic coating composition forming the patterned conductive layer 2 described above, the natural binding is a kind of coating coagulant for imparting an adhesive fixing force to the antistatic coating composition forming the patterned conductive layer 2 , Such as a patterned conductive layer 2 formed of a sheet member 1, is rigid and can be easily coated (applied). Such a natural binding is a marine-like bait plant For example, seaweeds of various kinds such as seaweed, kelp, kunpie, mackerel, guttae, rhubarb, and mackerel are picked, and the collected seaweed is collected at a high temperature And the seaweed is taken out of the liquid body through the continuous heating until the boiling water is evaporated, and the seaweed, which takes the liquid body, is again crushed by a squeezing net to form a processed liquid .

Finally, the auxiliary grounding connector 3, which is a third component of the present invention, is designed to induce harmful currents and electromagnetic waves generated in the sheet member 1 in an auxiliary form to flow- As shown in FIG. 1 or FIG. 4, the auxiliary grounding connector 3 has a circular metallic protrusion structure for connecting the grounding line L of the receptacle by the magnetic contact, It is preferable that the patterned conductive layer 2 formed on the surface of one sheet member 1 is formed as a fixed attachment structure integrated on one surface (reference numeral 31 denotes a magnetic coupling hole)

Therefore, the conductive sheet coated with the antistatic coating composition according to the present invention having the above-described constitution can be obtained by cutting the sheet member 1 according to the intended use, It is to be applied by applying it to the structure of an electric heating mat, as well as other shells such as a cushion, a bedding, and a pallet.

As described above, when a product such as the heat-transfer mat or the like, which is made up of the sheet member 1 by the sheet member 1, is spread on the sheet surface and then the power source is applied to seat the user's body, When the electroconductive layer 2 formed is brought into contact with the ground to form a ground electrode configuration and electrostatic discharge due to harmful currents and electromagnetic waves and human static electricity or external factors is generated in the electrothermal mat under such conditions, Electromagnetic wave, and static electricity by the antistatic function and the conductive function according to the material properties of the patterned conductive layer 2 formed of the conductive material layer 1 and the conductive material layer 2.

In this case, in the present invention, the auxiliary contact connection port 3 fixed to one surface of the patterned conductive layer 2 of the sheet member 1 is connected to the electric connection mat 3 by the connection of the electric connection ground line L, The residual harmful current, electromagnetic waves, and static electricity are guided into an additional form and flowed to the indoor wall through the grounding outlet.

On the other hand, the conductive sheet coated with the antistatic coating composition according to the present invention can be used in a different differentiated manner, for example, in order to form a series of components as described above, for example, The present invention as a method characteristic of the present invention realizes a method of manufacturing a conductive sheet, which comprises a sheet fabric preparation step (S1), an antimicrobial composition production step (S2), a coating composition A production step S3, a sheet member preprocessing step S4, a pattern conductive layer coating step S5 and a ground connector attaching step S6.

First, in the sheet fabric preparation step (S1), a sheet fabric made of a material such as an ordinary sheet fabric, for example, a fabric material, a synthetic resin material, an artificial leather material, etc., And winding the selected sheet fabric in a roll structure on a winding drum (not shown) of a cylindrical structure in a predetermined area and length configuration, and storing the rolled sheet fabric;

Also, in the step (S2) of producing the antimicrobial composition, the sulfur dioxide processed to the nanoparticle size, the additive type flame retardant processed to the nanoparticle size, and the kaolin solution are introduced into an industrial mixer It is preferable that the charged materials are formed by mixing and agitating the mixture for 60 to 120 minutes to form an antimicrobial composition.

The coating composition forming step (S3) may be carried out by providing a shigid powder, a tail powder, a pozzolan powder, and a talc powder, which have been processed to a particle size of 5 to 10 μm by an industrial particle grinder (not shown) The weight of the prepared shiggit powder is 40 to 60%, the weight of the naphtha powder is 30 to 40%, the weight of the pozzolan powder is 5 to 10%, the weight of talc powder is 5 to 10, (Not shown), and the charged materials are mixed and agitated for 100 to 150 minutes to form a base powder mixture. Further, natural binding is further added to the base powder mixture at a ratio of 5: 5, And then further mixing and agitating the mixture for 100 minutes to form an antistatic coating composition.

In the sheet member pre-treatment step (S4), the antimicrobial composition material formed through the above-described antimicrobial composition production step (S2) is filled in a container having a predetermined volume, and then, The sheet fabric is flow-moved by the pulling-in action of the winding drum to immerse the antimicrobial composition filled in the container, and the antimicrobial composition is impregnated in the sheet fabric by the immersion treatment , And, again, naturally drying the sheet fabric impregnated with the antimicrobial composition at room temperature.

The pattern conductive layer coating step (S5) is a step of coating the antistatic coating composition formed through the above-described coating composition producing step (S3) on the surface of the sheet raw material subjected to the sheet member pre-treatment step (S4) To form a patterned conductive layer having a decorative pattern. The patterned conductive layer 2 is dried (dried) by passing the sheet fabric having the patterned conductive layer formed thereon through an industrial UV dryer (not shown) And a hardening treatment.

Finally, the step of attaching the ground connector (S6) may be performed by using the sheet fabric formed through the pattern conductive layer coating step (S5) described above in a size necessary for use, for example, a heat transfer mat, a cushion, The sheet member 1 is cut in accordance with the size of the sheet member 1 and the auxiliary grounding connector 3 is fixedly assembled to one surface of the patterned conductive layer 1 in the cut sheet member 1, Thereby realizing a method for producing a conductive sheet on which an antistatic coating composition according to the present invention is applied.

1: sheet member 2: patterned conductive layer
3: Auxiliary ground connection S1: Sheet fabric preparation process
S2: Antimicrobial composition producing step S3: Coating composition producing step
S4: sheet member pretreatment step S5: pattern conductive layer coating step
S6: Process of attaching the earth connection

Claims (5)

Forming a sheet member (1) impregnated with an antimicrobial composition on a sheet fabric made of any one of a fabric, a synthetic resin, and an artificial leather;
An antistatic coating composition prepared by adding a water-dispersible powder, a coconut powder, a pozzolan powder, a talc powder, and a natural binder to the entire surface of the sheet member 1 impregnated with the antimicrobial composition, To form a patterned conductive layer (2) having a decorative pattern for inducing a harmful current. The conductive sheet as claimed in claim 1, wherein the patterned conductive layer (2)
The method of claim 1, further comprising:
An antistatic coating composition according to claim 1, wherein said sheet member (1) is integrally formed with one side of a patterned conductive layer (2) formed on its surface with an auxiliary grounding connection (3) The conductive sheet thus coated.
The method of claim 1, further comprising:
Wherein the antimicrobial composition comprises a mixture of nanoparticles of sulfide, a flame retardant, and a kaolin solution.
The method of claim 1, further comprising:
Said antistatic coating composition comprising:
A shiggit powder having a weight ratio of 40 to 60%;
A maleic anhydride powder having a weight ratio of 30 to 40%;
A pozzolana powder having a weight ratio of 5 to 10%;
Mixing talc powders having a weight ratio of 5 to 10 to form a base powder mixture;
Wherein the base powder mixture is further mixed with natural binders at a ratio of 5: 5.
A sheet fabric preparation step (S1) of winding a sheet fabric made of any one of a fabric, a synthetic resin, and an artificial leather material in a roll form on a winding drum and storing the same;
A process for producing antimicrobial composition which forms an antimicrobial composition through mixing and agitation for 60 to 120 minutes by introducing a nanoparticle-sized sulfide, a nanoparticle-sized additive-type flame retardant, and a kaolin solution into an industrial mixer S2);
A method for producing a powder of the present invention, comprising the steps of: preparing a powder of a powder having a particle size of 5 nm to 10 nm, a powder of manna powder, pozzolan powder and talc powder; , A pozzolana powder in a weight ratio of 5 to 10% and a talc powder in a weight ratio of 5 to 10 to an industrial mixer to form a base powder mixture through mixing and stirring for 100 to 150 minutes, (S3) which further comprises adding a binder at a ratio of 5: 5 to produce an antistatic coating composition by further mixing and stirring for 60 to 100 minutes;
The sheet material is impregnated with the antimicrobial composition formed through the step of producing the antimicrobial composition (S2) by the action of winding drum pulling induction, impregnated with the antimicrobial composition material in the sheet fabric, A sheet member pre-treatment step (S4);
The antistatic coating composition formed through the coating composition production step (S4) is applied to the surface of the sheet fabric subjected to the sheet member preprocessing step (S4) by a spray evaporation method to form a patterned conductive layer having a decorative pattern A pattern conductive layer coating step S5 of drying and curing the patterned conductive layer by passing the sheet member having the patterned conductive layer formed thereon through an industrial UV drying apparatus;
The sheet material formed through the pattern conductive layer coating step (S5) is cut to a size required for use to form the sheet member 1. In the cut sheet member 1, the auxiliary grounding connector (S6) a step of attaching a ground connector for fixing and assembling the conductive sheet (3).

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