KR100197540B1 - Method of making electromagnetic wave shielding sheet - Google Patents

Abstract

The present invention relates to a method for manufacturing an electromagnetic wave prevention sheet, wherein a lower portion of a thin plate 10 made of an inorganic material having softness and rigidity is disposed on the lower portion thereof, and an upper portion of the thin plate 10 made of the inorganic material has an electrical conductivity. Laminating a nonmagnetic particle 20 made of a strong Cu element or an Al element, laminating a far infrared bioceramic compound 30 to generate far infrared rays on the upper portion of the nonmagnetic particle 20, and the far infrared bio It is manufactured by laminating a porous organic carbide 40 having warmth, moisturizing, gas retention, and post-detachability of activated carbon and the like on top of the ceramic compound 30.

Description

Manufacturing method of electromagnetic wave prevention sheet

The present invention relates to a method for manufacturing a sheet for preventing electromagnetic waves, and in particular, to manufacture a sheet for preventing electromagnetic waves harmful to the human body generated from various electric and electronic devices, and at the same time to filter far-infrared emission and contaminated air.

In general, the floor of a building is part of the living space, and not only supports the load, but must also consider the barrier, water resistance, fire resistance, abrasion resistance, and texture.

The floor of the house is usually made of wooden floor or concrete, and the living room should be installed at least 50cm higher than the ground, and the related laws stipulate that each structure depends on the mat, floor, plank floor, and league. It is made of a nooid floor, a linoleum floor, etc.

In addition, floorboards (or floors, called Daecheong) are made of floor boards, and the floors are framed and decorated with decorative plates, and the areas where water is contacted are tiled for the purpose of surface protection, surface cleaning, and waterproofing. In order to keep warm and walk, in recent years, elastic tiles, rubber tiles, vinyl tiles, or asphalt tiles are used instead of magnetic tiles.

The floor of a general office building is mortar floor (mortar slab) sprayed with a cement gun or artificial stone that is applied to the floor by kneading back cement, powder, stone, or pigment into water. finish or synthetic rubber to the gym floor.

In addition, the residential floor in Korea was constructed by adopting its own ondol heating structure. In the old days, it was used to make full absorption of heat, smoke, and gas by using the brick-supported spheres. In spite of the fact that the building is under construction, spim pipes for ondol are laid on the floor and used for heating.

However, in recent years, there have been many studies on electromagnetic waves generated from various electric and electronic devices, and among them, the influence of the electromagnetic waves on the human body has been reported to the academic community. In other words, the buildings in the area where these electromagnetic waves pass are gradually damaging life by the electromagnetic waves. Therefore, the deep sleep can not take place in the morning, causing severe fatigue, and also cause stiff shoulders, back pain and neuralgia, and if left for a long time to develop other complications, the industry has been studying the prevention measures for a long time.

Far-infrared rays are infrared, which is the long wavelength range of sunlight, that is, 0.76 microns to 1,000 microns in terms of sub-infrared rays, 0.76 microns to 1.5 microns, near infrared, 1.5 microns to 3.0 microns, and mid-infrared, 3.0 microns to 1000 microns. It is called far infrared ray.

It radiates not only solar light but also between heated matter and has a very good effect on the life activity of water-borne organisms. In other words, it is absorbed and resonated in vivo and used as physiological energy, and occupies an important factor in growth, health maintenance, and the like.

To date, far-infrared radiation sources used in living bodies use heating devices, ceramics, and natural foods.

Far infrared rays irradiated to the skin are absorbed into the skin tissue except most of the reflective material, which turns into heat. This heat raises the temperature of the skin tissue, stimulating the heat and nociceptive vessels in the tissue, thereby feeling a sense of warmth and pain.

The sensitizing effect of far-infrared skin calories has recently been demonstrated by Mercury in rubber strain plethysmography. Far-infrared rays irradiated on living skin have been proven to increase skin blood flow and many health products have emerged.

In addition, it has a good effect on heart rate and pulse rate, and also on sweating and sleep brain waves.

The conventional electric blanket is a blanket made by heating a heat wire that can generate heat between the fiber or vinyl material, it is widely known that there is a risk of fire due to overheating and harm to the human body due to the generation of electromagnetic waves.

In addition, the coating product of a simple far infrared ray generating material is used by coating a small amount of bio-ceramic powder on the fiber. This is because the coating layer is thin, the generation of far-infrared light is weak and not efficient.

In addition, water veins flow through the basement of the building. This vein harms the human body and adversely affects the building due to the frequency of destruction caused by the occurrence of so-called earthquakes, and in some cases even the risk of collapse. To prevent this, renovation of existing facilities will be necessary. That is, the ground wave is cut off and the ground plate is installed to block the water wave propagation and mortar work is performed in parallel.

It goes without saying that the work is complicated and the construction cost is high.

Therefore, the present invention has been invented to solve the problems in view of the above problems, and can prevent harmful electromagnetic waves generated by various electric and electronic devices as well as generate far-infrared rays, which are beneficial to the human body. It is an object of the present invention to provide a sheet for preventing electromagnetic waves that can be applied to a variety of applications that can filter the air.

A feature of the present invention having such a purpose is to selectively place a thin plate made of metal, wood or fiber and leather, polymer plastic, ceramics, etc. at the bottom, and form a non-magnetic particle on the top thereof. By forming a far-infrared bioceramic compound on the upper portion of the non-magnetic particle body, and forming a porous organic carbide on the upper portion thereof to provide an electromagnetic wave preventing sheet.

1 is a cross-sectional view for manufacturing the present invention.

Figure 2 is a cross-sectional view showing another embodiment of the present invention the first view.

Figure 3 is a cross-sectional view showing another embodiment of the second diagram of the present invention.

Figure 4 is a cross-sectional view showing another embodiment of the third diagram of the present invention.

5 is a cross-sectional view showing another embodiment of FIG. 4 of the present invention.

Figure 6 is a cross-sectional view showing another embodiment of FIG. 5 of the present invention.

7 is a cross-sectional view showing another embodiment of FIG. 6 of the present invention.

* Explanation of symbols for main parts of the drawings

10: thin plate 20: nonmagnetic particle body

30: far infrared bioceramic compound

40; Organic carbide

Hereinafter, the present invention having the above characteristics will be described in detail with reference to the accompanying drawings.

According to the present invention, a thin plate 10 made of metal, wood or fiber, and leather, polymer plastic, ceramics (hereinafter referred to as inorganic material) and the like is placed on the lower portion thereof, and a Cu element having a high electrical conductivity or A non-magnetic particle 20 made of an Al element is laminated to form a far-infrared bioceramic compound 30, and a porous organic carbide 40 having moisture retention, heat retention, gas retention, or post-wetting property is formed at the top. The sheet is comprised.

At this time, the metal material of the various components of the inorganic material constituting the lower plate 10 of the lower layer is carbon (C), silica gel (Si), manganese (Mn), chromium (Cr), nickel (Ni), It is composed of alloy materials of austenitic structure such as soft iron (Fe) and copper (Cu), and powdered. The inorganic powder is mixed with an adhesive made of an isocyanate polymer to form a dough having a high viscosity, and then a textile fabric or a synthetic resin sheet. Applied at a suitable thickness above and dried at room temperature to form a thin plate (10).

The far-infrared bio-ceramic compound 30 is calcined and calcined at sigma or maltite at 1200 to 1300 ° C., powdered, mixed and dissolved in a polyurethane resin solution, and the solution is coated on paraffin paper to form a film at l00 ° C. After drying, it is formed by passing through rollers positioned up and down in a state where it is placed on the thin plate 10.

The organic carbide 40 powders activated carbon (male), which is a carbon component, mixes copper (Cu) powder in an appropriate ratio, mixes and dissolves in a polyurethane latex solution, and dissolves the activated carbon solution into a centrifugal drum. It is put into a dryer to obtain a sheet formed at about 120 ℃ in the rotation state of about 60rpm and then placed on top of the far-infrared bioceramic compound 30 to be pressed to complete the sheet.

On the other hand, in addition to the above basic configuration, the thin plate 10 made of an inorganic material, the nonmagnetic particle body 20 and the porous organic carbide 40 may be formed in sequence, depending on the application, and also made of a thin plate made of an inorganic material ( 10) and the non-magnetic particle 20 and the far-infrared bioceramic compound (30) may be used, and the thin plate (10), the far-infrared bioceramic compound (30), and the porous organic carbide (40) made of inorganic materials may be sequentially used. It can also be used.

In addition to the above-described method can be used to form a thin plate 10 and the non-magnetic particle 20 made of an inorganic material, can also be used to form a thin plate 10 made of an inorganic material and a far infrared bioceramic compound (30) It is also possible to form and use the thin plate 10 made of an inorganic material and the porous organic carbide 40.

In the present invention configured as described above, first, a thin plate 10 made of an inorganic material, a nonmagnetic particle body 20, a far infrared bioceramic compound 30, a porous organic carbide 40, and the like are sequentially stacked. By forming a sheet to form and keep warm and moisturizing, as well as gas retention and post-detachability, it is possible to emit far infrared rays, and to prevent electromagnetic waves to become a beneficial sheet to the human body.

That is, AC electricity has different functions, transmissions, and uses depending on its frequency. At this time, low frequency is transmitted smoothly through the wire, but when the frequency increases, it has the property of flying in the air as electric field and magnetic field. As a flow of electromagnetic waves, natural light is generated from sunlight and radioactive materials, and artificially generated from all places where electricity is present. As a kind of energy, vibration and divergence due to periodic changes occur. Electromagnetic waves floating through the space are shielded by a copper (Cu) component, which is a conductive material contained in the thin plate 10 layer or the organic carbide 40 layer made of an inorganic material, and the electromagnetic wave is made of a carbon material having high electrical conductivity. It is shielded by the organic carbide 40 layer.

In addition, the present invention can be selectively used according to the purpose of use, in which case the organic carbide 40 having a thermal insulation, moisturizing and gas retention and post-detachability, and a non-electrically conductive particle having a strong electrical conductivity such as Cu element or Al element ( 20) and the thin plate 10 made of an inorganic material was laminated and used sequentially from the top to the bottom.

Meanwhile, the present invention is based on any one of the non-magnetic particles 20, the far infrared bioceramic compound 30, and the porous organic carbide 40, based on the thin plate 10 of the inorganic material located in the lower portion in addition to the sheet as described above It is good not to laminate | stack or to laminate | stack and use either.

The present invention as described above is an effective invention that can keep warm and moisturizing and gas retention and deodorization, can emit far infrared rays, can block electromagnetic waves emitted from various electricity, electronic devices to convey the benefits to the human body .

Claims (1)

Placing a thin plate 10 made of an inorganic material having softness and rigidity in the lower portion; laminating a far infrared bioceramic compound 30 emitting far infrared rays on the upper portion of the thin plate 10 made of the inorganic material; , The method of manufacturing a sheet for preventing electromagnetic waves, characterized in that a porous organic carbide (40) having a thermal insulation and moisturizing and gas retention and deodorizing properties of activated carbon and the like on top of the far infrared bioceramic compound (30) is laminated.