KR200413343Y1 - A multi-functional sheet for building materials - Google Patents

Abstract

The present invention relates to a multifunctional sheet for building materials, the multifunctional sheet is a polyester fabric woven using a polyester, and a metal coating layer formed by depositing nickel and copper on one surface of the polyester fabric by electroless plating And an anion coating layer formed by pressing and depositing a plurality of minerals including torumarin on the other surface of the polyester fabric, and by applying a polyester protection agent to a coating surface of a metal material to protect nickel and copper of the metal coating layer. It comprises a protective coating layer formed.

Therefore, the construction of the multi-functional sheet can protect the health of the occupants by blocking the electromagnetic waves and water waves generated in the building, and can comfortably maintain the indoor environment through the negative and infrared radiation emitted from the multi-functional sheet, the multi-function It is easy to create added value because of its high usability because it can be applied to construction of various spaces and various items using sheets.

Building materials, sheets, electromagnetic waves, water waves, negative ions, far infrared

Description

A multi-functional sheet for building materials}

1 is a perspective view showing a multifunctional sheet for building materials according to the present invention;

2 is a cross-sectional view showing the configuration of a multifunctional sheet according to the present invention;

3 is a flow chart showing a manufacturing process of the multifunctional sheet for building materials according to the present invention,

Figure 4 is a state diagram showing the construction state of the multifunctional sheet according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Multifunctional sheet 10: Polyester fabric

20: metal coating layer 30: anion coating layer

40: protective coating layer

The present invention relates to a sheet used as a building material, and more particularly, to a multi-functional sheet for building materials which can improve the indoor environment of a building by blocking electromagnetic and water waves harmful to the human body and radiating a large amount of negative ions and far infrared rays. .

In general, in the case of apartment houses or offices made of cement structures, various studies have been made to overcome these problems because of the harmful effects of cements on residents' health.

In particular, nowadays there are many harmful electric waves such as electromagnetic waves and water waves in the cement structure as described above. First, in the case of water waves, if water veins exist under the building, the water veins in the building may flow regardless of the high and low buildings. It can be seen that cracks occur in the building in the longitudinal direction.

People living in places where such veins pass are known to suffer from diseases by disturbing the normal electromagnetic fields of brain waves and breaking rhythms.

In addition, as the use of electronic products such as computers and mobile phones is increasing, people are always exposed to electromagnetic waves in living and living spaces, and if they are exposed to such electromagnetic waves for a long time, their immune function may be reduced and the disease may be increased. It is known.

However, in the case of the conventional building materials or building finishing materials, the function to block the water wave or the electromagnetic wave as described above is insufficient, so that the user is exposed to the water wave and the electromagnetic wave in a defenseless state.

Here, in order to block the water wave, conventionally, a metal block material such as a copper plate, an aluminum foil, and a silver foil magnet is applied to the building material, but the water wave block material has a drawback in that a construction cost increases because its product price is high. In addition, there was a problem such as not only the corrosion of the water-wave blocking material, the construction is inconvenient.

On the other hand, in recent years, as the interest in each individual's health increases, various researches on anion or far-infrared rays that are beneficial to the human body have been conducted. The anion penetrates the human body to promote blood circulation and metabolism. Anionizes the body that is cationic due to chronic fatigue or various diseases, thereby keeping the mind and body in a fresh state.

That is, the anion acts as a natural forest bath or refreshing air to the human being, and can regulate the flow of the group flowing through the human body by supplying the anion, and enhances the biological effect and vitality and immunity of the anion. By the action, various medical and physiological effects such as the movement of a person and the adjustment of the autonomic nerve can be achieved.

Negative ions are highly related to natural wood, lipids, and air quality along with energy, and can be inhaled from the skin as well as breathing into the human body as well as breathing into the lungs.

In addition, far-infrared rays are the purest and strongest heat rays among solar rays, which are colorless and invisible electromagnetic waves, and transmit heat directly to the core of the human body by radiation to increase the temperature of the subcutaneous depth, expand the microvascular, It is a natural growth ray that is beneficial to the human body to exert various medical effects such as promoting blood circulation, releasing waste products in the body, and promoting metabolism.

Therefore, research is being conducted to improve the user's health by applying the anion or far infrared rays to various products.

However, the application of the anion and the far infrared ray is insufficient in a building where people live, and even if the anion and the far infrared radiation material are applied to the building material or the building finishing material of the building, the emissivity and radiation energy of the far infrared ray emitted from the product is weak. There was a problem.

Therefore, the present invention was devised to solve the problems of the conventional building materials. The building materials are designed to improve the indoor environment of buildings by blocking large amounts of negative and far infrared rays while blocking electromagnetic and water waves harmful to the human body. The purpose is to provide a multifunctional sheet.

Another object of the present invention is to provide a multi-functional sheet for building materials that can be applied to the interior of the building as a paper to improve the workability.

The present invention for achieving the above object is a polyester fabric woven using a polyester agent, a metal coating layer formed by depositing nickel and copper on one surface of the polyester fabric through electroless plating, and Anion coating layer formed by pressing and depositing a plurality of minerals including torumarin on the other surface of the polyester fabric, and a protective coating layer formed by applying a polyester protection agent on the coating surface of the metal material to protect the nickel and copper of the metal coating layer It is configured to include.

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

Referring to Figs. 1 and 2, a multifunctional sheet for building materials, which blocks electromagnetic and water waves generated in a building, and emits negative ions and far infrared rays, the multifunctional sheet 1 is made of polyester. A polyester fabric 10 woven using the same, a metal coating layer 20 forming an outer surface of the polyester fabric 10, an anion coating layer 30 forming an inner surface of the polyester fabric 10, and the metal It is configured to include a protective coating layer 40 is selectively applied to the coating layer (20).

The metal coating layer 20 is formed by depositing nickel and copper on the outer surface of the polyester fabric 10 through electroless plating, and may block electromagnetic waves and water waves through the metal coating layer 20.

The anion coating layer 30 is formed by pressing and depositing a plurality of minerals including torumarin on the inner surface of the polyester fabric 10, through which the anion and far infrared rays beneficial to the human body are radiated. Can be.

The protective coating layer 40 is formed by applying a polyester protection agent to the coating surface of the metal material to protect the nickel and copper of the metal coating layer 20, the metal coating layer 20 through the protective coating layer 40 It is possible to prevent the metals from oxidizing, discoloring and wearing.

That is, the multifunctional sheet 1 having the above structure is configured in the form of a thin paper so that it can be easily installed on the wall or floor of a building interior.

Therefore, through the construction of the multi-functional sheet (1) it can provide a more comfortable environment to the occupants by radiating negative and far infrared rays while blocking the electromagnetic waves and water waves generated in the interior space of the building.

On the other hand, the multi-function sheet 1, the effect of which is dependent on the emissivity of far-infrared radiation and its radiation energy, the far-infrared emissivity and radiation energy of the multi-functional sheet (1) for building materials according to the present invention is as follows.

TABLE 1

In addition, the anion generated in the multifunctional sheet (1) is 14.480 (ION / cc) test results.

That is, since the anion and far infrared rays beneficial to the human body are sufficiently radiated in the multifunctional sheet 1, a comfortable indoor environment can be created.

Meanwhile, referring to FIG. 3, a method of manufacturing a multifunctional sheet for building materials having the above-described structure is used to produce a polyester fabric through various processes such as dough, alveoli, refining, and dyeing using polyester ( S10), removing moisture and other foreign matters of the polyester fabric (S20), imparting conductivity to the polyester fabric by depositing nickel and copper on one surface of the polyester fabric through electroless plating (S30), and Applying a plurality of minerals including torumarin on the other surface of the polyester fabric by pressing and depositing (S40), and cooling the polyester fabric for the solid deposition of nickel, copper and anion materials coated on the polyester fabric ( S50), in order to protect the nickel and copper of the polyester fabric cooled, a polyester protection agent is coated on a metal coating surface Through the process of coating (S60) to manufacture a multifunctional sheet for building materials.

That is, the multifunctional sheet is polyester fabric manufacturing step (S10), fabric drying step (S20), metal coating step (S30), anion coating step (S40), cooling step (S50), and protective coating step (S60) It is manufactured while going through.

Here, the metal coating step (S30) is to deposit nickel and copper on one surface of the polyester fabric by electroless plating, to impart conductivity to the polyester fabric, by using the oxidation-resistant nickel and high purity copper It can block electromagnetic waves and water waves more completely.

In addition, the anion coating step (S40) is to apply a plurality of minerals including torumarin on the other surface of the polyester fabric by pressing and vapor deposition, the minerals are silicon, magnesium, manganese, zinc, silver oxide and It is preferable to use a material beneficial to the human body, and finely pulverizes the tourmaline and a plurality of minerals and coats the polyester fabric.

In addition, the protective coating step (S60) is to apply a polyester protective agent to the coating surface of the metal material to protect the nickel and copper of the cooled polyester fabric, the polyester protective agent is a resin made of acrylic or urethane It is preferable that it consists of. It is possible to prevent oxidation, discoloration and wear of the metal material deposited by the coating of the polyester protection agent.

Therefore, the state in which the multifunctional sheet 1 is applied to the interior of the building is to construct the multifunctional sheet 1 on the wall or floor of the building interior as a wallpaper or flooring material as shown in FIG. 4.

Here, in the case of the wall surface, since the impact or abrasion is less, the construction can be performed in a state in which the protective coating layer 40 is deleted from the multifunctional sheet 1, but in the case of the floor, since the impact and abrasion is large, the multifunctional sheet 1 It is preferable to construct the protective coating layer 40 is applied to the).

On the other hand, the multi-functional sheet (1) is used as an indoor building material can be used in various remodeling sites, hotels, such as hotels, large officetels, condos, etc., it can be conveniently used in new residential facilities or existing residential facilities.

In addition, by using the multi-functional sheet (1) as interior materials such as subways, trains, buses can comfort the air in the space, can be used as interior materials of expensive medical equipment used in hospitals, functional clothing or It can be applied to household goods such as bedding and props to benefit the user's body.

As described above, according to the multifunctional sheet for building materials according to the present invention, it is possible to protect the health of the occupants by blocking the electromagnetic waves and water waves generated in the building through the construction of the multifunctional sheet, anion and radiation emitted from the multifunctional sheet The indoor environment can be maintained comfortably through the far-infrared rays, and since the multifunctional sheet can be used for construction of various spaces and various articles, it is easy to create high added value.

Claims (1)

Polyester fabric woven with polyester; A metal coating layer formed by depositing nickel and copper on one surface of the polyester fabric through electroless plating; An anion coating layer formed by pressurizing and depositing a plurality of minerals including torumarin on the other surface of the polyester fabric; And a protective coating layer formed by applying a polyester protection agent to a coating surface of a metal material to protect nickel and copper of the metal coating layer.

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