KR20000072242A - Manufacturing method of far infrared rays - Google Patents

Abstract

PURPOSE: A manufacturing method of a far infrared ray radiator is provided for bedclothes, matting and designs by adding materials to irradiate far infrared rays to a neutral magnesium binder and by hardening the materials in a predetermined shape. CONSTITUTION: A far infrared ray radiator(14) arranging heat wires(12) to use for an electric heating plate(10) contains materials to irradiate far infrared rays (e.g., jade, elvan, germanium, ocher, magnet, copper) for mixing magnesium oxide, magnesium chloride and silicone oxide as main ingredients with water. The materials are mixed with a binder hardened after mixing with water and are hardened to be cut into desirable shape and size by abrasion. In preparing the binder, magnesium oxide and magnesium chloride are hardened when reacting with water. Magnesium oxide powder is mixed with 35 wt.% of magnesium oxide powder, 1 wt.% of a dispersing agent, 1 wt.% of an antifoaming agent, 1 wt.% of a water reducing agent, 35 wt.% of silicone oxide, 1 wt.% of a methyl cellulose-series setting agent. A magnesium chloride solution is prepared by dissolving 25 wt.% of magnesium chloride with 10 wt.% of water.

Description

Manufacturing method of far infrared rays

The present invention relates to a method for manufacturing a far infrared ray, and in particular, by adding a material that emits far infrared rays to a neutral magnesium binder, it is cured to a predetermined shape, and used in bedding, mats, clothing, etc., the user experiences far infrared rays It relates to a method for producing a far-infrared radiator to enable.

As society is complicated and advanced, the interest of the health of modern people is increasing due to various stresses and pollution, and as an example of such health, recently, materials that emit far infrared rays such as jade, ganban stone, germanium, There is increasing interest in loess, magnets, and equivalence.

Since the materials that emit far-infrared rays as described above are generally stored and used in predetermined storage means in the form of gemstones or powders, their application fields are narrow and are not widely used.

An object of the present invention for solving the above problems is to add a material that emits far infrared rays to the neutral magnesium binder, harden to a predetermined shape, and then use it for bedding, mats, clothing, etc., the user experiences far infrared rays It is to provide a method of manufacturing a far-infrared radiator to enable.

1 is a perspective view showing an embodiment of a far infrared ray radiator according to the present invention

Figure 2 is a perspective view showing another embodiment of the far infrared radiator according to the present invention

* Description of the symbols for the main parts of the drawings *

10: electric heating slab 12: heating wire

14: far infrared emitter 20: spot

22: far infrared radiator 24: seat member

It looks at the configuration of the present invention for achieving the above object.

According to the present invention, the method for producing far-infrared radiator is cured by mixing a far-infrared radiation substance (jade, ganbanite, germanium, ocher, magnet, copper) with a binder which is cured when mixed with water using magnesium oxide, magnesium chloride and silicon oxide as main components. After that, it was polished and cut into desired shapes and sizes.

On the other hand, in the above-described configuration, magnesium oxide and magnesium chloride are cured when reacted with water to have excellent strength and smooth surface, and the silicon oxide is added for the purpose of improving strength and water resistance.

In the far infrared radiator manufacturing method, a dispersing agent, an antifoaming agent, a water reducing agent, a coagulant, and the like are further added to the binder, which can be selectively added by those skilled in the art, and thus a detailed description thereof will be omitted.

An embodiment of the far-infrared radiator manufacturing method according to the present invention as described above will be described below.

In the far-infrared radiator manufacturing method according to the present invention, first, the far-infrared radiation substance (jade, elvan, germanium, loess, magnet, copper) is prepared in powder or granule form.

Then, to prepare a binder, the magnesium oxide and magnesium chloride constituting the binder is cured when reacted with water, so based on the total weight of the binder, magnesium oxide powder (35% by weight), dispersant (1% by weight), antifoaming agent (1 Wt%), water reducing agent (1 wt%), silicon oxide (35 wt%) and methyl cellulose-based coagulant (1 wt%) to prepare a magnesium oxide mixture powder, and magnesium chloride (25 wt%) Dissolved in weight%) to prepare an aqueous magnesium chloride solution.

The far-infrared radiation substance and the magnesium oxide mixed powder are mixed with the prepared aqueous magnesium chloride solution, and then cured and cut into a desired shape and size to prepare a far-infrared radiation substance.

On the other hand, in the curing and cutting process, the far-infrared radiator is cured and cut into different shapes and sizes depending on the purpose of use, which will be described below with reference to FIGS. 1 to 2.

First, when the far-infrared radiator is to be used for the electrothermal stone plate 10, as shown in FIG. 1, the far-infrared radiator 14 is hardened on a flat plate on which the hot wire 12 is disposed, and the surface thereof is polished. As shown in FIG. 5, when the attached to the seat 20 is to be used, the far-infrared radiator 22 is cut in a circular shape, and then used by adhering to a seat member (wang, bamboo, textile paper, etc.) 24 with an adhesive (not shown). .

Therefore, according to the method for producing a far-infrared radiator according to the present invention, the far-infrared radiator having an excellent hardness, a smooth surface, and a desired shape is obtained.

Therefore, according to the method for manufacturing a far-infrared radiator according to the present invention, since the material emitting far-infrared rays can be molded into a desired shape and size, it can be used for most articles necessary for living such as bedding, mats, and clothing. The far-infrared rays sprayed from the radioactive material can be experienced at all times, and the hardness is excellent so that it is not easily broken, and the surface is smooth, so that the user can feel comfortable to wear and touch the body, thereby improving the satisfaction on use.

Claims (1)

Far-infrared radiation materials (jade, elvan, germanium, ocher, magnets, copper) are composed of magnesium oxide, magnesium chloride, and silicon oxide as the main components, mixed with water, and cured with a binder that cures. Far infrared emitter manufacturing method characterized in that the cutting to.