KR20150091732A - A manufacturing method of a loess mat and a loess mat thereof - Google Patents

Abstract

The present invention relates to a method for manufacturing a loess hypocaust and a loess hypocaust. More specifically, a hose is molded to be integrated with a loess hypocaust plate, and the present invention improves a heat supplying function and a far infrared ray effect and the anion effect and prevents damage and a defect of the hose. The present invention comprises: a cutting process of cutting pure cotton non-woven fabric in a predetermined size; a compression process of molding the compressed non-woven fabric; an impregnation process; a mixing process of mixing loess, ceramic powder, germanium, tourmaline, and water; a stacking process of covering the loess on an upper portion of the hot water hose to be stacked; a drying process supplying hot water to the hot water hose and drying the loess to mold the loess plate; and a coating process of forming a coating layer to coat.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of manufacturing a greenhouse and a method of producing the greenhouse,

More particularly, the present invention relates to a method for manufacturing raw yellow loam balls, and more particularly, to a method of manufacturing raw yellow loam balls by forming a hose to which hot water is supplied to be integrated with a sulfuric acid topcoat having a thickness of 15 mm or less, The present invention also relates to a method for manufacturing a raw soil material and a raw soil material which can improve the heat radiation function, increase the far infrared ray and anion effect, and prevent the breakage and failure of the hose.

In general, loess is widely known to emit far infrared rays, which are most effective in activating materials.

When far-infrared rays are absorbed into a material, molecules such as moisture constituting cells in the human body are radiated to vibrate the molecules, thereby activating the physiological action of the cells and generating heat energy inside the material.

In addition, the far-infrared ray also exhibits a photoelectric effect that releases the harmful substances possessed by the cells of the material, and the loess is radiated by the far-infrared rays to prevent the recovery of chronic fatigue and aging, and the beauty effect with excellent antibacterial and bactericidal action, It provides a preventive effect and promotes metabolism by blood circulation, elimination of wastes accumulated in the body and activation of cell activity.

In addition, the building using the loess is excellent in heat insulation and sound insulation, and is excellent in heat insulation, so it is warm in winter and cool in summer.

In recent years, electric mats have been widely used for heating bedding, but instead of electric mats, which are harmful to the human body, hot water mats or warm water mats having hot water hoses, In fact.

However, in the case of such a hot water mat, since the mat is manufactured using only a part of the yellow soil, the emissivity of the far-infrared rays is very low, and the efficiency and effect thereof are difficult to expect. In the case of the yellow soil, There is a problem that post management is difficult.

In addition, some users do not use beds in winter, but sometimes sleep in the ondol room.

However, in order to heat the ondol room, a heating pipe must be installed on the floor and a separate boiler must be additionally installed. Therefore, it takes much time and cost to construct the room.

On the other hand, since the loess has a property of emitting far-infrared rays which are beneficial to the human body from the ceramic radiator included in itself when it is heated, it is widely used for manufacturing clothes, plates, and meat grilling plates. Recently, Material.

Since the loess used in the building can not be manufactured so as to maintain sufficient strength due to the characteristics of loess when the loess is manufactured by itself, only a part of the loess composition is added to the liquid composition during the production of a typical wall, wallpaper, There is a problem in that the amount of the far-infrared ray emitted is small because of the small amount of the yellow loess.

In the case of using only loess, the thermal conductivity of the loess is deteriorated. In the region directly heated, the temperature is high, but the temperature at a remote place is low, which causes a local temperature difference and lowers the thermal efficiency.

Further, in the case of using the loess plate, the thermal conductivity is low when the thickness of the loess plate is 20 mm or more, and the loess plate is cracked or broken when the thickness is 20 mm or less.

As a conventional technique, a yellow clay panel (Patent No. 10-1998-004833) filed in November 1998 and a yellow clay warm mat (patent No. 10-0685140) filed in 2007 are disclosed.

The applicant of the present invention has developed a method for producing green loam balls in which the thickness of the loamy plate is 15 mm or less while the green loam is not cracked or cracked and the thermal conductivity and the far-infrared ray are efficiently radiated.

It is an object of the present invention to provide a method of manufacturing raw horticultural soot which can prevent breakage or breakage of a hose supplying hot water and raw horticulture.

It is another object of the present invention to provide a method for manufacturing green algae tofu which is produced by using alfalfa at the time of manufacturing the alfalfa plate and at the same time making the thickness of the alfalfa to 20 mm or less, .

In addition, the present invention provides a method for producing raw loess soils having excellent thermal conductivity and excellent radiation effects of far-infrared rays and anions by forming a lake that supplies hot water to a loess plate made of raw loess, The purpose of that is to do.

The present invention relates to a method for manufacturing green toenails which can be manufactured by assembling a plurality of green sheets by manufacturing individual sheets of green sheets and assembling the green sheets and attaching the green sheets to each other, For that purpose.

According to the present invention, there is provided a cutting method, comprising: a cutting step of cutting a surface-facing nonwoven fabric to a predetermined size;

Compressing the cut face nonwoven fabric to form a compressed nonwoven fabric at 3 to 8 mm; Impregnating the compression-molded compressed nonwoven fabric with impregnated charcoal liquid; A mixing step of mixing 70% of fresh yellow soil, 10% of ceramic powder, 10% of germanium and 5% of tourmaline in 5% of water; The storage means is placed on the upper portion of the compressed nonwoven fabric which has passed through the impregnating process, the mixed green loam is laid on the inner side of the colored steel plate, the hot water hose is arranged on the upper part of the green loess, A lamination step of laminating; A drying step of laminating the green loess and the hot water hose together, then supplying warm water at 30 ° C to 50 ° C to the hot water hose and circulating the hot green water for 3 days to 5 days to dry the green loess so as to form a digestion tobacco; And a coating process for forming a coating layer on the top of the green topcoat formed by the drying process using yellow soil so as to prevent the yellow soil from falling off or being buried.

Therefore, the method of manufacturing the loess balls of the present invention and the loess loom are easy to move and easy to install by using the loess loam by making the loess loops by individual units using the hot-rolled hosel, Since the loess and the hot water hose are integrally formed, the hot water hose can be prevented from tilting and breaking, and the heat radiation function and the far infrared rays and negative ions are radiated.

In addition, the present invention has an effect that the heat generated from the hot water hose is rapidly transferred to the loess plate, so that the heat transfer efficiency is such that the body feels segregated, and thus the heating cost is greatly saved. There is an effect that the reliability of the product is excellent and the defect rate is small and the productivity is improved.

In addition, the thickness of the green toe plate is reduced so that the heat conduction is excellent, but it is formed so as not to break or crack, thereby reducing the loss of the product, thereby reducing the cost.

Brief Description of the Drawings Fig. 1 is a process diagram showing a method for producing raw yellow clay loops according to the present invention
Fig. 2 is a process diagram showing a manufacturing method of another embodiment of the raw loess balls of the present invention
Fig. 3 is a partial cross-sectional view showing the raw loess balls produced by the method for producing raw loess loaves according to the present invention

According to the present invention, there is provided a cutting method, comprising: a cutting step of cutting a surface-facing nonwoven fabric to a predetermined size;

Compressing the cut face nonwoven fabric to form a compressed nonwoven fabric at 3 to 8 mm; Impregnating the compression-molded compressed nonwoven fabric with impregnated charcoal liquid; A mixing step of mixing 70% of raw yellow soil, 10% of ceramic powder, 10% of germanium, 5% of tourmaline and 5% of water; A laminating step of laminating the green loess on the upper side of the compressed nonwoven fabric which has passed through the impregnating step and the green hothouse mixed with the inner side of the colored steel plate and arranging the hot water hose integrally on the upper side, and; A drying step of laminating the green loess and the hot water hose integrally, then supplying warm water at 30 ° C to 50 ° C to the hot water hose, circulating the hot water hose for 3 to 5 days to dry the green loess, And a coating step of forming a coating film on the top of the green sulfur topcoat formed by the drying step using yellow soil so as to prevent the yellow soil from falling off or being buried.

The coating process is performed by coating a surface of a fine loess powder of 2000 to 5000 mesh on a surface, naturally drying for 20-30 minutes, coating the loess powder with a secondary coat for 15-20 minutes, And a third contaminated soil coating.

In addition, the present invention provides a method for producing a nonwoven fabric, comprising: a cutting step of cutting a face- Compressing the cut face nonwoven fabric to form a compressed nonwoven fabric at 3 to 8 mm; Impregnating the compression-molded compressed nonwoven fabric with impregnated charcoal liquid; A mixing step of mixing 70% of raw yellow soil, 10% of ceramic powder, 10% of germanium, 5% of tourmaline and 5% of water; The storage means is placed on the upper portion of the compressed nonwoven fabric which has passed through the impregnating process, the mixed green loam is laid on the inner side of the colored steel plate, the hot water hose is arranged on the upper part of the green loess, A lamination step of laminating; A drying step of laminating the green loess and the hot water hose together, then supplying warm water at 30 ° C to 50 ° C to the hot water hose and circulating the hot green water for 3 days to 5 days to dry the green loess so as to form a digestion tobacco; A coating step of forming a coating film on the top of the green toe plate formed by the drying step so as to prevent the loess from falling off or being buried; And adhering a cool mesh cloth to the upper part of the green loam balls formed by the coating process.

The present invention also relates to a compression nonwoven fabric 10 cut to a predetermined size and compression-molded to a thickness of 3-6 mm; A concave shaped storage means 12 formed on the top of the compressed nonwoven fabric 10; A greenhouse top plate 16 formed of a raw yellow soil mixture and stored in the inside of the storage means 12; A hot water hose (14) formed integrally with the inner side of the sulfur foot plate (16); A yellow clay coating layer 18 formed on the top of the sulfur hexagonal clay board 16; And a case (20) formed so as to surround the sulfur foot plate (16).

The storage means (12) uses a colored steel plate.

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

FIG. 1 is a process diagram showing a method of manufacturing the tohoku tolous pots according to the present invention, FIG. 2 is a process diagram showing a manufacturing method of another embodiment of the tohit pots of the present invention, and FIG. This is a partial cross-section showing the raw yellow soil.

1 to 3, in the method for producing raw yellow clay loops according to the present invention, a nonwoven fabric made of a pure cotton material and having a thickness of 12 mm is prepared, cut to a width of 850 mm and a length of 1700 mm (100).

It is natural that the thickness of the nonwoven fabric is a thickness that can mitigate the impact, and can be cut to various sizes according to the demand of the consumer.

The nonwoven fabric cut to the predetermined size is put into a compressor and compressed to a thickness of 3-6 mm (compression step) (102).

The compressed nonwoven fabric is immersed in a nonwoven fabric (impregnating step) 104 by dipping the compressed nonwoven fabric in a storage tank containing a charcoal liquid phase.

At this time, the preferable amount of the charcoal phase is maintained at about 80 to 120 liters.

While the nonwoven fabric is impregnated, the raw yellow soil and the additives are mixed.

The mixing ratio of the green loess is 70%, 10% of germanium, 10% of tourmaline 5% ceramic powder, and 5% of water, and they are stirred and mixed evenly (mixing step).

The storage means 12 is placed on the upper portion of the compressed nonwoven fabric 10 formed by pressing and laminated.

The storage means 12 is formed to have a concave box shape with an open upper part, and a storage part is formed on the inside. A predetermined amount of the mixed raw loess is put into the storage part and laid on the floor A hot water hose 14 is arranged on the upper part of the green loess and the green hose 14 is covered with the hot water hose 14, 16) are formed (lamination step) (108).

In order to form the green sulfur top plate 16, the green loess must be dried,

The warm water is supplied to the hot water hose so as to maintain a temperature of 35-50 degrees, and the hot water is heated for 3 to 5 days, And the green loess is dried to form the sulfuric acid tobacco 16 (drying step) (110).

Subsequently, a plurality of coating layers are formed on the top of the sulfur eutectic tobacco (16) using the yellow soil (coating step) (112).

The coating layer is first coated with a loess powder of 2000 to 5000 mesh on the top of the green toe plate, hardened for 30 minutes, then coated on the upper surface using the same loess powder, and then hardened again for 15-20 minutes.

Subsequently, a third coating is carried out using a contaminated soil coating so as to prevent yellowing of the upper surface of the secondary coating.

It is preferable to use the fine loess powder which is different from the application purpose and the use place of the contamination topcoat to such an extent that it does not appear in the hands of the user within the range required by the consumer.

After the coating process 112 is completed as described above, a rectangular shaped case 20 is provided on the upper and outer edge portions of the bio-sulfur top plate.

It will be appreciated by those skilled in the art that in the present invention, the case 20 may be made of plain wood and various other materials may be used.

The raw yellow soil so produced may emit far-infrared rays and anions, and the phytoncide generated by the case 20 of the whitish wood may facilitate sleeping.

Then, as shown in FIG. 2, the raw yellow soil balls made of the sulfur hexagonal tobacco 16 are manufactured, and then the cool mesh raw material is adhered to the top of the raw yellow globes (step 114).

3 is a partial cross-sectional view of the raw yellow soil materials. First, a surface-woven nonwoven fabric having a constant thickness is compressed to form a compressed nonwoven fabric 10, and a receiving means 12 is formed on the compressed non- .

The storing means 12 is formed in a concave shape, and a storage section is formed in the inner side so as to contain green loess, and the green yellow soil and the hot water hose are stored in the inner side, .

At this time, a colored steel plate is used as the storing means 12. [

The hot water hose 14 is integrally formed in the inner side of the storing means 12 to accommodate the hot water hose 14 so that hot water is supplied and circulated to the inner side of the hot water hood board 16 .

At this time, the hot water hose 14 is arranged in a staggered manner in the inner side of the exhaust hood board 16, and it is natural that a person skilled in the art can variously change the method of arranging the hot water hose 14. [

A yellow clay coating 18 is formed on the top of the green top plate 16 and a case 20 is formed on the outside of the green top plate 16 on which the coating 18 is formed.

The case 20 is installed so that the upper surface of the compressed nonwoven fabric 10, the storage means 12, and the sulfuric acid top plate 16 are wrapped around the top, left and right sides of the head, and the like.

The loess coating layer 18 includes a contaminated soil coating layer made of a soil-to-be-contaminated so that the loess powder does not come in or out.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary,

10: Compressed nonwoven fabric 12: Storage means
14: Hot water hose 16:
18: Loess coat 20: Case
100: cutting process 102: compression process
104: Impregnation step 106: Mixing step
108: laminating step 110: drying step
112: Coating process 114: Adhesion process
200: Living yellow soil

Claims (4)

A cutting step of cutting the surface-facing nonwoven fabric to a predetermined size;
Compressing the cut face nonwoven fabric to form a compressed nonwoven fabric at 3 to 8 mm;
Impregnating the compression-molded compressed nonwoven fabric with impregnated charcoal liquid;
A mixing step of mixing 70% of fresh yellow soil, 10% of ceramic powder, 10% of germanium and 5% of tourmaline in 5% of water;
The storage means is placed on the upper portion of the compressed nonwoven fabric which has passed through the impregnating process, the mixed green loam is laid on the inner side of the colored steel plate, the hot water hose is arranged on the upper part of the green loess, A lamination step of laminating;
A drying step of laminating the green loess and the hot water hose together, then supplying warm water at 30 ° C to 50 ° C to the hot water hose and circulating the hot green water for 3 days to 5 days to dry the green loess so as to form a digestion tobacco;
And a coating step of forming a coating layer on the top of the green toe plate formed by the drying step so that the coating layer is coated with the coating layer so that the loess does not fall off or become buried.
The method according to claim 1,
In the coating process, a fine loess powder of 2000 to 5000 mesh is coated on the surface, dried naturally for 20-30 minutes, coated with a loess powder in a second order, dried for 15-20 minutes, And a soil-to-soil coating.
A cutting step of cutting the surface-facing nonwoven fabric to a predetermined size;
Compressing the cut face nonwoven fabric to form a compressed nonwoven fabric at 3 to 8 mm;
Impregnating the compression-molded compressed nonwoven fabric with impregnated charcoal liquid;
A mixing step of mixing 70% of raw yellow soil, 10% of ceramic powder, 10% of germanium, 5% of tourmaline and 5% of water;
The storage means is placed on the upper portion of the compressed nonwoven fabric which has passed through the impregnating process, the mixed green loam is laid on the inner side of the colored steel plate, the hot water hose is arranged on the upper part of the green loess, A lamination step of laminating;
A drying step of laminating the green loess and the hot water hose together, then supplying warm water at 30 ° C to 50 ° C to the hot water hose and circulating the hot green water for 3 days to 5 days to dry the green loess so as to form a digestion tobacco;
A coating step of forming a coating film on the top of the green toe plate formed by the drying step so as to prevent the loess from falling off or being buried;
And adhering a cool mesh cloth to the upper part of the green loam balls formed by the coating process.
A compression nonwoven fabric 10 cut to a predetermined size and compression-molded to a thickness of 3-6 mm;
A concave shaped storage means 12 formed on the top of the compressed nonwoven fabric 10;
A greenhouse top plate 16 formed of a raw yellow soil mixture and stored in the inside of the storage means 12;
A hot water hose (14) formed integrally with the inner side of the sulfur foot plate (16);
A yellow clay coating layer 18 formed on the top of the sulfur hexagonal clay board 16;
And a case (20) formed so as to surround the sulfur foot plate (16).

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