KR100374742B1 - A construction method of building inner part wall and bottom - Google Patents

Abstract

In the building inner wall and floor construction method according to the present invention, the inner wall 10 and the floor 12 are arranged at regular intervals through the gap retaining member 24 to form an air circulation path 14 therebetween and An opening is formed in a portion facing the casing, and a case 20 in which a plurality of areas are divided in a vertical area and is repeated by a plurality of partitions divided therein, and a copper plate inserted into and fixed in the partition space of the case 20 ( 22) and a solidified first new material 30 formed by pulverizing and mixing the cedar leaves, wormwood leaves, ocher and sun salt, which are inserted into and fixed in the divided space of the case 20, and inserted into the divided space of the case 20. The second new material 40 in a solidified state formed by pulverizing and mixing the charcoal, ganban stone, sun salt, and juniper leaves, which are fixed and inserted into the partition space of the case 20, green ginkgo leaves, mint leaves, oak leaves, Crush the sun salt and The heating hose 70 fixed by the solidified third new material 50 formed by mixing and the wire net 60 evenly spread on the surfaces of the first to third new materials 30, 40, and 50 facing the room. And, filled between the wire mesh 60 and the heating hose 70 and at the same time laid a certain thickness of the composite material 80, the ocher, elvan is applied in a thin thickness layer on top of the composite material 80 , Ocher, elvan, so as to be applied through the binding member 100 on the fourth new material 90 of the powder state made by grinding and mixing blue ginkgo leaf, true charcoal, sun salt, mugwort leaf, and the fourth new material 90. Crushing and mixing the fifth new material (110) of dough state made by grinding and mixing blue ginkgo leaves, sun salt, rice straw, and ocher, elvan, blue ginkgo leaf, charcoal, sun salt, and wormwood leaves applied to the fifth new material (110). By constructing the sixth new material 120 by radiation of far infrared energy In addition to smoothing metabolism, it also has the ability to treat various pandemics and waves by natural therapies, and also detoxifies, triglycerides, sound insulation and sound absorption, dehumidification, moisture control, and bacteria from concrete buildings. Breeding and growth inhibition effect.

Description

Building wall and floor construction method {A CONSTRUCTION METHOD OF BUILDING INNER PART WALL AND BOTTOM}

The present invention relates to a building inner wall and floor construction method, and more particularly to a building inner wall and floor construction method to facilitate the metabolism by natural therapy by far-infrared energy radiated from the building inner wall and floor.

Conventional building wall and floor construction methods are waterproofed to prevent water leakage while being constructed by placing concrete, and the interior is made of wood, plywood, synthetic resin, plastic, gypsum board, iron plate, etc. Due to the finishing treatment, it is not possible to radiate far-infrared energy from the walls and floors of the building, so that it cannot metabolize smoothly, and it does not have the ability to treat various panaceas and wave suppression by natural therapy, and also detoxify toxic from concrete buildings. There is no effect of trilip bath, sound insulation and sound absorption, dehumidification effect, moisture control effect, germ propagation and growth inhibition effect.

Therefore, the present invention has been made to solve the above problems, the object of the present invention is to facilitate the metabolism by constructing as a material capable of radiating far-infrared energy on the inner wall and floor of the building and at the same time various by natural therapy Construction of walls and floors that have a panacea treatment effect and wave suppression ability, and also provide toxic detoxification, trilip bath effect, soundproof dust and sound absorption effect, dehumidification effect, moisture control effect, germ propagation and growth suppression effect from concrete building To provide a method.

Building inner wall and floor construction method according to the present invention made to achieve the above object, the inner wall and the floor are arranged with a predetermined interval through the gap retaining member to form an air circulation path therebetween and the opening to the part facing the room A case formed with a plurality of divided spaces which are formed at the same time and divided into a plurality of partition walls, which are repeated in the vertical and horizontal directions, a copper plate inserted and fixed in the divided space of the case, and a juniper leaf inserted and fixed in the divided space of the case And the first new material of the coagulation state made by grinding and mixing wormwood leaves, ocher and sun salt, and the second new material of the coagulated state made by grinding and mixing the charcoal, ganban stone, sun salt and juniper leaves which are inserted and fixed in the partition space of the case. Grind green ginkgo leaves, peppermint leaves, oak leaves and sun salt inserted into the partition space of the case And a heating hose fixed by a solidified third new material formed by mixing, a wire mesh evenly spread on the surfaces of the first to third new materials facing the room, and filled between the wire mesh and the heating hose. A fourth new material in a powder state made by pulverizing and mixing the composite material laid down to a predetermined thickness and a loess, ganban stone, blue ginkgo biloba, true charcoal, sun salt, and mugwort leaf coated with a thin layer on top of the composite material, and the fourth new material Ocher, elvan, blue ginkgo biloba leaves, sun salt, and the fifth new material in the state of dough made by grinding and mixing rice straw to be applied through a binding member on the top of the loess, ocher, elvan, blue ginkgo leaf, true charcoal and sun salt applied to the fifth new material. , Comprising the sixth new material made by grinding and mixing wormwood leaves.

Figure 1 is a side cross-sectional view showing a building inner wall and floor construction method according to the present invention,

FIG. 2 is an enlarged cross-sectional view illustrating part A of FIG. 1.

Explanation of symbols on the main parts of the drawings

10: inner wall 12: floor

14: air circulation path 16: duct

20: case 20a: through hole

22: copper plate 22a: through hole

24: spacing member 30: first new material

40: second new material 50: third new material

60: wire mesh 70: heating hose

80: composite material 90: fourth new material

100: binding member 110: fifth new material

120: 6th new material

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

Building inner wall and floor construction method according to the present invention, as shown in Figures 1 and 2, the building inner wall 10 and the floor 12 are arranged at regular intervals through the interval maintaining member 24, the A case 20 is installed to form an air circulation path therebetween, and the upper side of the inner wall 10 is connected to the air circulation path 14 so that outside air is sucked or discharged through the air circulation path 14. A plurality of ducts 16 are installed so that an opening is formed in a part facing the inside of the case 20, and a plurality of divided spaces are formed to be repeated in up, down, left and right directions by a plurality of partitions divided. It is.

At this time, in the divided area of the case 20, a thin copper plate 22 having a purity of 99.9% and uncontaminated juniper leaf 65%, wormwood leaf 18%, loess 14%, and natural salt 3% as fine powder particles. The first new material 30 solidified to a predetermined size by pulverizing and mixing, 70% uncontaminated true charcoal, 20% elvan, 3% natural salt, and 7% juniper leaf were solidified to a predetermined size by pulverizing and mixing. Second new material 40, 50% uncontaminated blue ginkgo leaves, peppermint leaf 24%, oak leaf 23%, sun salt 3% by grinding and mixing with fine powder particles, the third new material (50) Is inserted.

That is, in the divided area of the case 20, before the first to third new materials 30, 40, and 50 are inserted through the opening, the case in which the copper plate 22 is interposed one by one. The first to third new materials 30, 40, and 50 are alternately inserted in the divided area of the 20 in the up, down, left and right directions, and the air circulation passage 14 is inserted into the case 20 and the copper plate 22. A plurality of through holes 20a and 22a are respectively formed to circulate air.

In addition, the case 20 is manufactured by dividing into multiple pieces so that the first to third new materials (30, 40, 50) are inserted into each of the predetermined amount alternately in the up and down and left and right directions while facilitating construction and production. When the case 20 is installed on the inner wall 10 or the bottom 12 of each corner portion of the corner 20, a plurality of interval maintaining members 24 are maintained at regular intervals so as to form an air circulation path 14. Are respectively fixed, and the case 20 is supported by a plurality of fastening members (not shown) which are fixed to the inner wall 10 or the bottom 12 through a predetermined position of the case 20 indoors.

On the other hand, the first to the third new material (30, 40, 50) in the upper part of the case 20, the bottom 12 side of the iron overlapped in the horizontal and vertical directions in the state respectively inserted into the case 20 Lay the death 60, and evenly distributes the heating hose 70 evenly on the upper portion of the wire mesh 60, and to be fixed by the wire mesh 60, the wire mesh 60 and the heating hose ( The upper portion of the 70) is filled between the wire mesh 60 and at the same time lay the composite material 80 so that the heating hose 70 is not visible.

At this time, the composite material 80, the thermal insulation gravel consisting of rubble collected from ganbanite, jade, biotite, and between the thermal insulation pebbles 35%, charcoal 30%, wormwood leaf 25%, juniper leaf 10 It is granulated to solidify to a predetermined size by grinding and mixing the fine powder into fine powder particles.

And, on the upper portion of the composite material 80, the fourth new material (90) of powdered state mixed by grinding 50% ocher, 15% elvan stone, 7% green ginkgo leaf, 15% charcoal, 15% natural salt, 10% mugwort leaf Evenly sprinkled with a thin thickness layer, and spreading on the upper portion of the fourth new material (90) to overlap the cross member in a horizontal and vertical direction, the binding member 100 made of a bar or bamboo of a certain size, the binding member 100 On top of the loess 65%, elvan rock 10%, blue ginkgo leaf 7%, sun salt 3%, rice straw 15% pulverized and mixed by pouring water and kneading the fifth new material 110 is applied to a predetermined thickness.

Then, on the interior surface of the first to third new materials 30, 40, and 50 on the inner wall 10 side, and on the interior surface of the fifth new material 110 on the bottom 12, 50% of loess, and elvan 15 %, Green ginkgo leaves 7%, charcoal 15%, sun salt 3%, mugwort leaf 10% of the sixth new material 120 is mixed and mixed.

At this time, the sixth new material 120 is the interior surface of the first to third new materials 30, 40, 50 on the inner wall 10 side, and the interior surface of the fifth new material 110 on the bottom 12 side. In the first sprayed state, it is mixed with water, and at the same time, the surface is smoothed and solidified, for example, by a trowel.

In the building wall and floor construction method of the present invention configured as described above, the first to third new materials 30, 40, and 50 of a solidified state having a predetermined area and thickness through the case 20 so that the air circulation path 14 is formed. After alternately attaching to each other, the sixth new material 120 is applied to the first to third new materials 30, 40 and 50 on the inner wall 10 side, and the first to third new materials 30 on the bottom 12 side. The upper part of the 40, 50, the wire mesh 60, the heating hose 70, the composite material 80, the fourth new material 90, the binding member 100, the fifth new material 110, the sixth new material ( Since it is a construction method to be laminated in the procedure of 120) by the natural therapy by the far-infrared energy radiated from the first to sixth new materials (30, 40, 50, 90, 110, 120) and the composite material (80) Metabolism can be smooth.

That is, as natural therapy by far-infrared energy, for example, adult disease, modern disease, gynecological disease, geriatric disease, concentration, memory, blood circulation coordination, cell activation, capillary expansion, autonomic nerve activation, insomnia, fatigue recovery, stress, neurosis, depression, It can cure skin disease, sleep deprivation, mental stability, various diseases, etc., and it can be protected from electromagnetic waves, water waves, noise, etc. as a wave by far-infrared energy. Of course, there is a trilip bath effect, soundproofing and sound-absorbing effect, dehumidification effect, moisture control effect, bacteria propagation and growth inhibition effect.

As described above, the building wall and floor construction method according to the present invention, by constructing as a material capable of radiating far-infrared energy on the building wall and floor to facilitate the metabolism and at the same time to treat various panacea by natural therapy And it has the ability to suppress the wave, and also has the toxic detoxification, trilip bath effect, soundproofing and sound absorption effect, dehumidification effect, moisture control effect, bacteria propagation and growth inhibition effect from concrete building.

Claims (13)

The inner wall 10 and the bottom 12 are arranged at regular intervals through the space keeping member 24 to form an air circulation path 14 therebetween, and an opening is formed in the part facing the room and is divided at the same time. A case 20 in which divided spaces of a plurality of areas are formed to be repeated in the vertical direction and the left and right directions by the partition wall; A copper plate 22 inserted into and fixed in the divided space of the case 20, The first new material 30 of the solidified state made by grinding and mixing the juniper leaves, mugwort leaves, ocher, sun salt, which is inserted into the divided space of the case 20, and A second new material 40 in a solidified state made by pulverizing and mixing the true charcoal, elvan, natural salt, and juniper leaf inserted into the divided space of the case 20; A third new material 50 in a solidified state formed by pulverizing and mixing the green ginkgo leaves, peppermint leaves, oak leaves, and natural salts inserted into the divided space of the case 20, A heating hose 70 fixed by a wire mesh 60 evenly spread on the surfaces of the first to third new materials 30, 40, and 50 facing the room; Filled between the wire mesh 60 and the heating hose 70 and at the same time the composite material 80 and laid to a certain thickness, The fourth new material 90 of the powder state made by grinding and mixing the loess, elvan, blue ginkgo biloba, true charcoal, sun salt, mugwort leaf coated with a thin layer on top of the composite material 80, The fifth new material 110 of the dough state made by grinding and mixing the loess, elvan, blue ginkgo leaf, sun salt, rice straw so as to be applied through the binding member 100 on the upper portion of the fourth new material 90, Building interior wall and floor construction method comprising a sixth new material (120) made by grinding and mixing the loess, elvan, blue ginkgo leaf, charcoal, sun salt, mugwort leaf applied to the fifth new material (110). The method of claim 1, Building inner wall and floor construction, characterized in that the plurality of ducts 16 are installed on one side of the upper end of the inner wall 10 so as to be connected to the air circulation passage 14 so that outside air is sucked or discharged through the air circulation passage 14. Way. The method of claim 1, Within the divided area of the case 20, the case 20 in a state where the copper plate 22 is interposed one by one before the first to third new materials 30, 40, and 50 are inserted through the opening. The inner wall and floor construction method, characterized in that the first to third new materials (30, 40, 50) are alternately inserted into each other in the vertical and horizontal directions. The method of claim 1, The case 20 and the copper plate 22, the building wall and floor construction method characterized in that a plurality of through-holes (20a, 22a) are formed so that air is circulated to the air circulation path (14), respectively. The method of claim 1, The copper plate 22 is a building inner wall and floor construction method characterized in that made of a thin thickness having a purity of 99.9%. The method of claim 1, The first new material 30 is a non-contaminated juniper leaf 65%, mugwort leaf 18%, loess 14%, sun salt 3% crushed and mixed with fine powder particles to the interior wall and floor construction, characterized in that solidified to a predetermined size Way. The method of claim 1, The second new material 40 is a non-contaminated charcoal 70%, ganban stone 20%, sun salt 3%, juniper leaves 7% by grinding and mixing the fine powder particles, the interior wall and floor construction, characterized in that solidified to a predetermined size Way. The method of claim 1, The third new material 50 is a non-contaminated green ginkgo leaf 50%, peppermint leaf 24%, oak leaf 23%, sun salt 3% crushed and mixed with fine powder particles, the inner wall of the building, characterized in that solidified to a predetermined size And floor construction method. The method of claim 1, The composite material 80, and thermal insulation gravel consisting of rubble collected from elvan, jade, biotite, The interior walls and floors of the building, characterized in that the charcoal 35%, ganban stone 30%, mugwort leaf 25%, juniper leaf 10% pulverized and mixed with fine powder particles to be filled between the warm gravel to solidify to a predetermined size Construction method. The method of claim 1, The fourth new material (90) and the sixth new material (120) is characterized in that the powder is a state of pulverized by mixing 50% ocher, 15% elvan stone, 7% blue ginkgo leaf, 7% true charcoal, 3% natural salt, 10% mugwort leaf Building inner wall and floor construction method. The method of claim 1, The binding member 100 is made of a bar of a certain size or bamboo made of a building inner wall and floor, characterized in that the superimposed to cross in the horizontal and vertical directions. The method of claim 1, The fifth new material 110 is a building interior wall and floor construction method, characterized in that the crushed and mixed with the following: ocher 65%, elvan rock 10%, blue ginkgo leaf 7%, sun salt 3%, rice straw 15%. The method of claim 1, The sixth new material 120 is a method of building inner walls and floors, characterized in that the surface is smoothly mixed by the trowel at the same time mixed with water in a powdered state.