KR20080096895A - Construction method of house with multi-stories integrated with base, soil floor, soil wall and soil slab - Google Patents

Abstract

A multilayer building construction method is provided to gain improved insulation and warm-keeping, and to improve effectiveness of building and profitability of maintenance and repair. A multilayer building construction method comprises following steps: a step for applying within the ground(1) the pillars and the based wall(2) of building; a step for digging the ground and burying a plurality of ground pressure transmission material(3); a step for applying the bottom concrete layer(4) in the upper side of the determined ground; a step for setting up to the grid format Interconnector; a step for applying the soil bottom layer(6) in the bottom concrete layer and vapor of the earth Interconnector(5) upper side; a step for applying the mud-plastered wall body(7) to the vertical direction in the edge of the soil bottom layer; a step putting the constant interval and arranges the ground pressure transmission material to the outer side surface of the mud-plastered wall body; a step for applying the ferroconcrete wall(8) to the edge top liner of the bottom concrete layer in the outer side of the mud-plastered wall body; a step putting the constant interval and sets up the yoke(9) in the upper surface portion of the ferroconcrete type wall and mud-plastered wall body; a step for setting up paper board(10) hung out; a step for applying the soil slab layer in the upper side of plank; a step for casting down to the grid format Interconnector; a step for applying the ferroconcrete type slab layer(12) in the upper side of the soil slab layer(11) and vapor of the earth Interconnector.

Description

Construction method of house with multi-stories integrated with base, soil floor, soil wall and soil slab}

1 is a partial cross sectional view of a multi-story house built by the method of the present invention.

2 is a partial flat sectional view of a multi-storey house constructed by the method of the present invention.

3 is an enlarged cross-sectional view of a wall of a multi-storey house constructed by the method of the present invention.

4 is a partially enlarged cross-sectional view of a sleeve layer part of a multi-story house built by the method of the present invention.

5 is an enlarged perspective view of a portion of the paper machine transfer material and paper machine connecting material used in the present invention.

6 is a process chart for explaining the method of the present invention.

Explanation of symbols on the main parts of the drawings

1: ground 2: pillars and walls

3: Keeper Transfer Material 4: Floor Concrete Floor

5: Keeper connector 6: soil bottom layer

7: soil wall 8: reinforced concrete wall

9: yoke 10: cardboard board

11: soil slab layer 12: reinforced concrete slab layer

13: wood half frame 14: anchor

15: humidity control opening and closing 16: yoke drooping prevention anchor

17: heat insulating material 18: heater

19: heat reflector 20: far infrared emitter

31,51 cotton fiber 32,52 blend

71,111: Settling Home

The present invention relates to a method of building a multi-storey house integrated with ground, a soil floor, a soil wall, and a soil slab. More specifically, after the concrete floor is formed on the upper surface of the ground, the walls and the ceiling are formed with soil. It is formed in the shape of a single-piece soil tunnel, which is composed entirely of soil, and is continuously transferred to the soil floor, the soil wall, and the soil slab by lifting the soil from the ground through the transport material. By building outer walls and slabs into reinforced concrete structures outside of the building, building a multi-storey house in which the ground and the soil floor, soil wall and soil slab are integrated to keep the indoor environment environmentally friendly. Invented to ensure a healthy living space through energy and far-infrared rays generated from and soil.

In general, it is called sick house syndrome due to the health problems and discomforts that residents experience due to harmful substances from building materials or wallpaper used when building a house or building.

Volatile organic compounds are released from many materials used in new homes, including carcinogens such as benzene, toluene, chloroform, acetone, styrene, and formaldehyde.

There are also contaminants such as radon, asbestos, carbon monoxide, carbon dioxide, nitrogen oxides, ozone, fine dust, and airborne bacteria that are generated when building a house.In addition, organisms such as molds, viruses, ticks, pets, etc. It can be polluted and if these pollutants are not discharged out of the building and accumulate indoors, they cause various problems.

If a person is exposed to such contamination for a short period of time, symptoms such as headache, irritation of eyes, nose and throat, cough, itching, dizziness, fatigue and decreased concentration can result in respiratory disease, heart disease, cancer, etc. Diseases may occur, and indoor air pollution varies greatly depending on the environmental conditions inside and outside the house, the types and methods of construction materials used, and ventilation facilities.

Therefore, in order to reduce such damages, eco-friendly materials should be used instead of chemical-containing finishes, and ventilation should be used to release indoor pollutants, use air cleaning products, and move to a new house before moving to a boiler. Increase the room temperature with a lamp and ventilate the volatile harmful substances.

By the way, the floor or the wall surface of the house currently being constructed in general are mostly made of concrete, so that the plastering using cement on the floor base and wall of the house made of concrete.

As described above, in case of concrete and cement, not only harmful to the human body, but also adversely affect the health promotion, and also has a limitation in use because it can only be used in the construction of residential houses.

On the other hand, traditional earthen building is to build earth bricks, install soil walls or earthen walls, fix the timber on the roof, and install the pillars, beams, purlins, rafters, etc. on the rafters. After weaving or board boards and attaching the soil to the roof, we install the supporting wood between the lower, middle, and lintel, and weave the clay and attach the soil to it to build the walls. Severe material separation occurs due to incomplete bonding due to the combination of different materials and deformation of wood, viscous weakening or shrinkage of soil, vibration, etc. There is a problem falling.

Therefore, in recent years, the clay house, especially the ocher room, is due to the fact that far infrared rays emitted from the ocher promote the metabolism and blood circulation of the human body, and generally form flooring and walls with ocher and also have heating means therein. The heat of the means allows the user to exhaust the sweat sufficiently in the ocher.

In other words, the ocher room as described above is to make the bottom and wall surface of the ocher room by applying a loess for heating on the floor or wall surface when the production, and applying the kneaded ocher on it.

By the way, when manufacturing the ocher room by plastering the ocher as described above, if the ocher room is small, the production time or workability is not greatly limited, but when producing a large ocher room, it takes a long time because the large amount of ocher should be plastered. In addition, there is a problem that the workability is deteriorated, and when the ocher is plastered, it is difficult to maximize the poultice effect of the loess because chemical additives are diluted in the loess to overcome the phenomenon of cracking of the ocher wall.

Therefore, in recent years, the development of ocher using ocher has been proposed in the Republic of Korea Patent No. 10-0615567, which is a water vein blocking layer is formed to block the vein on the upper surface of the concrete floor, germanium on the upper surface of the vein blocking layer Gravel and jade gravel and ocher gravel is applied, and the boiler excel pipe for heating the floor is installed on the upper surface of the gravel layer, and the jade stone and ocher sand is put between the boiler excel pipe to cover the boiler excel pipe An aluminum sheet and a nonwoven fabric are attached to the upper surface, respectively, and a plurality of ocher plates are fixed and installed on the bottom foundation surface, and the non-woven fabric and the natural sheet are laid on the upper surface of the ocher plate, and then natural paint or water-soluble wax is applied. To finish the floor, cut the wood to a certain thickness and size, A is manufactured by securely fixed to the concrete wall, and install the yellow soil plate attached to the wood frame number is configured for construction of a wall HwangToBang.

However, this construction method has already constructed the structure of the building with concrete and then fixedly installs the ocher plate preformed from the outside on the floor and the walls in the interior, so construction, economical efficiency and workability are not good. In addition, there is a problem in the ceiling that the construction of the loess is difficult, so that the whole building is not environmentally friendly and the perfect effect using the loess is not obtained.

The present invention has been devised to solve such problems in the related art, the wall and the slab of the outdoor structure including the floor surface directly formed on the upper surface of the ground is constructed of reinforced concrete structure, the floor and walls of the room and The ceiling is formed as a series of soils with a certain thickness, but it is possible to drastically increase the insulation and thermal insulation effect by lifting the ground from the ground through the transfer material to the soil floor, soil wall and soil slab. It can improve the effectiveness of the building and the economics due to maintenance, prevent damage caused by the odor generated from concrete, and use natural materials that are beneficial to the human body, such as stone proportion, which is a kind of loess, mud and white clay. Is it possible to secure eco-friendly and healthy living space through the ground generated from the ground? The purpose is to provide a method of building a multi-storey house with a half, soil floor, soil wall, and soil slab.

Multi-storey house construction method of the present invention for achieving the above object, the step of laying the pillars and the walls that are the foundation of the building in the ground using the reinforcement and concrete casting method after the ground; Filling the space between the pillar and the wall with aggregate such as soil and gravel, and at the same time, burying a part of a plurality of paper transfer materials on the ground and performing compaction; Placing a bottom concrete layer on the top of the ground; Laying a ground connecting material connected to the ground transporting materials in a lattice form on an upper surface of the bottom concrete layer; Placing an earth bottom layer on the bottom concrete layer and the keeper connection material; Placing a soil wall in a vertical direction at the edge of the soil bottom layer; Disposing a paper transfer material on the outer surface of the soil wall at regular intervals; Placing a reinforced concrete wall above the edge of the floor concrete layer outside the soil wall; Installing a yoke at a predetermined interval on an upper surface of the earth wall and the reinforced concrete wall; Installing board cardboards on top of the yoke; Placing an earth slab layer on the top surface of the board cardboard; Laying a ground connecting material connected to the ground transporting materials in a lattice form on an upper surface of the soil slab layer; Placing a reinforced concrete slab layer on the upper surface of the soil slab layer and the ground connecting material; characterized in that consisting of.

In this case, after placing the reinforced concrete slab layer, the step of pouring the reinforced concrete slab layer begins with the step of placing the soil bottom layer on the upper surface of the reinforced concrete slab layer in response to the number of floors of the house to be built. It is characterized by repeating until.

In addition, if necessary, it is characterized in that the wooden half frame is installed as an anchor on the inside of the soil wall.

On the other hand, the paper transfer material is a sewing fabric of several cotton fibers cut into 200-300mm in the shape of a band having a thickness of 8-12mm, and the mud and loess, fine stone powder, sail and charcoal on the entire outer peripheral surface of each 25 -35: 45-55: 12-18: 3: Diluted at a ratio of 2% by weight, and then a compound formed by kneading with 2-3% salt concentrated water, each of which is applied to a thickness of 22-28mm do.

In addition, the paper-making connector is formed by sewing several cotton fibers cut into 200-300 mm in a band shape having a thickness of 1-3 mm, and the mud, loess, fine stone powder, sail, and charcoal on the entire outer circumferential surface thereof, respectively 25 -35: 45-55: 12-18: 3: After diluting at a ratio of 2% by weight, the compound formed by kneading with 2-3% salt concentrated water is applied to the thickness of 12-18mm each. do.

At this time, the paper transfer material and the paper connection member is characterized in that installed at intervals of 1.5-2M.

In addition, the outer surface and the upper surface of the soil wall and the soil slab layer is characterized in that the mounting groove for inserting and installing the paper transfer material and the paper connecting member, respectively.

 And, a part of the paper transfer material is installed to the outside of the soil wall is installed to protrude outward from the lower portion of the top layer or the top of the top layer for evaporation of water, but the humidity control opening and closing is installed in the projecting portion of the paper transfer material. It is characterized by.

On the other hand, between the yoke and reinforced concrete slab layer, it is characterized in that the installation of the yoke sag prevention anchor as needed.

In addition, between the bottom concrete layer and the soil bottom layer, between the soil wall and reinforced concrete-type wall, and between the soil slab layer and the reinforced concrete slab layer is characterized in that additional insulation is provided as necessary.

In addition, the soil bottom layer, the soil wall and the soil slab layer is characterized in that additionally installed a heater that generates heat when supplied with electricity as needed.

In addition, if necessary, the bottom surface of the soil bottom layer, the outer surface of the soil wall, and the upper surface of the soil slab layer are characterized in that a heat reflection plate such as a copper plate, an aluminum plate or a galvanized steel sheet is additionally installed.

The soil bottom layer, the soil wall, and the soil slab layer may be formed of ocher, and, if necessary, are poured by mixing a far-infrared emitter such as germanium, fine elvan, or fine jade.

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

1 shows a partial cross sectional view of a multi-storey house built by the method of the present invention, FIG. 2 shows a partial flat cross-sectional view of a multi-storey house built by the method of the invention, and FIG. 4 is an enlarged cross-sectional view of a wall in a multi-story house, and FIG. 4 is a partially enlarged cross-sectional view of a sleeve layer part of a multi-layer house built by the method of the present invention, and FIG. 5 is a part of a paper transfer material and a paper connection material used in the present invention. An enlarged perspective view is shown, and FIG. 6 shows a process diagram for explaining the method of the present invention.

According to the present invention, the multi-story house building method includes the steps of placing the pillars and the walls (2), which are the foundations of the building, in the ground (1) by using reinforcement and concrete placing method after the ground excavation;

Filling the aggregates such as soil and gravel into the spaces between the pillars and the wall (2) and at the same time burying a plurality of paper transfer materials (3) on the ground (1) and compacting them (S2);

Placing a bottom concrete layer (4) on the top surface of the ground (1) (S3);

Laying a paper-making connecting material (5) in the form of a grid on the upper surface of the bottom concrete layer (4), interconnecting the paper-making material (3);

Placing an soil bottom layer (6) on the bottom concrete layer (4) and the top surface of the paper machine (5) (S5);

Placing the soil wall (7) in the vertical direction at the edge of the soil bottom layer (6) (S6);

Disposing the paper transfer material (3) on the outer surface of the soil wall (7) at a predetermined interval (S7);

Placing (S8) the reinforced concrete wall (8) above the edge of the bottom concrete layer (4) from the outside of the soil wall (7);

Installing the formwork on the upper surface of the soil bottom layer (6) and the yoke (9) on the upper surface of the soil wall (7) and the reinforced concrete-type wall (8) at regular intervals to install at regular intervals ( S9);

Installing boards (10) on the upper surface of the yoke (9) (S10) and;

Placing an earth slab layer (11) on the upper surface of the board (10) (S11);

Laying (S12) a paper-making connecting material (5) on the upper surface of the soil slab layer (11) to interconnect the paper-making material (3);

And placing the reinforced concrete slab layer 12 on the upper surfaces of the soil slab layer 11 and the paper connecting member 5 (S13).

At this time, after placing the reinforced concrete slab layer 12, in response to the number of floors of the house to be built, placing the soil bottom layer 6 again on the upper surface of the reinforced concrete slab layer 12 (S3). Starting from the reinforcement concrete slab layer (12) is characterized in that it is repeatedly performed until the step (S13).

In addition, if necessary, the wooden hemisphere frame 13 is additionally installed as an anchor 14 inside the soil wall 7.

On the other hand, the paper transfer material (3) is formed by sewing several cotton fibers 31 cut into 200-300mm in a band shape having a thickness of 8-12mm, mud, loess, fine stone powder on the entire outer peripheral surface 25, 35, 45-55, 12-18, 3: 2% by weight of dilution, and the mixture (32) formed by kneading with 2-3% salt concentrated water 22 It is characterized in that the coating -28mm thickness.

In addition, the papermaking connector 5 is sewn into a strip shape having a thickness of 1-3 mm cut several cotton fibers 51 cut to 200-300 mm, mud, loess, fine stone powder, Dilutions (52) formed by diluting sail and char at 25-35: 45-55: 12-18: 3: 2% by weight, followed by kneading with 2-3% salt-concentrated water, respectively It is characterized by coating at a thickness of 18 mm.

At this time, the paper transfer material (3) and the paper connection material (5) is characterized in that installed at intervals of 1.5-2M.

In addition, the outer surface and the upper surface of the soil wall (7) and soil slab layer (11) is characterized in that the recessed grooves (71, 111) for inserting and installing the paper transfer member (3) and the paper connecting member (5), respectively It is done.

 And, a part of the paper transfer material (3) which is installed to the outside of the soil wall (7) is installed so as to protrude out from the bottom of the vehicle layer or the top of the top layer for water evaporation, the paper transfer material (3) Protruding portion of the humidity control is characterized in that the opening and closing port 15 is installed.

On the other hand, between the yoke (9) and the reinforced concrete slab layer (12) is characterized in that the installation of the yoke sag prevention anchor 16, if necessary.

In addition, between the bottom concrete layer 4 and the soil bottom layer 6, between the soil wall 7 and the reinforced concrete wall 8, and between the soil slab layer 11 and the reinforced concrete slab layer 12. It is characterized by the additional installation of the heat insulating material 17 as needed.

In addition, the soil bottom layer 6, the soil wall 7 and the soil slab layer 11 is characterized in that the heater 18 is installed to heat the operation when supplying electricity, if necessary.

In addition, if necessary, a heat reflecting plate 19 such as a copper plate, an aluminum plate, or a galvanized steel sheet may be provided on the bottom surface of the soil bottom layer 6, the outer surface of the soil wall 7, and the upper surface of the soil slab layer 11. It is characterized by the additional installation.

The soil bottom layer 6, the soil wall 7, and the soil slab layer 11 are poured into loess, and, if necessary, the far-infrared radiator 20 is mixed with the loess, such as germanium, micro-vanite, or fine jade. It is characterized by pouring.

Referring to the effect of the present invention made of such steps are as follows.

First, the multi-storey house construction method of the present invention allows the construction of an eco-friendly multi-storey house by mixing the traditional soil building method and the reinforced concrete method of the multi-storey house, which was generally available only in the reinforced concrete method, and discharged from the ground (ground). It is a major technology component that can bring the qi (aka jiji) into the room to promote the health of the human body through the living and breathing soil.

At this time, the ground is a term that collectively refers to the total energy of the aggregate of all elements constituting the land, that is, the energy of the land. "Is defined.

The soil bottom layer 6 and the soil wall 7 and the soil slab layer 11 which are poured by the present invention do not have a form installed in isolation from each other and are grounded through the paper transfer material 3 and the paper connection material 5. ) To form the earth's energy, that is, the earth (地 氣) in the interconnected state, and maintains the shape of the soil installed in each to act on the health of the human body.

In the present invention, first, the excavation work is carried out on the ground to build a building, and then the pillars and the walls (2), which are the foundations of the building using reinforcement and concrete pouring methods, are poured into the ground (S1). While filling aggregates such as soil and gravel into the spaces between the pillars and the wall 2, a portion of the plurality of paper transfer materials 3 is buried in the ground 1 and compacted (S2).

At this time, the installation interval of the paper transfer material 3 is to have a 1.5-2M so that the ground of the ground can be sufficiently lifted through the paper transfer material (3) to be delivered.

Subsequently, the bottom concrete layer 4 is placed on the upper surface of the ground 1 (S3), wherein the base material 3 having the state in which the ground 1 is partially buried is the bottom concrete layer. It penetrates the edge side of (4) and is exposed to the upper surface part of the floor concrete layer (4).

Subsequently, the girder connecting material 5 is laid on the upper surface of the bottom concrete layer 4 in a lattice form at intervals of 1.5-2M, similarly to the girder transmitting material 3, thereby interconnecting the gyro transmitting materials 3 to each other (S4). Next, the bottom concrete layer (4) and the ground connecting material (5) on the upper surface of the soil floor layer (6) of 130-170 mm thick using ocher will be poured (S5).

As such, when the soil bottom layer 6 made of ocher is dried and dried, the soil wall 7 made of ocher is placed in the vertical direction at the edge of the soil floor layer 6 (S6), wherein the soil wall The outer surface of the (7) is formed in the mounting groove (71, 111) at a predetermined interval and fixedly installed in such a form that the burying the transfer material (3) at a predetermined interval therebetween (S7).

Subsequently, the reinforced concrete wall 8 is poured into the upper portion of the bottom concrete layer 4 outside the soil wall 7 at step S8, and the yoke is relatively heavy on the upper surface of the soil bottom layer 6. (9) and boards (10), the soil slab layer (11) and the formwork to support the steel concrete slab layer (12) and the earth wall (7) and reinforced concrete wall (on the top of the formwork) The yoke (9) for holding the soil slab layer (11) on the upper surface of 8) is installed at a predetermined interval (S9).

Subsequently, board cardboards 10 are installed on the upper surface of the yoke 9 to prevent the ocher from being poured into the soil slab layer 11 from falling (S10), and the upper surface of the board cardboard 10 is made of ocher. The soil slab layer 11 is poured into 130-170 mm thickness (S11).

As described above, the seating grooves 71 and 111 are formed in a lattice shape at a predetermined interval (that is, 1.5-2 M interval) on the top surface of the soil slab layer 11 on the board cardboard 10, and thus the carrier transfer materials 3 are formed. Landfiller 5 is installed to interconnect with each other (S12).

Thereafter, when the reinforced concrete slab layer 12 is placed (S13) on the upper surfaces of the soil slab layer 11 and the ground connecting material 5, the building construction of one layer is completed.

After completing the construction of one floor through the above steps, the above process may be repeated according to the height of the building to be constructed.

That is, after placing the reinforced concrete slab layer 12, in step S3, in response to the number of floors of the house to be built, placing the soil bottom layer 6 on the upper surface of the reinforced concrete slab layer 12 (S3). Starting from the above it is repeated until the step (S13) of placing the reinforced concrete slab layer 12 above the floor.

In this case, if the soil wall 7 is left as it is, the soil wall may be aged after prolonged periods of time, which may weaken the viscosity, as well as deformation and cracks due to external pressure or frequent wallpaper replacement. In the inner side, it is preferable to fix the wooden diaphragm frame 13 to the reinforced concrete wall 8 side using the anchor 14 as needed.

In the above, the ocher used for placing the soil bottom layer 6, the soil wall 7 and the soil slab layer 11 is naturally friendly, as well as the functions of controlling heat, sound insulation, humidity, deodorization, and the like. To be beneficial, it has excellent emission of far infrared rays, which is superior to any other building materials.

On the other hand, the soil floor layer (6) and soil wall (7) and soil slab layer (11) having a state of being interconnected in the interior of the reinforced concrete building by pulling up the local keeper (5) directly or a keeper connecting material (5) The paper transfer material (3) to be delivered through the overlap of several cotton fibers 31 cut to 200-300 mm in width to sufficiently transfer the ground of the ground has a thickness of 8-12 mm through sewing It is formed in the form of a strip, and the entire outer peripheral surface is diluted with 25 to 35% by weight of mud, 45 to 55% by weight of ocher, 12 to 18% by weight of fine stone powder, 3% by weight of sail, and 2% by weight of charcoal. Each compound 32 formed by kneading with water concentrated at -3% has a thickness of 22-28 mm.

In addition, the paper-making connecting material 5 which delivers the paper conveyed through the paper-making material 3 to the soil bottom layer 6 and the soil slab layer 11, respectively, cut several widths 200-300 mm. The cotton fibers 51 are superimposed and sewn to form a strip having a thickness of 1-3 mm, and the outer circumferential surface thereof is 25-35% by weight of mud, 45-55% by weight of red clay, and fine stone powder as in the paper transfer material 3. 12-18 wt% of the mixture 52, which was formed by diluting at a ratio of 12-18% by weight, 3% by weight of sail and 2% by weight of charcoal, and then kneaded with water with 2-3% of salt concentration. Has

At this time, mud among the constituents constituting the blend (32, 52) is used to ensure that the blend is adhered to the cotton fiber well, if the 25% by weight or less added to 100% by weight of the total blend is reduced adhesive strength There is a concern that the fiber may be removed from the cotton fiber, and if it is added at least 35% by weight, the adhesiveness is good, but the viscosity is too high, so it takes a long time to dry and the moisture passing effect is reduced, and preferably 30% by weight is added.

In addition, the loess is natural-friendly as described above, as well as control functions such as thermal insulation, soundproofing, humidity, deodorization, as well as a large amount of far infrared radiation beneficial to the human body is emitted, the more it is better to use, but considering the balance with other formulations, etc. When used, it may be used within 45-55% by weight, preferably 50% by weight relative to the total weight.

In addition, the fine stone powder is used to absorb the moisture of the ground (1) to be well transferred to the soil bottom layer (6), soil wall (7) and soil slab layer (11), 12% by weight relative to the total 100% by weight of the blend If it is added below, there is a concern that the water transfer efficiency is lowered. If it is added more than 18% by weight, the water transfer efficiency is good, but too much moisture absorption causes the compound itself to squeeze and may also be separated from cotton fibers. % Is good.

In addition, the sails collected from sediment-like sea or river bottoms have good water absorption similar to fine stone powder, and if 3% by weight or less is added to 100% by weight of the total formulation, the water transfer efficiency may be lowered. If there is a large amount of water addition efficiency is good but the moisture absorption of too much of the blend itself as well as there is a fear of leaving the cotton fiber.

In addition, charcoal has anti-oxidation and reducing effect, alkalinization of acidic substance, far-infrared emission effect, humidity control effect, air and water filtration effect, anion generating effect, odor removing effect, antibacterial and detoxifying effect, and 100% by weight of the total mixture When the addition of 2% by weight or less in comparison with the above effect can not be expected, if the addition in a large amount of the above effect is great, but the viscosity of the blend itself is low, there is a fear that the blend is separated from the cotton fibers.

On the other hand, when the compound is kneaded with water, the reason for dissolving the salt by 2-3% of the total amount is used to obtain the insecticidal effect due to the viscosity strengthening and base through the stickiness of the salt.

In addition, when the girder transmission member 3 installed along the outer side of the soil wall 7 continues to be installed only in the upward direction, the ground 1 absorbed through the girder transmission member 3 rises. Moisture can not be discharged to the outside without transmitting to the soil wall (7) all the soil wall (7) itself may be moist due to the moisture from the ground as well as can not control the indoor humidity.

Therefore, in the present invention, a part of the paper transfer material 3 installed along the outer side of the soil wall 7 is installed to protrude outward from the lower portion of the vehicle top layer or the upper portion of the uppermost layer, and each paper transfer material 3 ) Adjusting the inflow amount of the outside air according to the opening and closing amount of the humidity control opening and closing the opening (15) of the moisture (1) is absorbed through the paper transfer material (3) by installing the humidity control opening and closing the opening (15) in the protruding portion. Through the automatic discharge to the outside through the soil wall (7) through the increase and decrease of the amount of moisture can be controlled indoor humidity.

In addition, when the yoke (9) is installed only in the form of crossing the upper surface of the soil wall (7) and reinforced concrete-type wall (8) long board board (10) and the connecting member (5) installed as the upper surface of the yoke (9) ) And the yoke 9 itself may be sag due to the load of the soil slab layer 11 itself.

Accordingly, in the present invention, when the yoke 9 is installed to cross the upper surface of the soil wall 7 and the reinforced concrete wall 8 long, sagging at least one yoke at a certain interval on each yoke 9. When the soil slab layer 11 and the reinforced concrete slab layer 12 are subsequently cast in a state where the anchor 16 is installed, the upper end of the yoke preventing anchors 16 is reinforced concrete slab layer 12. The yoke (9) under load of the board cardboard (10) and the retainer connector (5) and the soil slab layer (11) itself, as well as enables a firm installation of the yoke (9) by being buried in the bottom portion Is fixed to the yoke (9) and the upper end is kept in a horizontal state with the reinforced concrete slab layer 12 by the yoke deflection anchors 16 fixed to the reinforced concrete slab layer (12) Dirt slab Without the layer 11 to sag, even a part thereof, so as to maintain a flat, plain concrete slabs it is the ceiling itself maintain a beautiful state.

Meanwhile, the bottom concrete layer 4 and the soil bottom layer 6, the soil wall 7 and the reinforced concrete wall 8, and the soil slab layer 11 and the reinforced concrete slab layer 12 are placed in close contact with each other. If so, the heat transfer between them is easy, there is a risk of heat loss and heat inflow into the room or the heat of the room is discharged to the outside.

Accordingly, in the present invention, between the bottom concrete layer 4 and the soil bottom layer 6, between the soil wall 7 and the reinforced concrete wall 8 and the soil slab layer 11 and the reinforced concrete slab layer 12. If necessary, by installing the heat insulating material 17 between the heat transfer between them through the heat insulating material 17 to prevent the loss and inflow of heat, as well as economical according to the cooling and heating of the room The cost can be greatly reduced.

In addition, in order to heat indoors, the soil floor layer 6 must be provided with heating facilities. If necessary, the soil floor layer 6 and the soil wall 7 and the soil slab layer 11 also have heating facilities. It can be installed to increase the heating efficiency of the room, the present invention does not adopt the heating piping system that is generally widely used in the interior of the soil floor layer 6 or the soil wall 7 and the soil slab layer 11 The film heater 18 which works | generates heat | fever at the time of supply of was installed.

In other words, when installing a heating pipe in which the heating water is circulated, condensation may be generated on the outer circumferential surface of the heating pipe due to a temperature difference between the inside and the outside of the pipe, which may weaken the bonding force of the soil itself and may cause the interior to become wet. Therefore, in the present invention, the film heater 18 is installed which does not generate condensation at all as a heating facility.

If necessary, a heat reflecting plate 19 such as a copper plate, an aluminum plate, or a galvanized steel sheet is added to the bottom surface of the soil bottom layer 6, the outer surface of the soil wall 7, and the upper surface of the soil slab layer 11. By installing it, the heat generated from the heater 18 is transferred to the reinforced concrete side through the soil bottom layer 6, the soil wall 7, and the soil slab layer 11. Can be reflected to the side can significantly improve the heating efficiency of the room.

In addition, when the soil bottom layer 6, the soil wall 7 and the soil slab layer 11 are poured into ocher, some of the far-infrared radiator 20 such as germanium, fine elvan or fine jade is added to the ocher if necessary. Mixing and pouring in part or throughout can double the human body's metabolism due to far-infrared radiation.

In particular, in the present invention, since the film-type heater 18 that generates heat when the electricity is supplied to the inside of the soil bottom layer 6 and the soil wall 7 and the soil slab layer 11 is installed, the soil bottom layer 6 And the amount of far-infrared rays emitted from the far-infrared radiator 20, such as germanium, micro-van rock or fine jade, impregnated in the loess, as well as the loess constituting the soil wall 7 and the soil slab layer 11 can be further increased. It can further promote the metabolism of the human body.

On the other hand, in the case of the multi-storey building, the ground conveying material 3 installed upward along the outer surface of the soil wall 7 of each floor with its part buried in the ground 1 is supported on each floor. In order to evenly transfer the soil wall (7) of the lower layer may need to be installed more, in this case, because the thickness of the soil wall (7) is thin, there is a possibility that the effect due to ocher may be lowered, in order to prevent the ground for each layer It is to adopt a method of distributing closed lifted paper through each of the paper transfer material (3) to each layer through the paper connection (5) without installing the paper transfer material (3) separately from.

Therefore, it is possible to evenly transfer the earthy energy of the ground to the soil bottom layer 6 and the soil wall 7 and the soil slab layer 11 of each layer having a state of being connected to each other to maintain a living and breathing soil state. Of course, the room humidity can be adjusted automatically, so that people living in the room can fully convey the energy of the earth that is beneficial to the human body.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

As described above, according to the present invention, the ground and the soil floor, the soil wall, and the soil slab integrated multi-storey house construction method include walls and slabs that are outdoor structures including the floor surface directly formed on the upper surface of the ground. The floor, wall, and ceiling in the room are formed in a row with one piece of soil with a constant thickness, and the soil is raised from the ground through the conveyer transfer material and continuously connected to the soil floor, soil wall and soil slab. As it can be delivered evenly, the insulation and thermal insulation effect can be greatly increased, the effectiveness of the building and the maintenance and economic efficiency can be improved, and the harmful effects caused by the odor generated from concrete can be prevented, and it is beneficial to the human body. By using softwood as a building material, we can create eco-friendly and healthy living spaces through the ground generated from the ground. It can be secured, it is a very useful invention that can greatly promote the metabolism of the human body through the far-infrared rays emitted from natural materials.

Claims (13)

After the ground excavation, using the reinforcing bars and concrete casting method to pour the pillars and the walls that are the foundation of the building in the ground; Filling the space between the pillar and the wall with aggregate such as soil and gravel, and at the same time, burying a part of a plurality of paper transfer materials on the ground and performing compaction; Placing a bottom concrete layer on the top of the ground; Installing a paper-making connector in a lattice form on the top surface of the bottom concrete layer to interconnect the paper-making materials; Placing an earth bottom layer on the bottom concrete layer and the keeper connection material; Placing a soil wall in a vertical direction at the edge of the soil bottom layer; Disposing a paper transfer material on the outer surface of the soil wall at regular intervals; Placing a reinforced concrete wall above the edge of the floor concrete layer outside the soil wall; Installing a formwork on an upper surface of the soil bottom layer and installing a yoke at a predetermined interval on an upper surface of the soil wall and the reinforced concrete type wall at an upper surface thereof; Installing board cardboards on top of the yoke; Placing an earth slab layer on the top surface of the board cardboard; Laying a ground connector in a lattice form on the top surface of the soil slab layer to interconnect the ground transport materials; And placing a reinforced concrete slab layer on the upper surface of the soil slab layer and the keeper connecting material. The method according to claim 1, After placing the reinforced concrete slab layer, the process starts from placing the ground floor layer on the upper surface of the reinforced concrete slab layer in response to the number of the floors of the house to be built and repeats the process of placing the reinforced concrete slab layer. A method of building a multi-story house incorporating ground and soil flooring, soil walls and soil slabs, characterized in that it is carried out. The method according to claim 1, The ground and soil floor, soil wall and soil slab integrated multi-storey house construction method further comprising the step of installing a wooden half frame as an anchor on the inside of the soil wall. The method according to claim 1, The paper transfer material is formed by overlapping sewing of several cotton fibers cut to have a width of 200-300 mm to form a strip having a thickness of 8-12 mm, and mud, loess, fine stone powder, sail and charcoal on the entire outer circumferential surface thereof. 25-35: 45-55: 12-18: 3: 2% by weight of the mixture of 2-3% of the salt formed by kneading with concentrated water was applied to the thickness of 22-28㎜ each A method of building a multi-story house incorporating ground and soil flooring, soil walls and soil slabs. The method according to claim 1, The paper-making connector is sewn into several strips of cotton fibers cut in a width of 200-300 mm to form a strip having a thickness of 1-3 mm, and the mud, loess, fine stone powder, sail and char are respectively formed on the entire outer circumferential surface thereof. 25-35: 45-55: 12-18: 3: After diluting at a ratio of 2% by weight, 2-3% of the compound formed by kneading with concentrated water is applied to the thickness of 12-18mm each. Method of building multi-story house with integrated ground and soil floor, soil wall and soil slab. The method according to claim 1, The ground conveying material and the ground connecting material is 1.5-2M space, characterized in that installed in the ground and soil floor, earth wall and soil slab integrated multi-storey house construction method. The method according to claim 1, Ground and soil flooring, soil wall and soil slab integrated multi-storey building method, characterized in that the recess and grooves for inserting and installing the ground conveyer and the ground connecting member are formed on the outer surface and the upper surface of the soil wall and the soil slab layer, respectively. . The method according to claim 1, A part of the paper transfer material installed to the outside of the soil wall is installed to protrude outward from the lower portion of the vehicle layer or the top of the top layer for evaporation of water, the humidity control opening and closing portion is installed on the protruding portion of the paper transfer material. How to build a multi-storey house with integrated ground and soil floors, soil walls and soil slabs. The method according to claim 1, Soil and soil floor, soil wall and soil slab integrated multi-storey house construction method characterized in that the yoke and the yoke prevention anchor is installed between the yoke and reinforced concrete slab layer as needed. The method according to claim 1, Soil and soil flooring, soil wall and soil, characterized in that additional insulation is selectively installed between the floor concrete layer and the soil floor layer, between the soil wall and reinforced concrete wall, and between the soil slab layer and reinforced concrete slab layer. Slab integrated multi-storey house construction method. The method according to claim 1, The soil floor, soil wall and soil slab layer is a ground and soil floor, soil wall and soil slab integrated multi-storey house building method, characterized in that the heater is installed additionally installed when supplying electricity as needed. The method according to claim 1, Soil and soil flooring, soil wall and soil slab integrated multi-layer, characterized in that the bottom surface of the soil bottom layer and the outer surface of the soil wall and the upper surface of the soil slab layer is provided with a heat reflecting plate such as copper plate, aluminum plate or galvanized steel sheet. How to build a house. The method according to claim 1, The soil bottom layer, the soil wall and the soil slab layer is poured with ocher, but if necessary, the ground and soil floor, soil wall, characterized in that the mixture is poured by mixing the far-infrared emitter, such as germanium, fine gangue stone or fine jade And soil slab integrated multi-storey house construction method.

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