KR20070108421A - Method to remove virulence of cement in concrete structures - Google Patents

Abstract

A method of removing virulence of cement contained in a concrete structure is provided to improve health of an inhabitant and to protect environment by forming an artificial space in a building or other constructions made of concrete and filling the space with water, fragrance, or a soil compound to remove or neutralize virulence of cement. An pipe assembly consists of a first pipe(2) having multiple through holes(5), an outer side of which is wrapped with packing material(3) like non-woven fabric or sponge, and an inner side of which is filled with pulverized mineral or plant material like soil or cotton, and hydrous material like pulp sludge; and a second pipe(11) having multiple through holes(22) and being inserted outside the first pipe to protect the packing material, an outer side of which is wrapped with packing material(1). The pipe assembly is installed with a regular interval in a molding flask into which concrete mortar is poured, with an iron reinforcing bar. Into the first and second pipe, a soil compound(8) including 30-60 wt.% of water and 40-70 wt.% of soil is injected 2-6 times. Precipitation is then filled completely in the first and the second pipe after water removes or neutralizes virulence of cement.

Description

Method to remove virulence of cement in concrete by removing the toxicity of cement in concrete structures and removing inorganic or organic toxic substances contained in all building materials used to construct the building structures}

1 is an exemplary view of a pipe assembly applied to a concrete structure according to the first embodiment of the present invention.

2 is a cross-sectional view of a building to which the pipe assembly shown in FIG. 1 is applied.

3 is a sectional view of a brick to which the pipe assembly shown in FIG. 1 is applied.

4 is a cross-sectional view of a building constructed using a brick made in FIG. 3.

5 is another embodiment of the pipe assembly applied to the concrete structure according to the first embodiment of the present invention.

6 is a cross-sectional view of the structure to which the pipe assembly shown in FIG. 5 is applied.

7 is a sectional view of a brick to which the pipe assembly shown in FIG. 5 is applied.

FIG. 8 is a cross-sectional view of a building constructed using a brick formed as shown in FIG. 7. FIG.

9 is a cross-sectional view of a pipe assembly applied to the second embodiment of the present invention.

10 is a cross-sectional view of a construction state of the concrete structure according to the second embodiment of the present invention.

Figure 11 is an embodiment of removing or neutralizing the cement toxicity of the concrete structure according to a second embodiment of the present invention.

12 is an exemplary view of a concrete structure constructed in accordance with a second embodiment of the present invention.

Figure 13 is another embodiment of removing or neutralizing the cement toxicity of the concrete structure according to the second embodiment of the present invention.

Figure 14 is another embodiment of the concrete structure constructed in accordance with a second embodiment of the present invention.

15 is a cross-sectional view of a building constructed in accordance with a fourth embodiment of the present invention.

Figure 16 is a cross-sectional view of the soil mixture is filled in the space portion configured according to the fourth embodiment of the present invention.

FIG. 17 is a cross-sectional view of injecting air, water, or liquid into a space configured on a wall, a ceiling, or a floor of a building according to the fourth embodiment of the present invention. FIG.

FIG. 18 is a cross-sectional view of a state in which an earth mixture is added to a space part of a wall, a ceiling, or a floor of a building according to the fourth embodiment of the present invention; FIG.

19 is a cross-sectional view of a propeller inserted into a space part configured on a wall, a ceiling, or a floor of a building according to the fourth embodiment of the present invention.

20 is a cross-sectional view of a state in which a cooler or a heater is inserted into a space formed on a wall, a ceiling, or a floor of a building according to the fourth embodiment of the present invention.

FIG. 21 is a cross-sectional view of a soil mixture filled with and finished with a space configured on a wall, a ceiling, or a floor of a building according to the fourth embodiment of the present invention. FIG.

22 is an exemplary view of a block constructed according to the fifth embodiment of the present invention.

FIG. 23 is a plan sectional view of a construction state of the block shown in FIG. 22; FIG.

24 is a front view of a construction state of the block shown in FIG. 22;

25 is another exemplary embodiment of a block constructed according to the fifth exemplary embodiment of the present invention.

26 is a plan sectional plan view of the construction state of the block shown in FIG.

FIG. 27 is a side cross-sectional view of a construction state of the block shown in FIG. 25; FIG.

28 is a sectional view of a prefabricated building constructed in accordance with a sixth embodiment of the present invention.

29 is a cross-sectional view of the wall of the building according to the seventh embodiment of the present invention.

30 is a bottom cross-sectional view of a building according to a seventh embodiment of the present invention.

Figure 31 is another embodiment showing the wall of the building according to the seventh embodiment of the present invention.

32 is a cross-sectional view of the construction of the ondol panel on the floor of the building manufactured according to the present invention.

33 is a skeleton perspective view of a fish house constructed in accordance with an eighth embodiment of the present invention;

34 is a perspective view of a fish house constructed in accordance with an eighth embodiment of the present invention;

35 is a cross-sectional view of a state in which a pipe is inserted at the time of manufacturing a fish house constructed in accordance with an eighth embodiment of the present invention;

36 is a cross-sectional view of a state in which a pipe is taken out during the manufacture of a fish house according to an eighth embodiment of the present invention;

37 is a front sectional view of a state in which a pipe is taken out and a soil mixture is filled in the space part of the fish house according to the eighth embodiment of the present invention;

FIG. 38 is a cross-sectional view of a state in which a pipe is removed and a soil mixture is filled in the space during the manufacture of a fish house according to an eighth embodiment of the present invention; FIG.

39 is a cross sectional view of an fish constructed in accordance with a ninth embodiment of the present invention;

40 is a cross-sectional view of a state in which a pipe is inserted when fabricating an airway according to the ninth embodiment of the present invention.

FIG. 41 is a cross-sectional view of a state in which a pipe is taken out when manufacturing an airway according to a ninth embodiment of the present invention;

42 is a cross-sectional view of a construction state of an embodiment of forming a space part using blocks in a building according to a tenth embodiment of the present invention.

43 is a cross-sectional view of the construction completed state in FIG. 39;

FIG. 44 is a view showing an embodiment of masonry of a block applied to FIG. 39; FIG.

45 is a view showing the embodiment of the block applied to FIG. 39 in another embodiment.

46 is a cross-sectional view of a construction state of another embodiment of forming a space part using a block in a building according to the eleventh embodiment of the present invention.

47 is a cross-sectional view of the construction completed in FIG. 46;

FIG. 48A is an exemplary view in which a locking jaw is formed at the top of a block applied to FIG. 46;

FIG. 48B is an exemplary view of a block circular and paired with a block formed thereon to be paired with the block according to FIG. 48A; FIG.

49A is an exemplary view of a circular block and a locking step formed at an upper portion thereof, and an uneven groove formed at an outside thereof in FIG. 46.

49B is an exemplary view of a block circular and paired with a block according to FIG. 49A and a protrusion formed at an upper portion thereof, and an uneven groove formed on the outside thereof;

50A is an exemplary diagram in which a locking jaw is formed on the top while being rectangular in a block applied to FIG. 46.

FIG. 50B is an exemplary view of a block having a quadrangle and a protrusion formed at an upper portion thereof to be paired with FIG. 50A;

Fig. 51 is a perspective view of an masonry state of each block according to Figs. 50A and 50B.

Figure 52a is an exemplary view of the block applied to Figure 46 is a quadrangular and the locking jaw is formed on the top and the uneven groove is formed on the outside.

52B is an exemplary view of a block having a quadrangular shape to be paired with FIG. 52A and a protrusion formed at an upper portion thereof, and an uneven groove formed at an outside thereof.

Fig. 53 is a perspective view of an masonry state of each block according to Figs. 52A and 52B.

54 is a plan sectional view of a building constructed in accordance with a twelfth embodiment of the present invention;

55 is a cross-sectional view of a state in which the formwork is installed in the formwork according to the twelfth embodiment of the present invention.

56 is a cross-sectional plan view of a state in which the formwork installed in the formwork is removed according to the twelfth embodiment of the present invention.

57 is a front sectional view of a state in which the formwork installed in the formwork is removed according to the twelfth embodiment of the present invention;

58 is a cross-sectional view illustrating a state in which a soil mixture is filled by space after removing the formwork according to the twelfth embodiment of the present invention.

59 is a sectional front view of a building completed in accordance with a twelfth embodiment of the present invention;

60 is a sectional view of a building according to a thirteenth embodiment of the present invention;

61 is a cross-sectional view of a building according to a fourteenth embodiment of the present invention.

62 is a cross sectional view of a building according to a fifteenth embodiment of the present invention;

*** Explanation of symbols for the main parts of the drawing ***

1,32: wrapping paper 1 ', 76: release agent 2,2', 77,11: pipe

3,56: inserting member 4: brick 5,22: through hole

6: wall of the building 7: floor 8: water or liquid

9 groove 21,55 concrete mortar 22 through hole

33,124: formwork 58,115: soil mixture 78,778: space part

79 coupling member 88 liquid inlet 98 liquid supply container

99: compression pump 99 ': air pump 111,221,888,889: block

112,113,116,117,885: Uneven groove 114: Through hole

118: partition 121: fish house 222: panel

222 ': sealed container 223: holding member 224,773: inlet pipe

225,557: discharge pipe 227: solution 228,556: discharge valve

229: pocket 211,441: heater 211 ', 441': cooler

233: solution base 331: agitator 333: propeller shaft

334: propeller 335: exponential band 338: inner formwork

442: power 445: ties 446: dead wood

447: joint band 448: rebar 551.

555: liquid pump 558: volume reduction block 600: outlet pipe

601: outlet valve 771: container 772: heater or burner

774: inlet valve 777: building 880: locking jaw

887: bump 991: even 996: heating pipe

998: Ondol Panel

The present invention relates to a method for removing the toxicity of cement contained in concrete structures, and more particularly, when building concrete structures such as houses, buildings, schools, offices, concrete structures, artificial reefs or fish beds, etc. By artificially forming a space part, it is filled with water, aroma, or liquid substance and soil mixture having neutralization properties to remove or neutralize the toxicity of cement contained in concrete, thereby promoting the health of the user as well as the natural environment. It is to protect the.

The most common concrete structures include buildings such as houses, buildings, schools, and offices. In addition to these structures, they are constructed in various forms such as artificial reefs, retaining wall blocks, and fisheries.

Therefore, it is well known that toxic substances such as radon, ammonia and formaldehyde are continuously emitted from cement contained in concrete structures, threatening the health of users and contaminating the natural environment.

As a method for removing the toxicity generated in such a concrete structure, there is a patent No. 10-0557007. In order to remove or neutralize the toxicity of the cement contained in the concrete structure using this method, the process is very complicated. There is a disadvantage that it takes a long time to remove the toxicity of the cement contained in the structure.

Another method is to purify the air in the room using an air purifier. This method has a drawback that the function can only be exerted by washing the air purifier plate of the air purifier from time to time. There is a serious drawback that cannot be used.

Another method is to apply photocatalyst coating to building walls to remove harmful substances such as formaldehyde, which also condenses moisture mixed in the air due to temperature differences inside and outside the concrete structure. Due to the dew condensation, there was a significant flaw that could not prevent harmful substances such as formaldehyde from being emitted to the outside.

In addition, the fish houses used in the prior art do not remove the toxicity of the cement contained in the concrete as it is put into the sea as a result of the toxicity of the cement contained in the concrete contaminates the water quality of the sea as well as inhabiting the sea Algae, etc. did not stick to the fish house for a period of time, so there was a serious defect that fish could not live.

The present invention has been made to solve these problems, when constructing a concrete structure by concrete mortar to form an artificial through-hole in the middle of the concrete structure using pipes, blocks, formwork, etc., the soil mixture in the through-hole It is intended to provide a method for removing the toxicity of cement contained in concrete structures that can remove or neutralize the toxicity of cement, which is a major component of concrete structures.

In another aspect, when constructing a concrete structure using bricks made of concrete mortar, the soil mixture is put into the through hole of the brick to remove or neutralize the toxicity of the cement.

Another aspect is to form a space between the concrete structure by attaching a plate of hard or soft material so as to be spaced apart from the concrete structure and having a component capable of neutralizing pure water and toxicity in the space. The solution containing chemicals, the soil mixture mixed with water, and the liquid made by mixing water and mineral or vegetable parts are added to remove or neutralize the toxicity of cement in concrete structures by osmotic pressure. .

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

Toxic removal method of the cement contained in the concrete structure according to the present invention artificially spaced in the concrete structure using a member such as pipe, block, formwork when constructing the building, artificial reef, fish house, fishery, etc. To form a wealth, and to add or remove the detoxification material or neutralizing material to remove or neutralize the toxicity of cement, the main material of the concrete structure.

[First Embodiment]

1 is an exemplary view of a pipe assembly applied to a concrete structure according to a first embodiment of the present invention, Figure 2 is a cross-sectional view of the structure to which the pipe assembly shown in Figure 1 is applied, Figure 3 is shown in Figure 1 4 is a cross-sectional view of a brick to which a pipe assembly is applied, and FIG. 4 is a cross-sectional view of a building constructed using a brick made in FIG. 3, and FIG. 5 is another view of a pipe assembly applied to a concrete structure according to a first embodiment of the present invention. FIG. 6 is a cross-sectional view of a building to which a pipe assembly shown in FIG. 5 is applied, FIG. 7 is a cross-sectional view of a brick to which the pipe assembly shown in FIG. 5 is applied, and FIG. This is a cross-sectional view of the building.

The pipe assembly applied to the first embodiment of the present invention is artificially spaced inside the wall 6, the ceiling or the floor (7) of the building using concrete mortar as shown in FIG. Forming or artificially forming a space in the brick (4) made by the concrete mortar 21, the first pipe (2) of the pipe assembly is formed with a plurality of through-holes 5 through the inside and outside, Inside the first pipe 2, an insertion member 3 made of a functional material such as cotton, fiber yarn, chemical fiber yarn, mineral material such as charcoal, sand, soil, or pulverized product obtained by pulverizing a vegetable member, pulp sludge, etc. Is filled, the outer surface of the first pipe (2) is wrapped with a wrapping paper (1) made of a non-woven fabric, cloth or sponge, etc., like the first pipe (2) The two pipes 11 have at least It is formed larger than the outer diameter of the first pipe 2 is made fitted to the outside of the first pipe (2) a packaging (1) wrapped.

Of course, the pipe assembly to be applied to the first embodiment of the present invention can be variously modified in addition to the shape as described above, as shown in Figure 5 the insertion member 3 is inserted into the inside of the first pipe (2) It may be manufactured by the method of injecting the insertion member so that the inlet 88 for injecting water or liquid is formed in the center of the) to fill the inside of the first pipe (2), the second pipe (11) The wrapping paper 32 may be further wound on the outside.

In addition, the insertion member 3 applied to the first embodiment of the present invention may be formed of a cloth, a cloth, paper, a fiber member composed of several strands of yarn, sand, stone powder, soil, or a mineral member, such as charcoal, chrysanthemum, and chrysanthemum. It is natural that such a modified configuration also falls within the scope of the present invention because it can be variously configured with the same vegetable members.

When the pipe assemblies completed as described above are actually applied, first, the pipe assembly is installed between the reinforcing frame (not shown) and the formwork 33, and the one end of the first pipe 2 is sealed. Through the inlet located at the other end, the liquid (8) containing the components neutralizing the toxicity of the pure water or concrete is introduced into the liquid (8) with a small amount of water so that the water-containing insert (3) contains moisture. (21) is poured, and neutralizes the toxicity of pure water or concrete through the inlet located at the other end of the first pipe (2) of the pipe assembly after 10 hours after the casting of the concrete mortar (21) is completed The liquid (8) containing the component is repeatedly introduced into the first pipe (2) three or more times for a time of about 5 to 50 hours, the incoming liquid (8) is the first pipe (2) The wall 6 of the building made of concrete through the through holes 5 and 22 formed in the second pipe 11 and the wrapping paper 1 and 32 surrounding each pipe 2 and 11, Absorbed in the ceiling or floor (7) and at the same time the osmotic action of the liquid (8) is exerted naturally to the effect of neutralizing or purifying the toxicity of the cement contained in the concrete structure.

The reason for introducing water or liquid 8 into the insertion member 3 inserted into the first pipe 2 is that the materials which once absorbed moisture do not absorb any more moisture, and therefore, concrete mortar 21 Even if you place), there is no change in moisture of the concrete mortar 21 to maintain the strength of the concrete structure, and if the water or liquid (8) is additionally introduced three or more times later, such water or liquids are inserted into the insert member. (3) is absorbed into the concrete mortar 21 without being absorbed, or by the osmotic action to exchange the material with the material inside the concrete mortar 21 to neutralize or purify the toxicity of the cement contained in the concrete mortar It can be.

After completion of the sequential water or liquid (8) inflow process to remove or purify the toxicity of the concrete mortar (21) through the above process 30 ~ 60wt% water in the first pipe (2) and A soil mixture (not shown) made by mixing about 40 to 70 wt% of soil is filled 2 to 6 times in the interior of the first pipe 2, the through hole 5 of the first pipe 2, and the second pipe 11. The through hole 22 of the building is completely filled with a mixture of soil, and this can not only reinforce the rigidity of the building itself, but also increase the thermal insulation, and also keep a small amount of harmful substances that can be discharged from the building. It may be removed or neutralized in contact with the soil mixture 58.

On the other hand, the pipe assembly according to the first embodiment of the present invention can be applied to the brick composed of concrete mortar in addition to the construction of the building through the concrete mortar as described above, to manufacture the brick (4) using the concrete mortar (21). When the groove (9) is formed on one side of the brick (4) when the pipe assembly configured as described above is placed in the groove (9) has a shape as shown in FIG.

Thereafter, as described above, the concrete mortar 21 is grooved in a state in which one end of the first pipe 2 is blocked and water or liquid 8 is introduced to the extent that the insertion member 3 contains water through the inlet of the other end. After filling and curing in (9) and constructing the building as shown in Fig. 4 or 8, and the above water or liquid (8) three times or more as described above, after mixing the soil mixture mixed with water and soil (5 ) By filling the pipe assembly.

In this way, when constructing the building through the concrete mortar 21, the same effect as forming a space through the pipe assembly therein can be exerted, and the building by the water or liquid 8 filled in the pipe assembly The toxic part of the cement, which is the main material of the cement, can be removed or neutralized, and finally, the soil mixture to be filled can reinforce the rigidity of the building itself, as well as increase the insulation and discharge from the building. Traces of harmful substances can also be removed or neutralized in continuous contact with the soil mixture.

Here, the material of each pipe (2) (11) used in the first embodiment of the present invention can be changed in various ways, and the shape of the pipe (2) (11) also in any one shape or type It is not limited. In addition, if the material of the wrapping paper (1) 32 surrounding the outside of the pipe (2) (11) is also a material capable of performing mass exchange through moisture, any material existing on the earth can be used in various ways. It is not limited to any one kind.

In addition, the number of times to wrap the pipe (2) (11) through the wrapping paper (1) (32) is not limited to one time, because the pipe (2) (11) can be wrapped several times or more than 10 times as necessary It is natural that the design changes the number of times surrounding the outside of the scope of the present invention.

In addition, the material of the wrapping paper (1) 32 which surrounds the outside of the pipe (2) (11) does not absorb moisture from the outside, but can use a water-repellent cloth provided to discharge the moisture from the inside. It is natural that such a design change is also within the scope of the present invention.

In addition, the material to remove or neutralize the toxicity of the cement applied in the first embodiment of the present invention may be made of a powder of a ceramic material such as ganban stone, zeolite, or may be made of a chemical having such functionality It is obvious that it should be made in powder or liquid so that it can be mixed with water, regardless of its type and mixing ratio. It can be used in various combinations or manufactures of various powder or liquid materials to remove the toxicity of concrete. The design and modification of the liquid (8) used in the case that is different from the nature and components of the present invention can be any number of those who can change the design is within the scope of the present invention, as well as those who imitated immediately It is natural to be punished.

In addition, the wrapping paper (1) used to wrap the outside of the pipe (2) (11), as the techniques for wrapping the outside of the pipe (2) (11) with the wrapping paper (1) 32 can be applied any number of variations. It is obvious that the use of altered or wrapped materials of (32) is also within the scope of the present invention.

In addition, the number of the through holes 5 and 22 formed in the pipes 2 and 11 can be increased or decreased, and the effect of the present invention can be achieved even by changing the shape of the through holes 5 and 22. Since it is possible to achieve this design change is also within the scope of the present invention is a matter of course.

In addition, since the shape of the brick 4 to be applied to the present invention can also be changed to various structures, it is natural that all of the shape changes of the brick belong to the scope of the present invention.

In addition, since it is possible to configure by adding or increasing the arrangement position, arrangement order and arrangement number of the pipe assembly manufactured by the construction method of the present invention, such a design change is also within the scope of the present invention.

In addition, the first pipe (2) and the first pipe (2) and the first by introducing a mineral material mixed with the liquid into the first pipe (2) and the second pipe (11) used in the process of removing or purifying the toxicity of the building Since the materials used to completely fill the inside of the two pipes 11 can be used, applied, prepared, or combined in all materials existing on the earth, such a design change is also within the scope of the present invention.

Second Embodiment

9 is a cross-sectional view of a pipe assembly applied to a second embodiment of the present invention, Figure 10 is a cross-sectional view of the construction state of a concrete structure according to a second embodiment of the present invention, Figure 11 is a second embodiment of the present invention According to an embodiment of the present invention to remove or neutralize the cement toxicity of the concrete structure, Figure 12 is an embodiment of a concrete structure constructed in accordance with a second embodiment of the present invention, Figure 13 is a second embodiment of the present invention According to another embodiment of the present invention to remove or neutralize the cement toxicity of the concrete structure, Figure 14 is another embodiment of the concrete structure constructed in accordance with a second embodiment of the present invention.

As shown in FIG. 9, the pipe assembly according to the second embodiment of the present invention forms a through hole 5 in the pipe 2 'and includes a sponge, non-woven fabric, paper or cloth on the outside of the pipe 2'. A peeling agent (1 '), which is primarily a wrapper (1) made of a water-containing member, is wound at least one or three layers, and is composed of a lubricating oil on the surface of the wrapper (1) wound on the outside of the pipe (2'). , Wrap the same wrapping paper 1 as the above wrapping paper 1 again on the top of the wrapping paper 1 to which the release agent 1 'is applied, and wrap the wrapping paper 1 on the outside of the pipe 2'. Outside the surface of the pipe (2 ') by attaching a concrete mortar (55) made of a mixture of water 20 ~ 50wt%, cement 50 ~ 80wt%, sand 20 ~ 30wt% The pipe 2 ′ is dried and cured so that the concrete mortar 55 may be adhered to the wrapping paper 1 wrapped therein.

Insertion of air tube type consisting of rubber, steel, plastic resin, wood rod or rubber, vinyl, synthetic resin, etc. to maintain the shape of the pipe 2 'in the pipe 2' of the pipe assembly where drying is completed. Insert the member 56 and place the pipe assembly at regular intervals between the reinforcing bar frames (not shown) for building walls 6, ceilings or floors 7 of the building, and so on. When the assembly of the pipe 2 'is limited because the length of the pipe (2') is connected to the multiple pipe (2 ') using the joint socket 87 when constructing the pipe assembly.

Thereafter, the formwork is coupled to the outside of the reinforced steel frame in which the pipe assembly is fixed, and the concrete mortar 21 is poured into the formwork 33 where the coupling is completed to cure and complete the framework of the building. The insertion member 56 is removed from the pipe assembly inserted into the pipe assembly, and the compression pump 99 is connected to one end of the pipe 2 'using the connecting socket 77. Pipes (2) inserted into the building by connecting a liquid supply container (98) containing liquid, which is optionally mixed with water, vegetable material, mineral material to be removed or purified, and operated by a compression pump (2). Into the inside of the ') the liquid which is combined to remove or alleviate the toxicity of water or concrete is injected three times or more for a time of about 5 to 24 hours, so that the liquid passes through the pipe 2'. And pass through wrapping paper (1) It should be absorbed into the interior of the concrete forming the open structure.

Thereafter, the compression pump 99 is removed from the pipe 2 'and the air pump (not shown) which is operated using only air which is not supplied with water or liquid is connected and operated for 2 to 20 hours. (2 ') The air pump is operated so that a small amount of liquid remaining inside the building passes through the wall (6), the ceiling or the floor (7) of the building to the outside, and through this process harmful air exposed to the outside of the building The components are cleaned, and after the air injection, the air pump is separated from the pipe 2 'and the inlet is sealed to improve the thermal insulation of the building by the air filled in the pipe.

Through this process, the insulation of the building can be improved and the toxicity of cement, which is a major component of the building, can be removed or neutralized by physical or chemical methods.

At this time, the outside of the compression pump 99, the liquid, the air pump, the pipe (2 '), the insertion member 56 is inserted into the pipe (2') used in the above process, the pipe (2 '). Members of the wrapping paper 1 and the like can be used by applying any material existing on the earth as long as the material can perform the equivalent function. It is natural to fall within the scope of rights.

In addition, since it is possible to arbitrarily increase or decrease the operating time of the compression pump or the air pump, such a design change is also within the scope of the present invention.

In addition, using a method of supplying a liquid such as water to the inside of the pipe (2 ') configured inside the building by using a natural method of artificially supplying water from the sewage pump without using a compression pump. Since the effects of the present invention can be achieved, it is natural that such a method also falls within the scope of the present invention.

In addition, the through-holes constituted in the wall (6), the ceiling or floor (7), pillars, stairs, or through-holes constituted in the prefabricated panels used to construct the building, or blocks The pump is installed at the top or one side of the through hole to operate the pump so that the air or liquid supplied by the pump removes or purifies the toxins of cement contained in concrete, which is the main component of the building. It is natural that the method is also within the scope of the present invention.

Third Embodiment

The third embodiment of the present invention is a method of injecting the contents or the contents injected therein after constructing the pipe assembly in the wall 6, the ceiling or the floor 7 of the building as in the first or second embodiment. The change is to better remove or neutralize the toxicity of the cement contained in the concrete structure constituting the building.

5 to 40 hours have elapsed after fixing the pipe assembly to the reinforcing steel frame for building the walls (6), ceiling or floor (7) of the building, installing the formwork, and then pouring the concrete mortar (21), After 5 to 50 hours have elapsed after the brick is completed, the inside of the pipe (2 or 2 ') of the pipe assembly is 10 to 60wt%, 40 to 90wt% soil, 5 to 20wt% charcoal. After mixing the mixed soil mixture, the soil mixture was introduced into the pipe (2 or 2 ') and after 1 to 10 hours or more, the mixed soil mixture was mixed at the above ratio again. After the second time, the soil mixture is added to the inside of the pipe (2 or 2 ') and then mixed for 5 ~ 20wt% of water and 95 ~ 80wt% of soil after more than 1 ~ 10 hours. The inlet of the pipe (2 or 2 ') is sealed using the stirred soil mixture.

Through this process, it is possible to remove or neutralize the toxicity of cement contained in concrete mortar or brick, which is a main component of the wall (6), ceiling or floor (7) of the building, wherein the soil mixture inside the building The method of building and building using the method of removing the toxicity of cement, which is the main constituent of the building by applying such a method, can be used in various ways by changing the materials that make up the soil mixture and the materials that make up the soil mixture. Naturally, it belongs to the scope of the present invention.

In addition, the ratio of mixing the soil mixture can be changed to any number of different ratios to prepare the soil mixture, and the materials that can be mixed with the soil is applied to any material existing on the earth as long as the functionality is equal It is natural that such a design change is also within the scope of the present invention as it can be used.

Fourth Embodiment

FIG. 15 is a cross-sectional view of a building constructed in accordance with a fourth embodiment of the present invention, FIG. 16 is a cross-sectional view of a soil mixture filled in a space formed in accordance with a fourth embodiment of the present invention, and FIG. Sectional view of injecting air, water or liquid into the space portion of the wall, ceiling or floor of the building according to the fourth embodiment, Figure 18 is a wall, ceiling or floor of the building according to a fourth embodiment of the present invention 19 is a cross-sectional view of a state in which the soil mixture is added to the space portion constituted in FIG. 19, and FIG. 19 is a cross-sectional view of the propeller inserted into the space portion of the wall, ceiling, or floor of a building according to the fourth embodiment of the present invention. 20 is a cross-sectional view of a state in which a cooler or a heater is inserted into a space part of a wall, a ceiling, or a floor of a building according to a fourth embodiment of the present invention, and FIG. 21 is a wall of a building according to a fourth embodiment of the present invention. , It is a cross-section closed state filled with the soil mixture in the space part consisting of a ceiling or floor.

As shown, the fourth embodiment of the present invention is composed of cloth, paper, non-woven fabric, lubricating emulsion to form the space portion 78 in the interior of the wall (6), ceiling or floor (7) of the building The release agent 76 is attached or applied to the outside of the pipe 77, and the pipe 77 wrapped in the release agent 76 is disposed between reinforcing bar frames (not shown) made of H beams or rebars. Combining, the formwork 33 is coupled to the outside of the pipe 77 and the reinforcing frame and then cured by pouring concrete mortar 21 to the inside of the formwork 33, the curing of the concrete mortar 21 is sufficient 5 ~ In the state where about 50 hours have elapsed, the pipe 77 placed inside the concrete mortar 21 is taken out so that the space 78 is naturally formed in place of the pipe 77.

Thereafter, the pedestal 332 is installed on the upper portion of the space 78, and the propeller shaft 333 and the propeller 334 connected thereto are inserted into the space 78 while installing the agitator 331 on the upper portion thereof. And injecting the liquid, which is combined to purify or neutralize the toxicity of water or concrete, to the space 78 for about 5 to 50 hours, and operate the stirrer 331 for the above time to operate the propeller 334. Rotation) is forced to stir so that the physicochemical action is made between the water or liquid introduced into the space 78 and the components of the concrete.

At this time, in the process of forming the space 78, the lower end of the space 78 is connected to the discharge pipe 225 having a discharge valve 228 to communicate with the space 78, the upper end of the space 78 When the stirrer 331 is installed in the air pump 99 'between the stirrer 331 and the space 78 is closely connected through the coupling member 79 so as not to leak the air.

After the above agitation process, the discharge valve 228 of the discharge pipe 225 connected to the lower end of the wall 6 is discharged to discharge water or liquid, and the air pump 99 'is operated for about 1 to 20 hours. It is operated to inject air into the space portion 78 to dry the interior of the space portion 78, and after completion of the process to separate the coupling member 79 and the air pump 99 in the space portion 78 And inserting the soil mixture 58 into the space portion 78 by mixing 40 to 90 wt% of soil, 10 to 60 wt% of water, a member processed by grinding charcoal or a vegetable member, or 1 to 10 wt% of a mineral member. At the same time by operating the stirrer 331 to agitate the soil mixture 58 by the propeller 334 to remove or neutralize the toxicity of the cement contained in the concrete structure in this process.

After stirring the soil mixture 58, the heater 441 coupled with the power source 442 is introduced into the space 78, so that the temperature of the soil mixture 58 is about 60 to 100 ° C. for about 2 to 5 hours. The heater 441 is operated for a time, and after the completion of this process, the discharge valve 228 is opened again to discharge the soil mixture 58 through the discharge pipe 225, and again to the space 78. Re-insert the same soil mixture (58), this time the cooler (441 ') coupled with the power supply 442 is put, give the stirrer 331 to rotate the propeller 334 and at the same time the cooler By operating 441 ', the stirrer 331 and the cooler 441' are operated for about 1 to 5 hours so that the temperature of the soil mixture 58 is about 0.5 to 5 ° C.

After this process, the discharge valve 228 is opened to discharge the soil mixture 58 through the discharge pipe 225 again, and the same soil mixture 58 is again spaced while the discharge valve 228 is locked. After filling the portion 78 by operating the stirrer 331 by rotating the propeller 334 for about 1 to 5 hours to agitate the soil mixture (58) filled in the space portion 78, the soil after finishing the process The mixture 58 is stabilized for about 1 to 5 hours, and the same level of soil mixture 58 as above is added to the space portion 78 two to six times while the sediment of the soil mixture 58 is raised. The stirrer 331 is gradually raised as much as possible, and the stirrer 331 and the propeller 334 are removed from the space 78 at the moment when the soil mixture 58 is completely filled in the space 78. Continuous cement poisoning by filling the finish 551 at the end of section 78 While performing the act of removing or neutralizing thereby can increase the stiffness and thermal insulation of buildings.

Therefore, by using the physical method that acts to remove or neutralize the toxicity of the cement contained in the building through the above process to improve the insulation of the building while at the same time to remove or purify the toxicity of cement, the main component of the building I can make it happen.

In addition, the stirring process through the propeller 334, the heating process through the heater 441, the cooling process through the cooler 441 'is not limited to only the fourth embodiment of the present invention, the first to the first embodiment of the present invention Obviously, it can be applied to the third embodiment as well.

In addition, when the soil mixture 58 is put into the space 78 constituted inside the building or the space constituted by the brick, the water mixed with the soil is naturally absorbed into the building or brick by osmosis. The detoxification or purification of cement, the main component of bricks and bricks, does not harm the health of the people living inside the building.

In addition, in the configuration of the present invention, the number of pipes 77 and spaces 78 formed in the building can be arbitrarily increased or reduced, or the size of the space 78 can be increased or reduced. In addition, the material of the pipe 77 introduced into the formwork to form the space 78 can be used any material existing on the earth as long as the formability is ensured, the pipe 77 or the space 78 may be used. The shape of the materials used for the composition may be changed, or the ratio may be arbitrarily adjusted using a method of adding or subtracting the ratio of the materials introduced into the pipe 77 or the space portion 78, thereby preventing the use of the present invention. Since the effects can be achieved, it is natural that all of these design changes fall within the scope of the present invention.

In addition, the shape of the pipe 77 can be configured into a spiral, inverted triangle, and conical triangle so that the pipe 77 inserted into the interior of the building can be easily escaped from the building, and the pipe 77 has a circular shape. , Triangular, square, rectangular, or corrugated ☆ Constellation form or pipe (77) divided into two or three hedges into the space between them, and inserted into the interior of the structure after the concrete curing to some extent ( It is natural that such a design change is also within the scope of the present invention because the operation and effect of the present invention can be achieved by using a method of removing the remaining portion after removing the wedge inserted in the middle of 77).

In addition, since the techniques applied to the present invention are applicable to buildings that are prefabricated, the interior of the through-holes may be formed by constructing a through-hole in the interior of the prefabricated building or injecting soil mixtures sequentially into the space. It is natural that the methods of fully sealing also fall within the scope of the present invention.

In addition, after pouring the concrete mortar 21 in the state in which the pipe 77 is put into the form 33, the pipe 77 is about 2 to 6 times in a state where a time of about 30 minutes to 3 hours has elapsed. Rotating or applying a slight vibration to the pipe 77 can easily remove the pipe 77 from the building because a little space is formed on the outside of the pipe 77, such a design change is also the scope of the present invention It is natural to belong to.

[Example 5]

22 is an exemplary view of a block constructed in accordance with a fifth embodiment of the present invention, FIG. 23 is a construction cross-sectional plan view of the block shown in FIG. 22, and FIG. 24 is a construction state of the block shown in FIG. 25 is another embodiment of a block constructed in accordance with the fifth embodiment of the present invention. FIG. 26 is a plan sectional plan view of the construction shown in FIG. 25, and FIG. 27 is a block shown in FIG. The construction state of the sectional side view.

In the fifth embodiment of the present invention, when constructing a building through a concrete block manufactured using concrete mortar, water, soil, and charcoal are formed in a space part formed inside the block so as not to generate harmful factors generated in the concrete block. It is to improve the thermal insulation and at the same time to remove the toxicity of the concrete, the main component of the block by filling the soil mixture mixed with.

The block 111 applied to the fifth embodiment of the present invention has a U-shaped uneven groove 112 formed at one end and the other end thereof as shown in FIGS. 22 to 24, and an uneven groove 113 having a U-shaped shape at the upper end thereof. ) Is formed.

The reason why the concave-convex grooves 112 and 113 are formed at one end, the other end and the upper end of the block 111 is that the block 111 and the block 111 are formed by a mortar for masonry used when the block 111 is masonry. This is to make the bonding easier than the structure of the block used in the prior art.

Using the block 111 formed in this form, after sequentially structuring the building where necessary, 10 ~ 60wt% water and 40 ~ 90wt% soil, and 1 ~ 10wt% of the total content of water and soil The mixture of charcoal added to the ratio of the degree to put in a mixer to produce a soil mixture 115, and fills the through-hole 114 configured in the block 111.

The method of filling the soil mixture 115 so that an empty space does not occur inside the through hole 114 formed in the block 111 is performed in the following order.

First, after completion of the masonry of the block 111, after about 5 to 20 hours has elapsed, the outside of the block 111 is plastered using concrete mortar, etc. In the elapsed state, the soil mixture 115 mixed at the above ratio is primarily filled in the through-holes 114, and when 5 to 10 hours have elapsed, the solid component of the soil mixture 115 is sedimented. This sinks to a certain thickness inside the through-holes 114 configured in the block 111 and water or liquids are leaked or evaporated out of the block 111, and the same process has a time tolerance of two to four times or more. By doing so, the through hole 114 of the block 111 is completely filled with the soil mixture 115.

Therefore, in the process of filling the soil mixture 115 inside the block 111, to remove or mitigate the toxicity of the cement contained in the block 111 used to construct the walls of the house, building, school or office When the soil mixture 115 is put into the through hole 114 formed in the block 111 as described above, the water mixed with the soil is composed of concrete mortar by osmotic action to exert naturally. Loss of water is naturally absorbed by the block 111, and the effect is that the toxicity of cement, which is the main component of the block 111, is removed or purified, thereby not harming the health of people living inside the building. Soil mixture 115 of dense density filled in the through hole 114 of the building will also obtain the effect of maintaining the stiffness and insulation.

25 to 27 show another embodiment of a block according to the fifth embodiment of the present invention and a building constructed by using the same. The block 111 has a block 111 shown in FIG. The same, but there is a difference that the U-shaped uneven grooves 116, 117 is further formed in the upper and lower centers of the partition 118 of the block 111, and thus constitutes the U-shaped uneven grooves 116, 117. In this case, when the blocks 111 are filled and the soil mixture 115 is filled in the through hole 114, the soil mixture 115 may serve as a passage flowing evenly to other adjacent through holes 114.

Block 111 to be applied to the present invention is to use the blocks used in the existing concrete blocks or dirt baked, and also the structure of the uneven grooves 116, 117 is formed in the center of the block 111 It is natural that such a design change is within the scope of the present invention because it can be used in various modifications.

In addition, the toxic effects of cement contained in the concrete mortar used as an adhesive when masonry blocks are naturally removed or purified.

In addition, the soil mixture 115 filled in the through-hole 114 of the block 111 can use all the materials existing on the earth and can be prepared by mixing the method by adding or reducing the ratio of the earth mixture. Naturally, such a design change is also within the scope of the present invention.

In addition, the materials of the soil can be used all materials existing on the earth, such as masato, mud, ocher, etc. In the present invention, even if any one of them is used to change the effect of the present invention, such a change also of the present invention It is only natural to belong to the right of rights.

In addition, the materials filled in the through hole 114 of the block 111 can be used by processing all materials or chemicals or mineral or vegetable materials existing on the earth, one or two or more vegetable materials Alternatively, it is natural that such a design change also falls within the scope of the present invention, since materials mixed with soil may be mixed with minerals and vegetable materials.

[Sixth Embodiment]

28 is a cross-sectional view of a prefabricated building constructed according to the sixth embodiment of the present invention.

As shown, the sixth embodiment of the present invention is integrated by inserting a pipe assembly into the formwork during the manufacture of the concrete panel 6 'used in the prefabricated building, as in the first to third sealing of the present invention. It is configured to fill the soil mixture in the interior of the pipe assembly, or as shown in the fourth embodiment of the present invention, but not shown in the pipe 77 in the formwork after removing the pipe in the post-process to naturally space in place The soil mixture 78 is formed, and the soil mixture 78 is mixed with 50 to 90 wt% of soil, 10 to 50 wt% of water, and 0.5 to 15 wt of vegetable members generating charcoal or fragrance. By sequentially inserting about several times, the prefabricated concrete panel 6 'is constructed to remove or alleviate the toxicity of cement contained in the prefabricated concrete panel 6', as well as the prefabricated type. It is possible to increase the stiffness and thermal insulation of the building through the dense mixture of dense density filled in the pipe assembly or the space portion 78 constituted in the concrete panel (6 ').

This method is to fabricate the prefabricated concrete panels 6 'by using the method illustrated in the first to fourth embodiments of the present invention, and to assemble them to each other to build a building. Although the first to fourth embodiments of the present invention may be different from each other, this embodiment also includes a prefabricated concrete panel itself as a concrete structure, and a pipe assembly or a space part is configured in such a concrete structure, whereby a soil mixture is Since it is filled, ultimately in the part capable of removing or neutralizing the toxicity of the cement contained in the concrete structure in accordance with the present invention will have the same effect.

At this time, it is configured by changing the shape and shape of the pipe (2, 2 ', 11, 77) used in the above-described method or put into the inside of the pipe (2, 2', 11) having a through hole (5) (22) It is possible to configure by changing the material of the insertion member (3) 56 to be made.

The mixing ratios of the soil mixtures do not specify the composition ratio of the material and the soil mixture because they can be configured according to necessity, location, material ratio of ingredients or seasons. Naturally, the design change is within the scope of the present invention.

In addition, in the empty space formed in the panel by using a method of injecting a mixture of soil mixed with soil several times in a state in which the empty space is formed inside the prefabricated building panel constituting the building. It is natural that a method of constructing a building using a prefabricated building panel having excellent thermal insulation using a method of completely filling the soil mixture is also within the scope of the present invention.

[Seventh Embodiment]

FIG. 29 is a cross-sectional view of a wall according to a seventh embodiment of the present invention, FIG. 30 is a bottom cross-sectional view of a building according to a seventh embodiment of the present invention, and FIG. 31 is a view of a building according to a seventh embodiment of the present invention. Another embodiment showing the wall, Figure 32 is a cross-sectional view of the construction of the ondol panel on the floor of the building manufactured according to the present invention.

Reference numeral 337 in the drawing represents a fiber yarn, a plastic mesh, or a wire mesh installed outside the concrete structure before the panel 222 or the pocket 229 is installed.

As shown, the seventh embodiment of the present invention is a rigid or soft panel 222 or pocket 229 on the outer surface of a wall 6, column, staircase, ceiling or floor 7, which are the main components of a building. Pad and fix it to the concrete structure of the building through the fixing member 223, such as anchor bolt-nut, water in the space between the panel 222 or the pocket 229 and the concrete structure of the building A chemical solution that acts to inject liquids that mix water or soil with fragrance-emitting members such as charcoal, chrysanthemum, herbs, pine needles and juniper, or to neutralize harmful substances in concrete. The main constituent material of the concrete structure which forms the building by osmotic action caused by these solutions (227) or materials by adding one or a combination of materials It is that the toxicity of the cement were removed by natural or by using a physical method which acts to neutralize removes a major component members of concrete or cement blocks or toxicity of contained in the brick of the building.

That is, a panel 222 or a pocket 229 composed of stone, steel, synthetic resin, and vinyl system is padded on the inside and outside of the wall 6, the ceiling or the floor 7, the stairs, the pillars, etc., which are made of concrete structures. The panel 222 or the pocket 229 is fixed so that the panel 222 or the pocket 229 is not separated from the building by using a fixing member 223 such as an anchor bolt-nut in between, between the building and the panel 222 or the pocket 229. In order to prevent leakage, a packing member (not shown) such as water rubber is inserted into a gap between the building and the panel 222 or the pocket 229, and water or a solution may be provided at the upper end of the panel 222 or the pocket 229. 227 is connected to the inlet pipe 224 to the inlet, the lower end of the panel 222 or bag 229, the discharge pipe 225 having a discharge valve 228 to control the discharge of water or solution 227 ) And the building and panel 222 or pocket (2 29, a heater 211 capable of raising the temperature of the water or the solution 227 or a cooler 211 ′ capable of lowering the temperature of the water or the liquid 227 is inserted into the space between the spaces 29.

In addition, the other side of the inlet pipe 224 may be connected to the liquid pump 555 so as to pump the water or the solution 227, and in the open state of the lower end of the panel 222, a separate pedestal (below) 233 may be padded to collect water or solution 227.

At this time, FIG. 29 illustrates a case where the seventh embodiment of the present invention is applied to a wall of a building, and FIG. 30 illustrates a case where the seventh embodiment of the present invention is applied to a ceiling or a floor of a building. The seventh embodiment of the invention shows another embodiment applied to a wall of a building.

Water or a mixture made of water, minerals, chemicals, vegetable materials and water through the inlet pipe 224 in the space between the panel 222 or the pocket 229 and the building in this configuration, or soil 10 A solution 227 such as a soil mixture made by mixing at a ratio of ˜30 wt% and water 70 to 90 wt% is introduced, and the solution 227 is a main component of the building due to the osmotic pressure generated by the action of gravity. It penetrates naturally into the concrete and neutralizes or removes the toxicity of cement.

In addition, when the heater 211 installed in the space between the panel 222 or the pocket 229 and the building is operated, the temperature of the solution 227 naturally rises, and the temperature of the building naturally rises. As the osmotic action penetrating into the interior of the concrete structure forming the building becomes more active, the toxicity of cement contained in the concrete is quickly removed or neutralized.

At this time, if the temperature of the solution 227 is increased, the osmotic effect of the high-temperature solution 227 penetrating into the interior of the building is further generated. It is the same principle.

In addition, when the cooler 211 'is inserted between the panel 222 or the pocket 229 and the building, and the cooler 211' is operated for about 1 to 5 hours, the temperature of the solution 227 is lowered and cooled. The convective phenomenon that tries to move to a high temperature occurs, so that the relatively cold solution (227) penetrates more actively into the interior of the building which maintains a relatively high temperature. Toxicity can be eliminated or neutralized at a faster rate.

In order to cause this action to occur repeatedly, the process of repeatedly increasing and decreasing the temperature of the solution 227 is repeated. Thus, when the temperature of the solution 227 is sequentially changed, the cement contained in the concrete This is due to the action of toxins to be naturally removed or neutralized.

Also, as illustrated in the fourth embodiment, the solution 227 is agitated by using a mechanism such as the propeller 334 so that the solution 227 is inside the space between the panel 222 or the bag 229 and the building. It can also be configured to prevent agglomeration.

After performing the above process several times, the discharge valve 228 is opened to gradually discharge the solution 227 introduced into the space between the panel 222 or the bag 229 and the building through the discharge pipe 225. In this case, the panel 222 or the pocket 229 that is installed inside and outside the building may be removed.

If the solution 227 introduced into the space between the panel 222 or the bag 229 and the building consists of the soil mixture 58 illustrated in the first to sixth embodiments of the present invention, the precipitate is formed in the building. If the state is attached to the inside and outside of the panel 222 or pocket 229 may be removed.

In addition, by performing the above process several times as shown in Figure 32 mixed with water in the gap between the ondol pipe 996 and the ondol panel 998 or the ondol panel 998 installed on the floor of the building or mineral or It is also possible to construct so that the precipitate of the solution 227 made by mixing the vegetable mixture with a certain ratio of soil, etc., this method is also within the scope of the present invention is a matter of course.

In addition, the liquid and liquid mixtures or mixtures made by mixing or combining the substances and the substances according to the constituent method of the seventh embodiment of the present invention are made of water containing all the vegetable materials present on the earth and the materials composed of liquids and solids. It does not limit the material that has become a liquid or a solid because it can be mixed with, mixed with chemical solutions or chemicals, or used independently.

In addition, the materials used to construct the panel 222 or the pocket 229 are not limited to the materials as long as they can be formed using any member existing on the earth as long as they have moldability.

In addition, the methods configured by modifying the structure of the panel 222 or the bag 229 or by using a material composed of a liquid or a solid used in the present invention may be modified by using any material existing on the earth. Since the structure is possible, even if the constituent materials are modified, it is natural that they belong to the scope of the present invention.

In addition, the method of attaching or adhering the panel 222 or the pocket 229 required by the present invention to a building can be configured in various ways, and thus the construction method is not limited to any one. In other words, there can be a variety of methods, such as a method of bonding to a building using a high frequency without a separate fixing member, even if these methods can be used to complete the construction method of the present invention is not limited to any.

[Eighth Embodiment]

33 is a perspective view of a skeleton of a fish house constructed in accordance with an eighth embodiment of the present invention, FIG. 34 is a perspective view of a fish house constructed in accordance with an eighth embodiment of the present invention, and FIG. 8 is a cross-sectional view of a state in which a pipe is inserted when manufacturing a fish house according to an eighth embodiment, and FIG. 36 is a cross-sectional view of a state in which a pipe is removed when manufacturing a fish house according to an eighth embodiment of the present invention, and FIG. 38 is a front sectional view of a state in which a pipe is removed and a soil mixture is filled in the space during the manufacture of the fish house according to the eighth embodiment of the present invention, and FIG. 38 is a case of the fish house constructed according to the eighth embodiment of the present invention. A cross-sectional plan view of a state in which a pipe is removed and a soil mixture is filled in the space.

The eighth embodiment of the present invention is to build a fish house by the same method as the fourth embodiment of the present invention, and between the reinforcing frame (not shown) inside the formwork 124 for forming the fish house 121 The concrete mortar 21 is poured in the state in which the pipe 77 to which the release agent 76 is applied is fixed, and the concrete mortar 2 hours after the casting of the concrete mortar 21 is completed has passed. The pipe 77 in (21) is pulled out to naturally form the spaces 78 and 77 in place.

After removing the pipe (77), the soil mixture (58) made by mixing 40 to 80 wt% of water and 20 to 60 wt% of soil in the interior of the space portion 78 in a state of about 5 to 20 hours has elapsed. After completion of the first process of the first mixture of the soil mixture 58 in the space 78, about 1 to 10 hours have elapsed, the soil mixture 58 mixed in the ratio 2 to 6 times Cement contained in the concrete mortar forming the fish house 121 in this process by filling the interior of the space portion 78 constituted in the fish house 121 with a precipitate of 100% pure soil mixture 58 by sequentially It is possible to eliminate or neutralize the toxicity of, and finish with the finishing material 551 at the end of the space portion 78 filled only with sediment of the pure soil mixture 58 to ensure the rigidity and thermal insulation of the fish house 121. It becomes possible.

Of course, the shape of the fish house according to the tenth embodiment of the present invention can constitute all shapes that can be configured by humans, and the shape of the fish house can be configured in various ways. It is not limited to any one shape. In other words, conical or rectangular or dome or triangular or round or rectangular shapes can be formed. It is natural that all of the methods configured to remove or neutralize the toxicity are within the scope of the present invention.

In addition, the mixing ratio of all substances or soils mixed with water, which is configured to mitigate or remove the toxicity of mineral substances or chemicals or cement mixed with water, can be changed by any person skilled in the art, such a design change. It is natural that punishment should be punished immediately.

[Example 9]

FIG. 39 is a cross-sectional view of an island constructed in accordance with a ninth embodiment of the present invention. FIG. 40 is a cross-sectional view of a pipe inserted when a fish is manufactured in accordance with a ninth embodiment of the present invention. 9 is a cross-sectional view of a state in which a pipe is removed when the fish is manufactured according to the embodiment.

In the ninth embodiment of the present invention, if all the methods are the same as the fourth and eighth embodiments of the present invention, there is a difference that the application target is fish fish.

That is, the fish island 991 according to the ninth embodiment of the present invention casts concrete mortar 21 in a state where the pipe 77 to which the release agent 76 is applied is fixed to the reinforcing frame at regular intervals, and then mortar concrete is poured into the concrete. After pouring (21), the pipe 77 inserted in the fishery 991 in the state after 3 to 8 hours has elapsed is formed to form the space portion 78, and the soil portion 78 in the soil 50 The soil mixture 58 mixed with ~ 80wt% and 20-50wt% of water was first introduced, and the same as above so that the precipitate of the soil mixture 58 was completely filled in the space 78 formed in the fishery 991. After the soil mixture 58 is added two to five times in sequence, the end portion of the space 78 is filled with the finishing material 551. In the process of adding the soil mixture 58, the concrete structure forms the fishery. It is possible to remove or neutralize the toxicity of the contained cement, filling the space 78 with the sediment of the soil mixture 58 By giving stiffness and heat insulation can be improved.

Of course, since the shape of the fish applied to the ninth embodiment of the present invention can be modified in any shape, the shape of the fish is not limited to the shape, and any shape of fish is formed inside the space 78 as in the present invention, and As long as it is filled with a material capable of removing or neutralizing the toxicity of cement therein is within the scope of the present invention.

[Example 10]

FIG. 42 is a cross-sectional view of a construction state of an embodiment of forming a space part using blocks in a building according to a tenth embodiment of the present invention, FIG. 43 is a cross-sectional view of the construction completion state of FIG. 39, and FIG. 44 is applied to FIG. 39. 45 is an exemplary view showing the tack state of a block, and FIG. 45 is another exemplary view showing the tack state of a block applied to FIG. 39.

The tenth embodiment of the present invention is to form a space by using a block in the interior of the building when building the building through a concrete structure, everything other than this method and the first to fourth embodiments of the present invention same.

That is, a block 221 formed in a circular or square tubular shape is provided in the formwork (not shown) by using mortar or an exponent band 335, or a joint band made of a member such as paper, nonwoven fabric, and fabric ( 447), and each block (221) is reinforced (448) by using the binding line 445 in a state in which the lumber 446 is sandwiched between the reinforcing bars 448 and the reinforcing bars 448. And it is coupled between the reinforcing bar 448 to place the blocks 221 inside the formwork.

Through the process as described above it is possible to form the space portion 778 in the interior of the building through the process of placing the concrete mortar between the block 221 and the reinforcing bar 448 placed inside the formwork.

At this time, when placing the block 221 of the block 221, the lower end of the block 221 is connected to the discharge pipe 225 having a discharge valve 228, the upper end of the block 221 is provided with a stirrer 331 through a pedestal 332 While it is installed so that the floppler 334 and the propeller shaft 333 connected thereto are located inside the space portion 778, the heater 441 connected to the power source 442 through the space between the block 221 and the agitator 331. Or cooler 441 ′ is positioned inside the space 778.

When the casting of the concrete mortar is completed, 100wt% of water, or 50 to 80wt% of soil, 20 to 50wt% of water, contained in concrete in the space part 778 configured in the block 221 while the discharge valve 228 is locked. The soil mixture 58 is prepared by mixing 20-50 wt% of the chemical liquid combined to remove or purify the toxic cement, and the stirrer 331 formed at the top of the block 221. Drive the propeller 334 for about 1 to 5 hours to agitate the soil mixture 58, and at the same time operate the power source 442 of the heater 441 by the heat transmitted from the heater 441. The temperature of the water or soil mixture (58) is maintained for about 1 to 5 hours in the state of 80 ~ 100 ℃.

Thereafter, the heater 441 is removed and the cooler 441 'is introduced to operate the cooler 441' for 1 to 5 hours so that the temperature of the soil mixture 58 is about 1 to 10 ° C. After completion, the discharge valve 228 is opened to discharge the soil mixture 58 inserted into the space portion 778, and the discharge valve 228 is closed again, and the soil mixture 58 mixed at the above ratio is separated into the space portion ( 778), and when the precipitate of the soil mixture 58 is precipitated to some extent in the space 778, the soil mixture 58 mixed at the above ratio is added three to five times. The sediment of the soil mixture 58 is to be filled in the space portion 778, and the process of sequentially inputting the soil mixture 58 to the space portion 778 configured in the block 221 through the above process To reduce the toxicity of cement contained in the concrete Which will be astute or neutralization.

At this time, according to the tenth embodiment of the present invention, a method of constituting a chemical liquid that is combined to remove or purify the cement toxicity contained in concrete is performed using 100% water or depending on the temperature. The ratio of each additive should be given differently, and the mixing ratio should not be specified clearly because the loading ratio should be different according to the mixing ratio of concrete.

In addition, the shape constituting the shape of the block is different from the material constituting the block 221 or the shape of the block can be used by forming the shape of the block in the shape of any shape that can be made by human concrete according to the configuration method of the present invention It is natural that all of the different shapes and shapes of the blocks configured to be put into the mortar belong to the scope of the present invention.

In addition, the present invention is not limited to any one material because all mixtures present on the earth or in combination with other materials can be used to remove or mitigate the toxicity of cement contained in concrete.

Therefore, the toxicity of cement contained in the building is removed by using any one liquid which is put in the interior of the building composed of concrete mortar to remove or alleviate the toxicity of the cement or a combination of different mixing ratios. Naturally, all methods configured to facilitate or mitigate all fall within the scope of the present invention.

[Eleventh embodiment]

FIG. 46 is a sectional view of a construction state of another embodiment in which a space part is formed by using a block in a building according to an eleventh embodiment of the present invention. FIG. 47 is a sectional view of the completed construction state of FIG. 46, and FIG. 48A is applied to FIG. 46. FIG. 48B is an exemplary view of a block having a circular protrusion and a circular protrusion formed at the top to be paired with the block according to FIG. 48A. FIG. 49A is a circular view of the block applied to FIG. 46. While it is an exemplary view that the locking step is formed in the upper portion and the uneven groove is formed on the outside, Figure 49b is an illustration of a block formed in the upper and rounded protrusions formed on the top and the uneven groove formed on the outside to pair with the block according to Figure 49a, FIG. 50A is an exemplary diagram in which a locking jaw is formed at the top while being rectangular in a block applied to FIG. 46, and FIG. 50B is a quadrangular and hooking protrusion formed at the top to form a pair with FIG. 50A. Figure 51 is an exemplary view of the locking state, Figure 51 is a perspective view of each block in accordance with Figures 50a and 50b, Figure 52a is a rectangular block of the block applied to Figure 46 is an example in which the locking step is formed on the top and the uneven groove is formed on the outside FIG. 52B is an exemplary view of a block having a quadrangular and paired protrusions formed at an upper portion thereof, and a concave-convex groove formed outside thereof, and FIG. 53 is a perspective view of each block according to FIGS. 52A and 52B.

The eleventh embodiment of the present invention is almost similar to the tenth embodiment of the present invention, but there are differences in the shape of each block 888 and 889 and the method of introducing the soil mixture 58 into the space portion 778. have.

That is, the first block 888 made of a circular or square tubular shape and the locking jaw 880 is formed on the upper portion, and formed in a circular or square cylindrical shape so as to be paired with the first block, The second block 889, in which the locking projections 887 are formed to be fitted to the inner circumferential surface of the first block 888, is sequentially sequentially provided inside the formwork (not shown), and is placed between the reinforcing bars 448 and the reinforcing bars 448. In the state in which 446 is inserted, each block 888 and 889 is coupled between the reinforcing bars 448 and the reinforcing bars 448 using the binding line 445 to be placed inside the formwork.

Through the above process, it is possible to form the space portion 778 in the interior of the building through the process of placing concrete mortar between the blocks 888, 889 and reinforcing bars 448 placed inside the formwork. .

At this time, the discharge pipe 225 having a discharge valve 228 is connected to the lower ends of the blocks 888 and 889 at the time of placing the blocks 888 and 889, and a pedestal 332 is provided at the upper ends of the blocks 888 and 889. While installing the stirrer 331, the propeller 334 and the propeller shaft 333 connected thereto are installed inside the space 778, and the space between the blocks 888 and 889 and the stirrer 331 is installed. The heater 441 or the cooler 441 ′ connected to the power source 442 is positioned inside the space 778.

When the casting of the concrete mortar is completed, the discharge valve 228 is locked, and the space 778 formed in the blocks 888 and 889 includes 55 to 75 wt% of soil, 25 to 45 wt% of water, and concrete. A soil mixture 58 made by mixing 15 to 45 wt% of the chemical liquids combined to remove or purify the toxicity of cement is introduced, and an agitator configured at the top of the blocks 888 and 889 ( 331 is driven to rotate the propeller 334 for about 2 to 6 hours to agitate the soil mixture 58, and at the same time to operate the power source 442 of the heater 441 is delivered from the heater 441 The temperature of the water or soil mixture 58 by heat is maintained for about 2 to 6 hours in the state of 60 ~ 100 ℃.

Thereafter, the heater 441 is removed and the cooler 441 'is introduced to operate the cooler 441' for about 2 to 6 hours so that the temperature of the soil mixture 58 is about 1 to 15 ° C. After completion, the discharge valve 228 is opened to discharge the soil mixture 58 inserted into the space portion 778, and the discharge valve 228 is closed again, and the soil mixture 58 mixed at the above ratio is separated into the space portion ( 778), and when the sediment of the soil mixture 58 is precipitated to some extent in the space 778, the soil mixture 58 mixed at the above ratio is added three to six times. The sediment of the soil mixture 58 is to be filled in the space portion 778, and the process of sequentially inputting the soil mixture 58 to the space portion 778 configured in the block 221 through the above process To reduce the toxicity of cement contained in the concrete Which will be astute or neutralization.

At this time, according to the eleventh embodiment of the present invention, a method of constituting a chemical liquid that is combined to remove or purify the cement toxicity contained in concrete is performed using 100% water or depending on the temperature. The ratio of each additive should be given differently, and the mixing ratio should not be specified clearly because the loading ratio should be different according to the mixing ratio of concrete.

In addition, the shape constituting the block 221 is different from the material constituting the block 221 or the shape of the block can be used by forming the shape of the block in the shape of any shape that can be made by the human concrete according to the configuration method of the present invention It is natural that all of the different shapes and shapes of the blocks configured to be put into the mortar belong to the scope of the present invention.

In addition, the present invention is not limited to any one material because all mixtures present on the earth or in combination with other materials can be used to remove or mitigate the toxicity of cement contained in concrete.

Therefore, the toxicity of cement contained in the building is removed by using any one liquid which is put in the interior of the building composed of concrete mortar to remove or alleviate the toxicity of the cement or a combination of different mixing ratios. Naturally, all methods configured to facilitate or mitigate all fall within the scope of the present invention.

In addition, the materials used to construct the insert or block that is put into the concrete mortar can be used to make the structure of the insert or block using only soil. In addition, the materials mixed with the cement used to make the insert or the block may use soil, and the cement material is a vegetable material such as corn or wheat flour or food waste, or a material using pulp sludge or a material of food by-products. It can be made by mixing with, that is, it is possible to construct a block using all the materials existing on the earth, such a design change is naturally within the scope of the present invention, so those skilled in using such a design change It is natural to be punished immediately.

Here, the block according to the eleventh embodiment of the present invention can be configured in a variety of shapes, for example, as shown in Figure 48 and Figure 49 and the upper end of the first block 888, "L" shaped locking step inwardly The first block 888 and the second block 889 may be formed by forming the first and second blocks 887 and 887 on the upper end of the paired second block 889. There is an advantage that can be easily stacked sequentially as shown in Figure 50 without the need for a separate exponent band 335, and also has an "L" shaped inward to the upper end of the first block 888 as shown in Figure 51 and 52 Uneven grooves 885 are formed on the outside while the catching jaws 880 are formed, and outside the upper part of the second block 889 that is paired therewith, an “L” shaped locking protrusion 887 is formed on the outside. When the uneven groove 885 is formed, the first block 888 and the second block 889 can be easily stacked sequentially without the need for a separate index band 335 as shown in FIG. 53. Of course, if you build the building by pouring concrete mortar concrete mortar is filled between the uneven grooves 885 has the advantage that the bonding force of the building and the blocks (888, 889) is very excellent.

Of course, the structure of the blocks applied to the present invention can be configured by changing the shape in any number other than the above, it is natural that such a design change made by changing the shape of the block should be immediately punished.

[Twelfth Example]

54 is a plan sectional view of a building constructed in accordance with a twelfth embodiment of the present invention, FIG. 55 is a plan sectional view of a state in which formwork is installed in a formwork according to a twelfth embodiment of the present invention, and FIG. A state cross-sectional view of removing the formwork installed in the formwork according to the twelfth embodiment of the present invention, Figure 57 is a cross-sectional view of the state removed formwork installed in the formwork according to the twelfth embodiment of the present invention, 58 is a cross-sectional view showing the construction of the soil mixture after removing the formwork according to the twelfth embodiment of the present invention, Figure 59 is a front sectional view of the building completed in accordance with the twelfth embodiment of the present invention.

In the twelfth embodiment of the present invention, after forming the formwork 33 on the outside of the wall 6, the ceiling or the floor, pillars, etc. of the building, the inner formwork 338 for constituting the space is placed therein and discharged. A discharge pipe 225 having a valve 228 is connected to the inner formwork 338 through the outer formwork 33, and the concrete mortar 21 is poured into the outer formwork 33, and 5 to 15 After the time elapses, the internal formwork 338 installed in the cured concrete mortar 21 is removed to allow the space portion 778 to be formed therein.

Thereafter, the external formwork 33 installed on the exterior of the concrete mortar 21 is removed, and the upper portion of the space portion 778 is installed with the stirrer 331 through the pedestal 332 while being connected to the floppler 334. And the propeller shaft 333 is installed inside the space 778, and the heater 441 or the cooler 441 ′ connected to the power source 442 through the space between the block 221 and the stirrer 331. It is positioned inside the space 778.

Injecting water into the space portion 778 configured in the building in the state of locking the discharge valve 228 provided in the discharge pipe 225, and made by grinding the soil 42 ~ 73wt%, water 27 ~ 58wt%, vegetable material The soil mixture 58 mixed with 0.5-3 wt% of vegetable members is introduced into the space portion 778, and the propeller is driven by driving the stirrer 331 coupled to the upper end of the space portion 778 configured inside the building. (334) rotate the water or soil mixture 58 by rotating for about 1 to 4 hours, and at the same time operate the power source 442 of the heater 441 to heat the soil mixture ( 58) is maintained for 1 ~ 7 hours so that the temperature of 55 ~ 100 ℃.

After driving the heater 441, it is removed and the cooler 441 'is put in, and the cooler 441 is operated for 1 to 5 hours so that the temperature of the soil mixture 58 is about 0.5 to 10 ° C. After completing this process, the discharge valve 228 is opened to discharge the water or soil mixture 58 inserted into the space 778.

The discharge valve 228 is closed again, and the soil mixture 58 mixed at the above ratio is secondly introduced into the space portion 778, and again when the precipitate of the soil mixture 58 is precipitated to some extent in the space portion 778. The soil mixture 58 mixed at the above ratio is added three to six times in sequence so that the precipitate of the soil mixture 58 is completely filled in the space 778, and the end portion is filled with the finishing material 551. You can give it.

Concrete structure to form a building in the process of injecting water or the soil mixture 58, the process of stirring the soil mixture 58, the process of heating the soil mixture 58, the process of cooling the soil mixture 58 as described above Toxicity of the cement contained in it can be removed or neutralized, and filling the precipitate of the soil mixture 58 in the space portion 778 is to improve the rigidity and thermal insulation.

In addition, since the configuration of the shape and shape of the formwork 338 for forming the space portion 778 can be changed as many as those skilled in the art, it is natural that such a design change should be punished.

[Thirteenth Embodiment]

60 is a cross-sectional view of a building according to a thirteenth embodiment of the present invention.

The thirteenth embodiment of the present invention forms a wall by forming a space in the interior of the wall 6 of the building, constructing a sealed container outside thereof, and forcibly supplying water or a mixture to the wall by a forced supply means such as a boiler. To remove or neutralize the toxicity of concrete structures.

That is, a space portion is formed inside the wall 6 of the building, and a plurality of distribution ports 601 communicating with the space portion are formed, and the space portion is formed of water, liquid, soil mixture or water vapor introduced into the structure. In order to reduce the amount, a volume reduction block 558 consisting of a metal or vinyl container, a rectangular or rectangular box shape is input, and the outside of the wall 6 of the building is made of synthetic resin or petroleum products. After the padded container 222 'is constructed using a tent or a metal, the wall 6 of the building using a fixing member 223 such as an anchor bolt for fixing the sealed container 222' therebetween. And a discharge valve 556 to be coupled between the sealed container 222 'so as not to leak, and an upper end of the sealed container 222' to discharge water vapor generated in the sealed container 222 '. Having steam It constitutes the outlet (557).

In addition, one end of the building is connected to a heat generating mechanism 600, such as a boiler configured to generate water vapor by the action of generating a mechanism or heat such as a pump provided to force the circulation of the water and Between the heat generating device 600 and the sealed container 222 ', a conduit 559, such as a pipe, is used to connect between the sealed container 222' and the heat generating device 600, and the wall of the building 6 ) At one end, a discharge pipe 225 having a discharge valve 228 is connected to discharge water, steam, or liquids.

Using the structure according to the twelfth embodiment of the present invention configured as described above is applied to the following process to remove or alleviate the toxicity of cement contained in the concrete, which is the main component of the building.

First, water is first introduced into the wall 6 of the building and inside the sealed container 222 ′, and a heat generating mechanism 600 such as a boiler configured to force circulation of water while generating heat is operated. To circulate and operate the heat generating mechanism 600 for 2 to 8 hours so that the temperature of the water is about 100 ° C., and the steam generated through the rise of the temperature of the water is formed at the top of the sealed container 222 ′ 557. 2 ~ 8 hours through the discharge, and after the above time to open the discharge valve 228 to discharge the water remaining in the wall (6) and the sealed container (222 ') of the building through the discharge pipe 225 You will.

Again, water is secondaryly filled in the walls 6 of the building and the sealed container 222 ', and the heat generating mechanism 600 is operated to heat the water temperature to 100 ° C. or higher for about 3 to 6 hours, and then steam Discharge the water vapor through the outlet 557 for about 3 to 6 hours, and discharge the water remaining in the wall 6 and the sealed container 222 'of the building again through the outlet 225 after the above time. do.

Thereafter, after closing the discharge valve 228, 0.5-20 wt% of vegetable or mineral or organic matter, 10-30 wt% of soil, 70-95 wt% of water in the wall 6 of the building and the sealed container 222 '. The soil mixture 227 made by mixing is introduced, and a heat generating device 600 such as a boiler pump configured to force circulation of the soil mixture 227 while generating heat has a temperature of 100 in the soil mixture 227. It is operated for about 2 to 8 hours to be about ℃, it is discharged about 2 to 8 hours through the steam outlet 557 generated in this process.

After the time elapses, the soil mixture 227 remaining in the wall 6 and the sealed container 222 'of the building is discharged using the outlet 225, and then the sealed container installed outside the wall 6 of the building. 222 ′, water vapor outlet 557, a volume reduction block 558 stacked inside the wall 6 of the building, a heat generating mechanism 600 installed outside the wall 6 of the building, and the wall of the building ( The discharge pipe 225 having the discharge valve 228 installed in 6) may be sequentially removed, and the soil mixture 227 remaining inside the wall 6 of the building may be cleaned.

In this process it is possible to remove or neutralize the toxicity of the cement contained in the concrete structure forming the building.

In addition, since the heat generating apparatuses 600 used at this time can be changed as much as possible by using heat generating apparatuses that are combined with a boiler or a pump that circulates water, these design changes are all rights of the present invention. It is natural to fall within the scope.

In addition, it is configured to reduce the amount of water or earth mixture injected into the interior of the building laminated to the interior of the container or building provided to contain the liquid or water and the mechanism provided to generate heat or circulate the water The methods of constituting the block for volume reduction are possible to change the configuration by using all the materials existing on the earth and at the same time can be configured to exhibit the working effect of the present invention, so that the composition of the composition to remove the toxicity of the building It is a matter of course that all of the methods configured to be configured or purified are within the scope of the present invention.

In addition, a small amount of water is injected into a space formed in the sealed container 222 ′ and the wall 6 of the building or the inside of the wall 6, or is configured to generate heat in a state where no water is injected. The cement contained in the concrete by operating the heat generating mechanism 600 to inject hot heat of about 100 ° C. for a predetermined time or more into the inside of the through-hole formed in the wall of the container or the building or the inside of the wall. It is also natural that such modifications are also within the scope of the present invention, as the person skilled in the art can change the way to remove the toxicity.

[Example 14]

61 is a cross-sectional view of a building according to a fourteenth embodiment of the present invention.

The fourteenth embodiment of the present invention loads the block for reducing urine 558 so that the internal volume ratio of the building 777 is reduced in the interior of the building 777 of the concrete structure, the container 771 in the interior of the building 777 ) And insert a vegetable material, a mineral material, a petroleum or a material made by combining or mixing the material, or a material extracted from the material or a fragrance generating material consisting of the material in the container 771, and the building 777. Toxic and moisture contained in all the materials used to construct the building 777 and inorganic or organic toxic substances contained therein, and moisture contained in the fragrance-producing member are penetrated by osmotic action acted by high temperature. A heater or burner 772 may be provided to the interior of the building 777 to raise the internal temperature of the building so as to escape from the material of the material. And the outside to communicate with each other, the upper part of the building 777 and the outlet pipe 557 having a discharge valve 556 to pass through the inside and outside of the building 777, and the lower part of the building 777 An inlet pipe 773 having an inlet valve 774 is installed to pass through.

In this case, the heater may use alcohol as fuel or electricity as energy, and the burner may also apply to using both petroleum as a raw material or gas as a raw material.

In this configuration, the burner or the heater 772 installed to communicate with the outside or the inside of the building 777 is operated for about 1 to 5 hours, and the inorganic or organic toxic substance contained in the building 777 through this heating process. And the toxic moisture contained in the building 777 and the fragrance emanating moisture generated in the fragrance-producing member contained in the container 771 inserted into the building 777, the molecules of the moisture are raised. The process of raising the internal temperature of the building, which is forcibly inflated by osmotic action and gravity, is naturally released from the upper side of the building 777 and the materials used to construct the building. Water or inorganic or organic toxic substances that rise after escaping from the materials used to construct the building and the building by opening the discharge valve 556 To the outside of the building 777 through the discharge pipe (557), and at the same time to open the inlet valve (774) to inlet the outside air through the inlet pipe (773) Repeat this process at least two to three times to perform the process of introducing clean air into the building.

After this process, all windows and doors of the building are opened and a fan or a fan (not shown) is installed inside the building 777 to build inorganic or organic toxic substances remaining inside the building. Forced ventilation to the outside of the building, such a process can remove or neutralize the concrete toxicity of the building and the inorganic or organic toxic substances contained in all building materials used to construct the building.

In addition, all of the vegetable materials, mineral materials and materials extracted from petroleum, which are applied to all embodiments of the present invention or the fourteenth embodiment of the present invention, may be formed by using all materials existing on the earth. It is obvious that the effects of the present invention can be exhibited even if they are processed differently or the mixing ratios of the materials are different. Therefore, it is only natural that all of these methods are included in the scope of the present invention. It is also natural that copycats who violate this changeable or similar method should be punished immediately.

In addition, methods for removing inorganic or organic material toxins contained in the building materials used to construct the building and the building that are already installed and used by using the above-exemplified embodiment are also within the scope of the present invention. will be.

[Example 15]

62 is a cross-sectional view of a building according to a fifteenth embodiment of the present invention.

The fifteenth embodiment of the present invention is a toxic substance contained in all the materials used to construct a concrete structure or a building constituting the building according to the fourteenth embodiment of the present invention, or water containing inorganic or organic toxic substances, etc. In order to enhance the effect by adding a new configuration and method to the method of removing or neutralizing the, it is made almost the same process as the fourteenth embodiment of the present invention, but a new method is added.

That is, a container configured to load the volume reduction block 558 so that the internal volume ratio of the building 777 is reduced in the interior of the building 777 made of a concrete structure, and to store things in the building 777 ( 771), the container 771 may be made of vegetable material, mineral material, or petroleum, or may be combined or mixed with the material, or may be extracted from the material, or may be made by processing the material. Inserting a material or a fragrance generating material composed of the members, the inorganic or organic toxic substances contained in the building 777 and the toxic and harmful substances contained in all materials used to construct the building 777 or Evaporation action in which moisture containing harmful substances or moisture contained in fragrance-generating members evaporate by high temperature A heater or burner 772 provided to generate heat forcibly deviating from the inside of the materials that are infiltrated or contained by the osmotic action is installed such that the inside and the outside of the building 777 communicate with each other, A discharge pipe 557 having a discharge valve 556 is installed at an upper portion of the building 777 to allow the inside and the outside of the building 777 to pass through, and the inside and the outside of the building 777 are disposed at a lower part of the building 777. An inlet pipe 773 having an inlet valve 774 is installed so as to use pure water or vegetable material, animal material, mineral material, petroleum or the like containing pure water or a component beneficial to humans. Containing only liquids (8) or pure water made of a mixture of water or a substance made of 100% proportion or of a mixture of these materials, or of a combined or extracted material. The main unit is provided with a liquid supply container 98, and an outlet valve 601 is provided between the liquid supply container 98 and the surface of the building 777 to transfer water or liquid 8 contained in the liquid supply container 98. It will be connected to a plurality of outlet pipe (600) having.

At this time, the heater can be configured to burn the inside of the building using alcohol as a fuel, or can use electricity as energy, burner can also be applied to using both petroleum as a raw material or gas as a raw material. have.

In addition, materials using plant materials, animal materials, mineral materials, petroleum, etc., which are beneficial to human beings, or materials that combine or extract and recombine them are not limited to any one material, and thus do not specifically limit the kinds thereof. The content of water also depends on the type of material and is not particularly limited.

Therefore, even if not illustrated above, any component existing on the earth can be applied to the present invention as long as it contains a vegetable, animal, mineral or petroleum substance that is beneficial to humans, and these are also within the scope of the present invention. It is.

In this configuration, the burner or the heater 772 installed to communicate with the outside or the inside of the building 777 is operated for about 1 to 5 hours, and the inorganic or organic toxic substance contained in the building 777 through this heating process. And the toxic moisture contained in the building 777 and the fragrance emanating moisture generated from the fragrance generating member contained in the container 771 inserted into the building 777, the molecules of the moisture are raised. The process of raising the internal temperature of the building so that it is forcibly inflated by osmotic action and gravity, and naturally escapes toward the upper side of the building 777 and all materials used to construct the building, After finishing, the windows, doors (not shown) and the discharge valve 556 of the building are opened to release the materials used to construct the building and the building. The process of discharging the rising water or inorganic or organic toxic substances to the outside of the building 777 through the discharge pipe 557, and at the same time to open the inlet valve 774 to open the inlet pipe 773 Through the method of introducing external air through at least 2 to 7 times, clean air is introduced into the building.

Thereafter, the outlet valve 601 is opened to allow the water or liquid contained in the liquid supply container 98 to move through the outlet tube 600 to be sprayed or painted on the surface of the building 777. During the process of spraying or penning), the interior of the building 777 is already evaporated and dried so that water or liquid 8 is sprayed onto the surface of the building 777 so that osmotic action and The water or liquid 8 is absorbed and moved into the interior of the building through the wall constituting the building 777 by absorbing action. As such, the water or liquid 8 passes through the wall to form the building 777. In the process of moving inside the concrete structure constituting the 777, it is possible to remove or neutralize the toxic components of all the materials constituting the building.

Of course, the spraying or painting of water or liquid 8 is carried out continuously for about 1 to 10 hours at a time, and after the spraying or painting process of water or liquid 8 is not completed at once but the above process is performed as a whole. By repeating the new process several times from the beginning, it is possible to completely remove or neutralize the toxic substances, toxic moisture, etc. of the concrete structure or all materials constituting the building 777.

In addition, there is a method of removing the toxic contained in the building using a method of painting the liquid consisting of the materials using a brush or spraying the liquid to the outside of the building using a sprayer (not shown). It is natural that all such modified methods fall within the scope of the present invention.

After this process, all windows and doors of the building are opened, and a fan or a fan (not shown) is installed inside the building 777 to build inorganic or organic toxic substances remaining inside the building. Forced ventilation to the outside of the building, such a process can remove or neutralize the concrete toxicity of the building and the inorganic or organic toxic substances contained in all building materials used to construct the building.

In addition, all materials of the vegetable material, animal material, mineral material, petroleum or vegetable and animal and mineral or water or petroleum applied to all the embodiments of the present invention or the fifteenth embodiment of the present invention are all materials present on the earth. Since it can be configured to penetrate the exterior of the building by using them, it is obvious that the effects of the present invention can be exerted even if these materials are processed differently or the mixing ratios of the materials are different. It is natural that all of the toxicities contained in the building through the process of penetrating into the inside of the building through the outside of the building fall within the scope of the present invention. Businessmen should be punished immediately It is a matter of course.

In addition, methods for removing the inorganic or organic toxicities contained in the building and all the building materials used to construct the building using the above-exemplified embodiment also fall within the scope of the present invention. It is natural.

[Example 16]

According to the sixteenth embodiment of the present invention, the moisture or the toxic substances contained in the building and the materials used to construct the same are separated from the building and the materials used to construct the same through the first to fifteenth embodiments. After completion of the process, it is possible to penetrate moisture that contains toxic decontamination or moisture that is beneficial to humans in the building and the materials used to construct it. It is intended to improve the health of the human body by diverging. In the sixteenth embodiment of the present invention, an apparatus according to the fourteenth and fifteenth embodiments of the present invention may be used, and thus description thereof is omitted.

That is, after the first to fifteenth embodiments of the present invention, the process of causing the water or the toxic substances contained in the building and the materials used to construct the same to escape from the building and the materials used to construct the same After that, the window, door or discharge valve of the building is opened to allow moisture contained in the air to penetrate inside the materials used to construct the building or building, and to be combined with a burner or a heater to communicate the inside and outside of the building. The container (not shown) consists of placing the inside of the building.

After completion of this process, any one or two or more of them are made of vegetable or animal materials containing minerals or minerals or petroleum, or those containing them that are beneficial to humans. 20 ~ 80wt% material selected from processed or extracted materials or materials extracted or processed from these materials and 20 ~ 80wt% of water are mixed and put into a container, and clean such as electricity or alcohol. The process of heating the burner or heater for 2 to 8 hours by using fuel composed of energy or mineral or vegetable to fill the inside of the building with water vapor generated by evaporation of the mixture contained in the container by the heat. Air-containing components that benefit humans through And to fill in the materials used to construct the buildings.

If the above process is repeated one time or two to five times, moisture that is detoxified or moisture containing components beneficial to humans penetrates the building and the materials used to construct it. Harmless to the human body of the living, of course, it is possible to improve the health of the human body by releasing fragrance or ingredients beneficial to humans.

The vegetable material, animal material, mineral material, petroleum or materials made from vegetable and animal and mineral or water or petroleum, which are applied to the sixteenth embodiment of the present invention, also use all materials present on the earth. Or it can be configured to penetrate the outside, so it is obvious that the effect of the present invention can be exhibited even if these materials are processed differently or the mixing ratios of the materials are different, so it is possible to use this modified method. Therefore, it is natural that the method of infiltrating the detoxified water or the water containing the components beneficial to humans is within the scope of the present invention. It is also natural to be punished.

In addition, by removing the inorganic or organic material toxins contained in the building and all the building materials used to construct the building that is already installed and used by using the above-exemplified embodiments, the water or the beneficial ingredients are removed. It is natural that the methods of re-penetrating the contained moisture also fall within the scope of the present invention.

In addition, the material mixed with water or liquid to generate water vapor by the heat generated by the operation of the burner or the heater processes all the solids on the earth and all the liquids or all the vegetable or minerals or the animal or the animal or the oils on the earth. All materials made from these materials can be used, so the structure or structure is constructed using steam or water vapor generated from these materials by heating them with water or liquids and solids or materials diluted with these materials. It is natural that all of these configurations are within the scope of the present invention, as the result of applying or using all the embodiments of the present invention to obtain or alleviate the toxicities contained in all the ashes used to obtain them.

In addition, the method for removing concrete toxicity contained in underground concrete structures and subway structures installed underground by using the method of the present invention is also within the scope of the present invention.

As described above, the present invention forms a space part using a pipe, block, formwork, etc. in a concrete structure, fish house, fish, and the like, and to prevent the toxicity of water, soil, and other cement in such space This is to inject and discharge soil mixture including substances that can be removed or neutralized several times, so that the cement toxicity of the concrete structure can be removed or neutralized in this process. Since it fills the space portion, it is possible to reinforce the rigidity of the concrete structure itself, as well as to improve the thermal insulation.

In addition, the water or soil mixture is agitated in the process of eliminating or neutralizing the cement, so that mass exchange between the concrete structure and the water or soil mixture can be forcibly performed, and the water or soil mixture is heated. Osmotic action, such as boiling, can remove or neutralize harmful toxins contained in windows, windows and other materials used in new construction of concrete structures or buildings.Then water or soil mixture near the cooling area during the cooling process. Is at a relatively low temperature and part of the water or soil mixture at other parts is at a relatively high temperature, so that convection occurs and the contact between the concrete structure and the water or soil mixture becomes more active. Toxicity is more likely to be eliminated or neutralized. That will.

In addition, the present invention is to seal the sealed container, bag, panel, etc. on the outside of the concrete structure in a watertight manner, and the soil mixture including a material capable of removing or neutralizing the toxicity of pure water, water, soil, and other cement in the inside thereof. In order to inject and discharge several times, in this process, in the process of direct contact between the concrete structure and the water or soil mixture, all the building materials and the building materials used for the construction of the concrete structure and the building, which are the main components of the building, or It is possible to eliminate or neutralize the toxicity of cement contained in building subsidiary materials used for bonding or painting and the inorganic or organic material toxicity contained in all materials used to construct the building.

Claims (22)

The non-woven fabric, cloth, water-repellent cloth, or sponge is selected from a material such that solids or liquids mixed in concrete outside the first pipe 2 having a plurality of through holes 5 do not flow into the first pipe 2. Wrapping the wrapping paper (1), the inside of the first pipe (2), selected functionalities of the pulverized material, pulp sludge pulverized mineral material such as cotton, fiber yarn, chemical fiber yarn, charcoal, sand, soil Filling the insertion member (3) made of a material, and the second pipe (11) having a plurality of through holes 22 formed to pass through the inside and outside to prevent damage to the first pipe (2) and the wrapping paper (1) The wrapper 1 is inserted into the outside of the first pipe 2 wrapped with the wrapper 32 and wrapped around the wrapper 32 on the outside of the second pipe 11 to form a pipe assembly, and the pipe assembly is mortar 21 of the concrete. Schedule inside the formwork configured for pouring In order to prevent the water or solids contained in the concrete mortar from flowing into the first pipe (2) to settle and settle at intervals, the water or liquid ( 8) inflow of concrete mortar 21 in the form of the insert member 3 in the state containing water, and the time of 5 to 30 hours that the curing of the concrete mortar 21 is sufficiently In the elapsed state, one end of the first pipe 2 and the second pipe 11 is sealed, and water or liquid is formed through opposite ends of the first pipe 2 and the second pipe 11. In the method of eliminating the toxicity of cement contained in the concrete structure that continues to flow 8) for a certain time, The soil mixture 58, which is made by mixing 30 to 60 wt% of water and 40 to 70 wt% of soil in the inside of the first pipe 2 and the second pipe 11 introduced into the concrete structure, 2 to 6 times Moisture in the soil mixture 58 is sequentially discharged while removing or neutralizing the toxicity of cement in the concrete structure so that the precipitate completely fills the interior of the first pipe 2 and the second pipe 11. Cement toxicity removal method contained in the concrete structure, characterized in that. Insertion member in the form of air tube made of rubber, steel, plastic resin, wooden rod or selected material of rubber, vinyl, synthetic resin to maintain its shape in a plurality of pipes 2 'having a through hole ( 56 is fixed to the reinforcing frame inside the formwork (33), the concrete mortar 21 is cast and cured on the formwork 33, and then the insertion member 56 is removed from the pipe assembly, and The compression pump 99 is connected to one end of the pipe 2 'using a connecting socket 77, and the compression pump 99 is used to remove or purify the toxicity of the concrete, so that the water, the vegetable material, and the mineral material. To connect the liquid supply container (98) containing the combined liquid, and operate the compression pump (99) to the liquid supply container (98) inside the pipe (2 ') inserted into the concrete structure. 3 or more times in the liquid for 5 to 24 hours A double injection is made so that the liquid passes through the through hole 5 and the wrapping paper 1 of the pipe 2 'and is absorbed into the concrete structure, and the compression pump 99 is removed from the pipe 2'. Connect the air pump in place and run it for 2 to 20 hours so that trace liquids remaining inside the pipe 2 'flow out through the wall 6, ceiling or floor 7 of the concrete structure. And after the air injection is finished, removing the air pump from the pipe (2 ') and sealing the inlet. The method of claim 2, The pipe assembly forms a through hole 5 in the pipe 2 'and firstly wraps the wrapper 1 made of a functional member selected from sponge, nonwoven fabric, paper or cloth on the outside of the pipe 2'. Winding a layer or three or more layers, a release agent (1 ') consisting of a lubricant oil is applied to the surface of the wrapping paper (1) wound on the outside of the pipe (2'), the release agent (1 ') is applied On the top of the wrapping paper (1) again wraps the same wrapping paper (1) as the wrapping paper (1), 20 to 50wt% of water outside the surface of the wrapping paper (1) wound on the outside of the pipe (2 '), The concrete mortar 55 made by mixing 50 ~ 80wt% of cement and 20 ~ 30wt% of sand is padded to a thickness of 3 ~ 20mm and bonded to the wrapping paper 1 wrapped on the outside of the pipe 2 '. Concrete sphere, characterized in that configured to dry and curing the pipe (2 ') so that the concrete mortar 55 can be bonded The method of cement contained in the water removal toxicity. The method of claim 2, The process of removing the cement toxicity contained in the concrete structure, characterized in that it further comprises a process for connecting between the joints of the pipes (2 ') using a joint socket (87). The pipe assembly according to claim 1 or 2 is fixed to the reinforcing frame inside the formwork 33 for building walls 6, ceilings or floors 7 of the concrete structure, and after pouring the concrete mortar 21 After ˜40 hours, the soil mixture mixed with 10 to 60 wt% of water, 40 to 90 wt% of soil, and 5 to 20 wt% of charcoal is added to the inside of the pipe (2 or 2 ′) of the pipe assembly. To the inside of the pipe (2 or 2 ') after the first 1 to 10 hours or more in the state of mixing the mixture again in the ratio of the second mixture into the inside of the pipe (2 or 2'), After adding the soil mixture to the inside of the pipe (2 or 2 ') for 2 hours or more, after 1 to 10 hours or more, the soil mixture was mixed by mixing at a ratio of 5 to 20 wt% of water and 95 to 80 wt% of soil. To seal the inlet of the pipe 2 or 2 ' The method cement toxicity removal agent contained in the structure. For constructing the concrete structure, a release agent 76 composed of cloth, paper, nonwoven fabric, and a lubricant is formed outside the pipe 77, and the pipe 77 wrapped in the release agent 76 is formed inside the formwork 33. It is coupled between the reinforcing frame of the concrete, mortar 21 is poured into the mold 33, curing, and the concrete mortar in the state that 5 to 50 hours has elapsed sufficiently curing the mortar 21 A liquid 77 is combined to remove the pipe 77 placed inside the 21 and form a space 78 therein and to purify or neutralize the toxicity of water or concrete in the space 78. 5 to 50 hours and at the same time operating the stirrer 331 to agitate the water or liquid to discharge the water or liquid, the air pump (99 ') for 1 to 20 hours to operate the space portion Air in (78) By injecting and drying the interior of the space 78, by mixing 40 to 90 wt% of soil, 10 to 60 wt% of water, 1 to 10 wt% of a processed member or mineral member by grinding a charcoal or vegetable member The soil mixture 58 is introduced into the space 78 and the stirrer 331 is operated again to stir the soil mixture 58. After stirring the soil mixture 58, the heater 441 is heated. By heating the temperature of the soil mixture 58 to 60 ~ 100 ℃ for 2 to 5 hours to discharge the soil mixture 58, and the same soil mixture 58 in the space portion 78 above After re-injecting the mixture, the soil mixture 58 was stirred through the stirrer 331 and the cooler 441 'was operated for 1 to 5 hours so that the temperature of the soil mixture 58 was about 0.5 to 5 ° C. After that, the soil mixture 58 is discharged again, and the same soil mixture 58 is returned to the space 78 again. After filling and operating the stirrer 331 for 1 to 5 hours, the soil mixture 58 is stirred again, and left as it is to leave the liquid component in the soil mixture 58 as it is and to precipitate only the solid component. The soil mixture 58 is sequentially injected so that all the moisture of the soil mixture 58 escapes and the precipitate completely fills the space 78, and then finishes the end of the space 78 with the finishing material 551. Cement toxicity removal method contained in the concrete structure, characterized in that the filling. The method according to any one of claims 1, 2, 5, 6, The concrete structure is a method for removing the toxicity of cement contained in the concrete structure, characterized in that consisting of the building. The method according to any one of claims 1, 2, 5, 6, The concrete structure is a method for removing cement toxicity contained in the concrete structure, characterized in that consisting of a fish house. The method according to any one of claims 1, 2, 5, 6, The concrete structure is a method of removing cement toxicity contained in the concrete structure, characterized in that made of fish. The method according to any one of claims 1, 2, 5, 6, The concrete structure is a method for removing the toxicity of cement contained in the concrete structure, characterized in that consisting of a concrete panel for prefabricated building construction. While forming a plurality of through-holes 114 to pass in the vertical direction, at the one end and the other end to form a U-shaped uneven groove 112 and a plurality of blocks having a U-shaped uneven groove 113 formed at the top ( After plastering 111) through mortar for masonry, the outside of the block 111 was plastered with concrete mortar in the state of 5 to 20 hours, and 10 to 60wt% of water after 5 to 50 hours had elapsed. A through hole 114 composed of the soil mixture 115 and the soil mixture 115, which is a mixture of additional 40 and 90wt% of soil, and water and additionally added charcoal at a ratio of 1 to 10wt% of the total content of the soil. Fill in the first, and then leave for 5 to 10 hours to allow the moisture in the soil mixture 115 is discharged and the solid component is precipitated, and the above-mentioned soil mixture 115 filling process to repeat the block ( The soil mixture 115 of the through hole 114 of 111 is completely filled. The method of cement contained in the concrete structure to remove toxic characterized. The method of claim 11, When the soil mixture 115 is filled by further forming a U-shaped uneven groove 116 and 117 in the upper and lower centers of the partition 118 which blocks between the through holes 114 of the block 111. A method for removing cement toxicity contained in a concrete structure, characterized in that the mixture 115 is allowed to move to another adjacent through hole 114 side. Panels (222) or pouches (229) made of a selected material of stone, steel, synthetic resin, or vinyl system are padded on walls 6, ceilings or floors 7, stairs, columns of concrete structures, and between them. The panel 222 or the pocket 229 is fixed using the fixing member 223 so as not to be separated from the concrete structure, and water is provided in the space between the panel 222 or the pocket 229 and the concrete structure. The selected solution 227 is introduced into a mixture made of mineral material, chemical material, vegetable materials and water, or a soil mixture made by mixing at a ratio of 10 to 30 wt% of soil and 70 to 90 wt% of water, and a heater 211. ) Is inserted between the panel 222 or bag 229 and the concrete structure to heat the filled solution 227, and then a cooler 211 'is placed between the panel 222 or bag 229 and the concrete structure. Put in 1-5 o'clock Operating for a while to cool the solution 227, and repeating the operation of alternating operation of the heater 211 and the cooler 211 ', and the solution 227 through the stirrer to the panel 222 or Cement toxicity contained in the concrete structure, characterized in that it does not agglomerate in the space between the bag 229 and the concrete structure, discharges the solution 227, and removes the panel 222 or the bag 229 How to remove. The method of claim 13, The concrete structure is made of an ondol panel 998, the ondol pipe 996 is configured on the ondol panel 998, the pocket 229 is installed on the upper part, and the same process is repeated to the solution And the precipitate of (227) is filled in the gap between the ondol pipe (996) and the ondol panel (998) or the ondol panel (998). Block 221 made of a circular or square tubular shape is provided by using mortar or exponent band 335 in the formwork, or by using a joint band 447, reinforcing bars 448 and reinforcing bars The block 221 is formed inside the formwork by coupling the assembled blocks 221 between the reinforcing bars 448 using the binding line 445 in a state in which the stump wood 446 is sandwiched between the 448. ), The concrete mortar is poured into the space between the formwork and each block, curing, 100wt% water, or 50 ~ 80wt% soil in the space portion 778 formed between each block 221 20 to 50wt% of water, 20 to 50wt% of the chemical liquid combined to remove or purify the cement toxicity contained in the concrete is added to the earth mixture (58), and the stirrer ( 331) for 1 to 5 hours to run the soil mixture (58 ) And at the same time operating the heater 441 to maintain the temperature of the water or the soil mixture 58 in the state of 80 ~ 100 ℃ for 1 to 5 hours by the heat transferred from the heater 441 After operating the cooler 441 ′ for 1 to 5 hours so that the temperature of the soil mixture 58 is 1 to 10 ° C., the soil mixture 58 inserted into the space 778 is discharged. Re-inserting the same soil mixture 58 into the space portion 778 to discharge the moisture of the soil mixture 58 and filling the space portion 778 with the precipitate. 58) The method of removing cement toxicity contained in the concrete structure, characterized in that the precipitate is completely filled in the space portion (778). The first block 888 is formed in a circular or square tubular shape and the locking jaw 880 is formed on the upper portion, and the circular or square tubular shape is formed to be paired with the first block 888. The second block 889, in which the locking projections 887 are formed to be fitted to the inner circumferential surface of the first block 888, is sequentially sequentially provided inside the formwork, and the stump wood 446 is disposed between the reinforcing bars 448 and the reinforcing bars 448. Each block 888, 889 is bonded between the reinforcing bars 448 using the binding line 445 in the sandwiched state, the concrete between the formwork and each block 888, 889 Morphing and curing mortar to remove or purify the cement toxicity contained in the soil 55 ~ 75wt%, water 25 ~ 45wt%, concrete in the space portion 778 formed between the blocks (888, 889) Soil horn made by mixing 15 ~ 45wt% of chemical liquid The mixture 58 is introduced and the stirrer 331 is driven for 2 to 6 hours to agitate the soil mixture 58. At the same time, the heater 441 is operated to generate water or the soil mixture 58 by heat transferred therefrom. ) Is maintained at a temperature of 60 ~ 100 ℃ for about 2 to 6 hours, the cooler (441 ') was operated for about 2 to 6 hours so that the temperature of the soil mixture 58 is about 1 ~ 15 ℃. Next, the soil mixture 58 inserted into the space portion 778 is discharged, and the same soil mixture 58 is added to the space portion 778 again to discharge moisture from the soil mixture 58. And repeating a process in which the precipitate is filled in the space part 778 so that the precipitate of the soil mixture 58 is completely filled in the space part 778. The method of claim 16, Forming a concave-convex groove (885) on the outside of each block (888) (889) to enhance the cement toxicity contained in the concrete structure, characterized in that to use to increase the bonding strength with the concrete mortar. After forming the formwork 33 on the outside of the wall (6), the ceiling or floor of the concrete structure, the pillar and put the inner formwork 338 for the space configuration therein and placed therein, the inside of the outer formwork 33 Placing concrete mortar 21, and removes the internal formwork 338 installed in the cured concrete mortar 21 after 5 to 15 hours to form a space portion 778 in place, Removing the external formwork 33, injecting water into the space 778, 42 ~ 73wt% of soil, 27 ~ 58wt% of water, 0.5 ~ 3wt% by mixing the vegetable member made by grinding the vegetable material The soil mixture 58 is introduced into the space 778 and the stirrer 331 is driven for 1 to 4 hours to stir the water or the soil mixture 58, and at the same time, the heater 441 is operated to Even if the temperature of the soil mixture 58 is 55 ~ 100 ℃ by the heat transferred therefrom It is maintained for 1 to 7 hours, the cooler 441 ′ is operated for 1 to 5 hours so that the temperature of the soil mixture 58 is 0.5 to 10 ℃ about water is inserted into the space 778 Alternatively, the soil mixture 58 is discharged, and the same soil mixture 58 is added to the space portion 778 again so that the moisture of the soil mixture 58 is discharged and the precipitate is filled in the space portion 778. Repeating the process so that the precipitate of the soil mixture (58) is completely filled in the space portion 778, characterized in that the cement toxicity contained in the concrete structure. At the same time forming a space portion in the wall (6), column, ceiling or floor of the concrete structure and at the same time to form a plurality of distribution ports 601 communicating with the space portion, the water is introduced into the interior of the concrete structure, In order to reduce the amount of liquid, earth mixture or water vapor, a volume reduction block 558 consisting of a metal or vinyl container, a square or rectangular box, is introduced, and a synthetic resin or petroleum is external to the concrete structure. Pad the sealed container 222 ′ composed of a tent or a metal composed of a product and then combine it using a fixing member 223, and the closed container 222 ′ is formed at an upper end of the sealed container 222 ′. ) Constitutes a water vapor outlet 557 having a discharge valve 556 so as to discharge the water vapor generated in the interior of the), and one end of the building to force the circulation of water A heat generating mechanism 600 provided to connect the heat generating mechanism 600, and between the heat generating mechanism 600 and the sealed container 222 ′ using a conduit 559 to generate the sealed container 222 ′ and the heat generating device. It connects between the mechanism 600, the lower end of one end of the concrete structure is connected to the discharge pipe 225 having a discharge valve 228 for discharging water or water vapor or liquids, the interior of the concrete structure and the sealed container ( Water is first introduced into the interior of the container 222 ', and the heat generating mechanism 600 is circulated for 2 to 8 hours so that the temperature of the water is 100 ° C. 222 ′) is discharged for 2 to 8 hours through the water vapor outlet 557 configured in the upper portion, and after the above time has passed through the discharge valve 228 to discharge the remaining water through the discharge pipe 225, The concrete structure and the sealed container (2) 22 ') is filled with water in the secondary, the heat generating mechanism 600 is driven for 3 to 6 hours so that the temperature of the water is more than 100 ℃ and discharge the water vapor through the steam outlet (557) for 3 to 6 hours After the time elapses, water remaining in the concrete structure and the sealed container 222 'is discharged through the outlet 225 again, and the vegetable structure is formed inside the concrete structure and the sealed container 222'. A soil mixture 227 made by mixing 0.5-20 wt% of a substance or a mineral substance or an organic substance, 10-30 wt% of soil, and 70-95 wt% of water is introduced, and the heat generating device 600 is connected to the soil mixture 227. It is operated for 2 to 8 hours so that the temperature of about 100 ℃, and discharges the steam generated in this process through the steam outlet (557) for 2 to 8 hours, and after the time the concrete structure and the sealed container ( 222 ') of soil mixture remaining ( 227 is discharged using the outlet 225, and then the airtight container 222 ', the steam outlet 557, the volume reduction block 558, the heat generating mechanism 600, the discharge pipe ( 225) removing the toxicity of cement contained in the concrete structure, characterized in that to remove sequentially A process for removing inorganic or organic material toxicities contained in concrete buildings or all building material used to construct a building; The container is provided to load the volume reduction block 558 in the interior of the building 777 made of a concrete structure so that the internal volume ratio of the building 777 is reduced, and to store things in the building (777) ( 771), the interior of the building 777 contains a plant material, a mineral material, petroleum, or a material made by combining or mixing the material, a material extracted from the material, or a fragrance generating material consisting of the material in the container 771. Inserted in the building 777 and the materials constituting the building 777 and inorganic or organic toxic substances contained in the building 777 and the constituents constituting the building 777 and the building material; In the material of the material in which the moisture or moisture contained in the fragrance generating member penetrates by osmotic action acted by high temperature In order to increase the internal temperature of the building so as to be removed, a heater using alcohol as a fuel, a heater using electricity as energy, a burner based on petroleum, or a burner 772 using gas as a raw material and It is installed to communicate with the outside, the upper portion of the building 777 is installed with a discharge pipe 557 having a discharge valve 556 to communicate with the inside and the outside of the building 777, the lower portion of the building 777 The heater or burner 772 is operated for 1 to 5 hours while the inlet pipe 773 having the inlet valve 774 is installed to allow the inside and the outside of the building 777 to communicate with the building through the heating process. Inorganic or organic toxic substances contained in 777, toxic moisture contained in building materials used to construct the building 777 and the building 777, and inserted into the building 777. Courage (771) The fragrance divergence generated from the fragrance-generating member made or manufactured by using vegetable or mineral or petroleum contained in it, the temperature of moisture increases and the molecules of water are forcibly expanded by osmotic action and gravity. 777 and the process of raising the internal temperature of the building so as to escape from the upper side of the materials used to construct the building, and after completing this process to open the discharge valve 556 to configure the building and the building Water or inorganic or organic toxic substances which are separated from the used materials and rise, are discharged to the outside of the building 777 through the discharge pipe 557; Simultaneously with this process, opening the inlet valve 774 to introduce external air through the inlet pipe 773 at least two to three times to introduce clean air into the interior of the building; After this process, all windows and doors of the building are opened, and a fan or a fan (not shown) is installed inside the building 777 to remove inorganic or organic substances remaining inside the building. Forced ventilation to the outside; Through this process, a method of constructing a building using the method of eliminating the concrete toxicity contained in the building and the inorganic or organic material toxicity contained in all the building materials used to construct the building. The method of claim 20, The outer upper portion of the building 777 may be extracted from pure water, vegetable materials containing animal-friendly ingredients, animal materials, mineral materials, materials made using petroleum, materials made by combining or extracting them, or materials A liquid supply container (98) is installed to contain the liquid (8) obtained by mixing the processed and recombined material with water, and the liquid supply container between the liquid supply container (98) and the surface of the building (777) ( Connecting a plurality of outlet pipes 600 having an outlet valve 601 to transfer water or liquid 8 contained in 98; After the process of supplying clean air into the building 777 is made, the outlet valve 601 is opened to transfer water or liquid contained in the liquid supply container 98 through the outlet pipe 600. Spraying or painting the liquid to the outside of the building 777 by spraying or painting the surface of the 777 for 1 to 10 hours or by using a sprayer; The concrete structure forming the building 777 in the process of moving the sprayed or painted water or liquid 8 through the wall constituting the building 777 to the inside of the building 777 by absorption or osmotic action. Or to remove or neutralize the toxic constituents of all the materials used to construct the building, and the inorganic or organic material toxic contained in the concrete toxic contained in the building and all the building materials used to construct the building. Construction method using the method of removing them. The method according to any one of claims 1, 2, 5, 6, 11, 13, 15, 16, 18, 19 and 20. Open the windows, doors, or outlet valves of the building after finishing the process of removing and removing moisture or toxic substances contained in the building and the materials used to construct it. Placing a container coupled with a burner or heater inside the building so as to communicate with the inside and outside of the building when the air flowing in from the outside is charged inside the building component used to construct the building or the building; 20 to 80 wt% of water selected from solid or fluid or vegetable materials, animal materials or mineral materials or petroleum materials, or materials made by combining or extracting them, or materials extracted or processed from these materials and recombined, Mixing 80 wt% into the container; The burner or heater is heated for 2 to 8 hours using a clean energy such as electricity or an alcohol or a fuel composed of mineral or vegetable, or a fuel composed of two or two, and the heat evaporates the mixture in the container. Filling the interior of the building with water vapor so that the water vapor penetrates into the building and the materials thereof; Repeat the above process once or two to five times to remove or alleviate the toxicity contained in the building and the materials used to construct it. A method of constructing a building using a method of removing inorganic or organic toxins contained in building materials.

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