KR20060035697A - New construction method of building that removes the toxicity of the building by using physical method that acts to remove or neutralize the toxicity of cement while improving insulation - Google Patents

Abstract

The present invention is installed in the interior of the wall or ceiling or floor of a house or building or school or office to block the structure of pipes and pipes provided to remove the toxicity of concrete that is a member of the wall or ceiling and floor, and such a block The invention relates to a method of removing the toxicity of buildings using pipes constructed using the method.

In addition, the present invention relates to a method for constructing a building using a block provided to remove the toxicity of concrete, which is the main constituent member of a block used in the wall of a house, a building, or a school or an office, and at the same time improve insulation.

In addition, the present invention is to install or attach a container provided to put the mixture on the wall or ceiling or floor of a house or building or school or office to prevent the deterioration of the air in the room, such as cement block or brick or The present invention relates to a building method for removing toxicity of cement contained in walls, ceilings, or floors made of concrete.

In addition, the present invention relates to a method of constructing a fish house provided to remove the toxicity of cement contained in concrete mortar, which is a main component of the fish house, by using a method of injecting a soil mixture into the fish house dropped into the sea to be.

There is a patent application method 10-2005-0059102 as a method of removing the toxicity of a building used in the prior art, but this method is also configured to remove some of the toxicity, there was a defect that does not completely remove the toxicity of the building.

In addition, there is a patent registration No. 10-0557007, which is efficient because it uses a method of forming a through-hole in the pipe and inserting materials that are not easy to remove into the pipe to remove the toxicity of cement. Not

In addition, there is a method of purifying the indoor air using an air purifier to remove the toxicity generated in the building. These methods have the drawback that they can only function if the air purification plate is washed from time to time. There is this.

Another method is to apply photocatalyst coating to building walls to remove harmful substances such as formaldehyde, which also absorbs and releases the moisture mixed in the air under the influence of high and low pressure. In other words, there were significant drawbacks that could not eliminate toxic harmful substances such as formaldehyde caused by condensation.

The present invention is an invention for solving these problems.

Pipes, formaldehyde, condensation, artificial reefs. Fish house

Description

New construction method of building that removes the toxicity of the building by using physical method that acts to remove or neutralize the toxicity of cement while improving insulation

1 is a perspective view showing a cross-sectional state of a pipe constructed in accordance with the present invention

Figure 2 is a perspective view showing a cross section of the wall and ceiling or floor of the building according to an embodiment of the present invention

3 is a perspective view showing a cross section of a brick constructed in accordance with a first embodiment of the present invention;

Figure 4 is a perspective view showing a cross-sectional state of the pipe configured according to the first to second embodiments of the present invention

5 is a perspective view showing a cross section of a wall and a ceiling or floor of a building constructed in accordance with the first to second embodiments of the present invention;

 6 is a perspective view showing a cross section of a brick configured according to the first to second embodiments of the present invention;

7 is a perspective view showing a cross-section of a wall using bricks constructed in accordance with the first to second embodiments of the present invention;

8 is a perspective view showing a cross-section of a wall using bricks constructed in accordance with the first to second embodiments of the present invention;

9 is a perspective view showing a cross-section of the floor, wall and ceiling of the prefabricated building constructed according to the sixth embodiment of the present invention.

10 is a perspective view showing a cross section of a wall of a building constructed in accordance with the first to fourth embodiments of the present invention;

11 is a perspective view illustrating a pipe member inserted into a wall and a ceiling or a floor of a building according to the first to fourth embodiments of the present invention.

12 is a perspective view showing a state of removing the toxicity of concrete on the walls and ceiling or floor of the building constructed in accordance with the embodiment of the first to fourth of the present invention

FIG. 13 is a sectional perspective view showing a construction state of a wall and a ceiling or a floor of a building constructed in accordance with embodiments of the present invention.

Figure 14 is a perspective view showing a state of removing the toxicity of concrete on the walls and ceiling or floor of the building constructed in accordance with the first to fourth embodiments of the present invention

15 is a cross-sectional perspective view showing a construction state of a wall and a ceiling or a floor of a building constructed in accordance with the first to fourth embodiments of the present invention;

16 is a cross-sectional perspective view showing a state in which concrete mortar is poured by putting a pipe member into a wall and a ceiling or a floor of a building constructed according to a fourth embodiment of the present invention;

FIG. 17 is a cross-sectional perspective view showing a state in which a soil mixture is inserted into a through hole formed in a wall and a ceiling or a floor of a building constructed in accordance with a fourth embodiment of the present invention; FIG.

18 is a cross-sectional perspective view showing a state in which air, water, or liquid is injected into a through hole formed in a wall and a ceiling or a floor of a building constructed according to a fourth embodiment of the present invention;

Fig. 19 is a sectional perspective view showing a state in which a soil mixture has been added to a through hole formed in a wall and a ceiling or a floor of a building constructed in accordance with a fourth embodiment of the present invention;

20 is a perspective view showing the shape of a block constructed according to the fifth embodiment of the present invention.

Fig. 21 is a sectional perspective view of a block showing a cross section of a state in which a block constructed in accordance with a fifth embodiment of the present invention is combined in a “-” shape;

Fig. 22 is a perspective view showing a cross section in a state in which a block constructed according to the fifth embodiment of the present invention is installed;

Fig. 23 is a perspective view showing the shape of a block constructed according to the fifth embodiment of the present invention.

24 is a perspective view of the block in which the block constructed in accordance with the fifth embodiment of the present invention is installed;

Fig. 25 is a side view showing a state in which blocks constructed according to the fifth embodiment of the present invention are stacked;

26 is a cross-sectional perspective view showing a cross-sectional state of a building according to the seventh embodiment of the present invention.

27 is a cross-sectional perspective view showing a cross section of a ceiling or a floor of a building according to an eighth embodiment of the present invention;

28 is a sectional perspective view showing a wall section of a building according to the ninth embodiment of the present invention.

29 is a view illustrating a state in which a propeller shaft and a propeller configured in combination with a stirrer in a through hole formed in a wall and a ceiling or a floor of a building according to the embodiment of the fourth to sixth embodiments of the present invention are configured in the through hole. Cross-sectional perspective view

30 is a view illustrating a state in which a cooler or a heater configured in combination with a power source is formed in a through hole in a through hole formed in a wall and a ceiling or a floor of a building according to the embodiments of the present invention. One section perspective view

Figure 31 is a cross-sectional perspective view showing a state in which the completion of the introduction of the soil mixture in the through-holes configured in the interior of the wall and ceiling or floor of the building constructed in accordance with embodiments 4 to 6 of the present invention

32 is a cross-sectional perspective view of a soil mixture and a pillar of a fish house which are put into a through hole formed in a skeleton of a fish house according to a tenth embodiment of the present invention;

FIG. 33 is a sectional perspective view showing a cross section of a pipe and a fish house which are inserted to form a through hole in a frame of a fish house according to a tenth embodiment of the present invention; FIG.

34 is a cross-sectional view showing a columnar cross section of a state in which a soil mixture is put into and finished after removing a pipe inserted to form a through hole in a skeleton of a fish house according to a tenth embodiment of the present invention; Perspective view.

35 is a perspective view of a fish house showing a state in which a pipe for constructing a through-hole is put into an inside of a form for forming a fish house according to a tenth embodiment of the present invention;

36 is a perspective view of a fish house showing a state in which a fish house constructed according to a tenth embodiment of the present invention is completed;

FIG. 37 is a sectional perspective view showing a cross section of a through hole and a fish house frame formed at a position from which a pipe inserted to form a through hole in a frame of a fish house according to a tenth embodiment of the present invention is removed; FIG.

<Description of Major Symbols in Drawing>

1, non-woven fabric or cloth or sponge or paper or water-repellent cloth 2, pipes consisting of through-holes 3, insert member consisting of sponge or cotton yarn or chemical fiber yarn or mineral member such as vegetable member or sand gravel Holes 6, pillars, stairs, walls, ceilings, floors, prefabricated building concrete panels 7, floor or ceiling 8. Liquid or water 9. Uneven grooves 11. Second pipe 21. Concrete mortar 22. Holes 32. Moisture Water repellent cloth made to block moisture from entering the exterior while discharging silver 33. Formwork [Detailed structure not shown] 55. Mortar 56. Air tube or plastic resin or steel or wood consisting of vinyl or synthetic resin or rubber Insertion member 58. Soil mixture 76. Release agent composed of cloth or vinyl or sponge or paper or lubricating emulsifier 77. Pipe 78. Holes 79. Pipe etc. Coupling member consisting of 88. Liquid inlet provided for introducing water or liquid 98. Liquid supply container 99. Compression pump or air pump or liquid supply device or water supply pump 111. Block 112. Side grooves 113. Upper uneven groove 114. Through hole 115. Soil mixture 116. Upper uneven groove 117. Lower uneven groove 118. Through hole partition 121. Artificial reef 6, building stairs or columns or walls or floors or ceilings 222, containers consisting of water tanks, water bags, water reservoirs or storage panels 223, coupling members 224 such as anchor bolts, inlets 225, outlets 227, water Or mixtures of mineral or vegetable substances with chemical solutions or with soil or earth and water 228, keying devices 229, such as valves, reservoirs, containers 211, heaters or coolers 233. Solution holder 422, sponges or rags or paper Or panels 331. Stirrers 334. Propellers 337. Fiber or plastic mesh or wire mesh 441. Heaters or coolers 442. Power sources of heaters or coolers 551. Finishers 555. Pumps 77, used to form fish houses Pipe indicator 78, which is put inside the formwork, is the one who pulled the pipe [77] out of the concrete mortar [21] used to construct the fish house. Naturally constructed through-holes, reference numeral 121 denotes a fish house or artificial reef, 124, formwork used to form a fish house, 551 denotes a concrete mortar on the upper part after the soil is completely filled in the hole. End hole of finishing tool with finishing material

The present invention uses a method of injecting a soil mixture into the block used to construct the walls, ceiling or floor of a house or building or school or office to increase the insulation of the building while at the same time to remove or neutralize the building To construct the through hole using the construction method and the method of injecting the pipe member into the concrete mortar which is the main component of the building, or inserting the pipe member into the concrete mortar which is the main component of the building, The invention relates to a method for removing. In addition, the present invention by installing or attaching a storage panel or a water reservoir or a water bag on the wall or ceiling or floor of a house or building or school or office to mix the soil mixture or mineral or vegetable members mixed with water or water therein It is applied to cement blocks, bricks, or concrete, which are the main constituents of buildings by osmotic action of the materials by injecting the created liquids or raising or lowering the temperature of the liquids in the water reservoir. The present invention relates to a building method for removing the toxicity of cement contained in the wall or ceiling or floor. In addition, the present invention relates to a method of constructing a fish house provided to remove the toxicity of cement contained in concrete mortar, which is a main component of the fish house, by using a method of injecting a soil mixture into the fish house dropped into the sea to be. Among the conventional methods to remove the toxicity generated in the building is the patent No. 10-0557007, using this method to remove the toxicity of the cement contained in the building is a complex process to be contained in the building The disadvantage is that it takes a long time to remove the toxicity of cement. Another conventional method is to purify the air in the room using an air purifier, these methods have the drawback to perform its function only if the air purification plate is washed from time to time and there is a significant drawback that can not be used permanently. Another method is to apply photocatalyst coating to building walls to remove harmful substances such as formaldehyde, which also absorbs and releases the moisture mixed in the air under the influence of high and low pressure. In other words, there were significant drawbacks that could not eliminate the harmful substances such as formaldehyde caused by condensation. In addition, the fish houses used in the prior art do not remove the toxicity of the cement contained in the concrete and put the fish house composed of concrete into the sea. There was a significant shortcoming of not sticking to the fish house for a period of time. In order to solve these problems, the present invention is to provide a natural tube after removing the pipe from concrete after pouring concrete mortar with the pipe inserted into a pillar or stairway or wall or ceiling or floor, which is a main component of the building. Dirt mixtures are introduced into the tools and blocks through holes and artificial reefs, and the soil mixture mixed with water or water by installing or attaching a storage panel or water reservoir or water bag to the building. Or by injecting liquids made from a mixture of mineral or vegetable components or by increasing or decreasing the temperature of the liquids in the water reservoir. Building method to remove the toxicity of cement The invention relates. In addition, the method of constructing a fish house by using a method of forming a through-hole inside the fish house and then filling the soil mixture therein to remove or alleviate the toxicity of cement contained in the concrete. The invention relates to.

The technical problem of the present invention is to take into account the above problems a process of sequentially introducing two to five soil mixtures mixed with a certain amount of water into an empty space of a block used to construct a building [6]. Method to remove the toxicity of cement contained in the block through the pipe inserted into the concrete mortar after a certain time has passed after the concrete mortar is poured while the pipe is put into the concrete mortar which is the main component of the building Remove the toxicity of cement by sequentially injecting soil mixture made by mixing a certain amount of water and soil into naturally-occurring through-holes and concrete which is the main constituent member of the building [6]. Using pipes [2] [11] in which through holes are formed in mortar, Method for removing the toxicity is the main technical problem of the present invention. In addition, the present invention in order to solve these problems in the interior or exterior of the building [6] by using rubber and anchor bolts and nuts, such as rubber packing or the various coupling members [223] that are openly used to the outside of the building [6] Or a liquid mixture or concrete made by adhering a container [222] to the inside and then mixing the water or soil mixture made with water or water, or fragrance-emitting members such as charcoal or chrysanthemum, pine needles or juniper with liquid. Among chemical solutions acting to neutralize the toxicity, only one substance is selected or sequentially crossed and placed in a container [222], or only one substance is kept for a certain time and then another liquid or member is removed after a certain time. By replacing them and placing them in containers [222] Toxic substances contained in the cement, which is a constituent member, use the physical method to remove the toxicity of cement, which is the main constituent of the building [6], by using osmotic action and condensation caused by water or soil mixture or chemical solution. The main technical problem of the present invention is a method for removing the toxicity of buildings [6]. In addition, a pipe [77] coated with a stripping agent [76] formed by reinforcing cloth, paper, or nonwoven fabric, or applying a lubricant or the like after installing a reinforcing frame in a form used for making a fish house or artificial reefs. After placing a concrete mortar in a fish house, a formwork for artificial reefs, and putting a pipe out of the concrete mortar after a certain period of time in the state inserted between the reinforcing bar frames A method of constructing a fish house, ie, artificial reef, by using a method of filling up the upper part of a through hole after sequentially inputting soil mixtures made by mixing water, vegetable members, and soil at a predetermined ratio It is a task.

The present invention provides a soil mixture made by mixing with a liquid or water or water made by chemical bonding in the interior of the building to remove or mitigate harmful factors generated from bricks or blocks or concrete mortar, which are the main components of the building. The first embodiment of the present invention is provided to remove the toxins contained in the building by the method of constructing the through-hole [78] and the action of water or liquids introduced through the pipe member to improve the thermal insulation at the same time. The construction method for building a building according to the example is constituted by the following methods. 1 is a perspective view showing a cross-sectional state of a pipe constructed in accordance with the present invention, Figure 2 is a perspective view showing a cross section of the wall and ceiling or floor of a building according to an embodiment of the present invention, Figure 3 is a view of the present invention 4 is a perspective view illustrating a cross section of a brick or a block configured according to an embodiment, and FIG. 4 is a perspective view showing a cross-sectional state of a pipe configured according to another embodiment of the present invention, and FIG. 5 is another embodiment of the present invention. 6 is a perspective view illustrating a cross section of a wall and a ceiling or a floor of a building configured according to FIG. 6, and FIG. 6 is a perspective view illustrating a cross section of a brick configured according to another embodiment of the present invention, and FIG. 7 is another embodiment of the present invention. 8 is a perspective view illustrating a cross section of a wall using a brick configured according to FIG. 8, and FIG. 8 illustrates a cross section of a wall using a brick configured according to another embodiment of the present invention. A perspective view, and Fig 9 is a perspective view showing a section of the floor and walls and ceilings of buildings constructed according to the present invention still further embodiment. 10 is a perspective view illustrating a cross section of a wall of a building constructed in accordance with another embodiment of the present invention, and FIG. 11 is a view illustrating a pipe member inserted into a wall and a ceiling or a floor of a building according to another embodiment of the present invention. 12 is a perspective view showing a state of removing the toxicity of concrete on the wall and ceiling or floor of a building constructed in accordance with another embodiment of the present invention, Figure 13 is configured according to another embodiment of the present invention Cross-sectional perspective view showing the construction of the walls and ceiling or floor of the building, Figure 14 is a perspective view showing the state of removing the toxicity of concrete on the walls and ceiling or floor of the building configured according to another embodiment of the present invention. FIG. 15 is a sectional perspective view showing a construction state of a wall, a ceiling, or a floor of a building constructed in accordance with another embodiment of the present invention. Is a non-woven fabric or a wrapping paper composed of cloth, sponge, paper, or the like. Indicated by reference numeral 2 denotes a pipe having a through hole, and indicated by reference numeral 3 denotes a sponge or cotton yarn or chemical fiber yarn or a vegetable member such as charcoal or wood Or mineral elements such as soil or sand or vegetable parts such as chrysanthemums or chrysanthemums, or pine needles or licorice, reference 4 shows bricks or blocks, and 5 indicates liquids flowing through the top of the pipe into the concrete. A through-hole provided to be discharged is shown, and the reference numeral 6 shows the wall of the building, the reference 7 shows the floor or ceiling of the building, and the reference 8 shows the liquid or water filled in the pipe. Reference numeral 55 denotes a mortar applied to the outside of the nonwoven fabric, and reference numeral 56 denotes an insertion member composed of a synthetic resin or rubber tube or plastic resin or steel or wood inserted into an inside of a pipe member having a through hole. Reference numeral 58 shows a soil mixture made by mixing a certain amount of water and soil, or a mixture of pulverized charcoal and vegetable materials, and reference numeral 76 shows a lubricant oil on the outside of the pipe so that the pipe can be pulled out of concrete. Shows the packaging material which covers the outside of the pipe using a releasing agent or paper or cloth or non-woven fabric or cloth, wherein the designation 77 denotes a pleated or circular or triangular round or bisected square or rectangular or conical lozenge Or a pipe consisting of a wedge shape, the reference numeral 78 denotes a concrete mortar The through-hole is formed naturally in the place where the pipe is inserted into the wealth, the reference numeral 88 shows the liquid inlet provided for the introduction of water or liquid, and the reference 99 to purify the toxicity of the concrete A supply device such as an air pump or a compression pump or a water pump that compresses and supplies water or liquid or air that acts to purify the inside of the pipe, and a reference numeral 777 denotes a connection connecting the compression pump and the vent hole. Shows a socket. Building construction method provided to remove the toxicity of the building according to the first embodiment of the present invention is completed through the following process. Inside the pipe [2] in which the through hole [5] is constructed to remove the toxicity of the concrete constituting the interior of the wall [6] and the floor [7] or the ceiling [7] which are the main structural members of the building. Insert members [3] consisting of materials such as cotton or fibrous or chemical fibres, or minerals such as charcoal or sand or soil, or pulverized products of pulverized vegetable members, are provided inside the first pipe [2]. The outer structure of the first pipe [2] which constructs the pipe [2] using a selective insertion method and wraps the outside of the pipe [2] with a nonwoven fabric or a wrapping paper [1] such as cloth or sponge [1]. And the second pipe 11 having the through-hole 22 is padded on the outside of the first pipe 2 to complete the structure of the double pipe [2] [11]. However, an insertion member [3] made by using a method of injecting a sponge such that water or a liquid inlet 88 is formed at the center of the sponge [3], which is an insertion member [3] inserted into the first pipe [2], is formed. Filling pipes [2] or inserts consisting of fibrous yarns composed of cloth, cloth or paper or several strands of yarn or mineral elements such as sand or stone powder or soil or vegetable members such as charcoal or chrysanthemum or chrysanthemum pores Since the member [3] can be selectively inserted into the first pipe [2] to constitute the structure of the first pipe [2], it is natural that such a modified configuration also falls within the scope of the present invention. The first pipe and the second pipe provided hereinafter are collectively called a pipe [2]. The pipes [2] members constructed in this way can be inserted into the interior of the building by various methods. In this method, the pipes [2] members are formed in the brick or block by forming the uneven grooves [9]. There is a way to settle down. The pipes [2] constituted as described above are arranged in the walls [6] or the ceilings [7] or the floors [7] of the building or the grooves [9] formed in the bricks [4]. Installed at regular intervals, the pipe [2] is installed between the reinforcing bar frames [not known] because the process of installing the pipe [2] inside the formwork [33] is completed and the first In the state that the one end of the pipe [2] was sealed, the insertion member [3] constituted of water or liquid [8] inside the first pipe [2] contained water through the inlet of the other end. Inflow of some amount of concrete The mortar [21] is poured in. At this time, the liquid [8] such as water flows into the insert [3] inserted into the pipe [2]. It does not absorb additionally. Water or liquids [8], which are configured to neutralize the toxicity of water or concrete, through the inlet [2] at the end of the pipe [2] after 10 hours or more, after a certain time, is completed. 2] If the process for 5 ~ 50 hours is introduced through 3 or more repetitive processes, the incoming liquids [8] are composed of the first pipe [2] and the second pipe [11]. Absorbed into concrete walls or ceilings or floors [7] or bricks [4] through enclosed through-holes [5] [22] and wrappers [1] surrounding the outside of pipes [2]. At the same time, the osmotic action of the liquids [8] takes place to neutralize or purify the toxicities of the cement contained in the concrete mortar. At this time, the combination ratio of the water or the unspecified liquid component and the undiluted solid components can be used with any material existing on the earth, and the mixture can be mixed with different dilution ratios or different mixing ratios. The effect of the present invention can be achieved, and the present invention is not limited to any one material or type. 30% ~ 60% of the water inside the first pipe [2] and the second pipe [11] after the sequential water or liquid inflow process that removes or purifies the building's toxicity through the above process. The soil mixture [58], which is made by mixing the soil and 40% to 70% of soil, twice or six times, and then completely converts the inside of the first pipe [2] and the second pipe into the soil mixture [58]. The process of the present invention is provided to remove or purify the toxicity of cement, which is a component of the building, through the filling process. In order to complete such a process, the inserting members [3] inserted into the inside of the first pipe [2] and the inside of the second pipe [11] can use all the technologies and processing methods existing on the earth, or can be changed and applied. As a matter of course, all methods of injecting water or liquid into the concrete and the brick to remove or reduce the toxicity contained in the concrete mortar [21] and the brick, which are the main components of the building, are within the scope of the present invention. . The material of the pipe [2] used in the present invention can be changed in various ways, and the shape of the pipe [2] is not limited to any one of its shape or type. ] Is also not limited to any one, because it can be used in various ways using all the materials present on the earth, it is possible to construct a pipe using all the materials present on the earth, It can be put inside or wrapped outside. In addition, as shown in FIG. 4, the outside of the second pipe may be wrapped around the outside of the pipe [11] by using the wrapping paper [32], and the number of times surrounding the outside of the pipe [2] [11] is limited to one time. It can be wrapped as many times or more than 10 times as necessary, and to change the material of the wrapping paper to wrap the outside of the pipe or to change the number of designs to wrap the outside of the pipe is also within the scope of the present invention It is natural. In addition, the material of the wrapping paper surrounding the outside of the pipe [2] [11] is a water-repellent spring, ie, the pipe does not absorb moisture from the outside, but the water is discharged to the outside. It is natural that such a design change also falls within the scope of the present invention as it can wrap the outside of [11]. In addition, the constituent materials of the pipe can be configured by using all materials existing on the earth, so it is natural that all of the materials of the pipes configured differently are included in the scope of the present invention.

In addition, liquids that act to neutralize, purify, or remove the toxicity of concrete, the main constituent material of buildings, can be used in various combinations or manufactures of various liquids and substances on the earth. The design changes can be made as long as the person skilled in the art is configured with all the different properties and components of the liquid used to remove them, so it is natural that the design changes fall within the scope of the present invention. It is natural to receive it. In addition, the technology to wrap the outside of the pipe can be applied deformation as much as possible to change the material of the wrapping paper used to wrap the outside of the pipe or used by changing the technology to wrap also it is obvious that it belongs to the scope of the present invention. will be. In addition, the number of the through-holes constituted in the pipe can be configured to increase or decrease, and even if the shape of the through-holes can achieve the effect of the present invention, such a design change is also within the scope of the present invention. It is natural to belong. In addition, since the shape of the brick to be applied to the present invention can be changed to various structures as shown in FIG. 6, it is natural that all changes of the shape of the brick fall within the scope of the present invention.

In addition, the material of the pipe to be applied to the present invention can be configured in any way different, it is natural that all of the materials configured by different belong to the scope of the present invention. In addition, since the arrangement position, arrangement order and arrangement point of the pipe [2] [11] member manufactured by the construction method of the present invention can be added or increased as shown in FIG. It is natural to fall within the scope of rights. In addition, the first pipe [2] and the second pipe [2] and second are introduced by introducing the mineral material mixed with the liquid into the first pipe [2] and the second pipe [11] used in the process of eliminating or purifying the toxicity of the building. Since the materials used to completely fill the inside of the pipe can be used, prepared or combined using all materials existing on the earth, such a design change is also within the scope of the present invention. In addition, since the shape of the through-hole configured in the pipe and the number of configured points can be arbitrarily reduced or enlarged, it is natural that such a design change is also within the scope of the present invention.

Next, a second embodiment of the present invention will be described.

10 is a perspective view illustrating a cross section of a wall of a building constructed in accordance with a second embodiment of the present invention, and FIG. 11 is a pipe member inserted into a wall and a ceiling or a floor of a building according to the second embodiment of the present invention. 12 is a perspective view illustrating a state in which the toxicity of concrete is removed from a wall and a ceiling or a floor of a building constructed according to the second embodiment of the present invention, and FIG. 13 is a second embodiment of the present invention. Sectional perspective view showing the construction state of the wall and ceiling or floor of the building is configured according to, Figure 14 is a state for removing the toxicity of concrete on the wall and ceiling or floor of the building constructed according to the second embodiment of the present invention 15 is a cross-sectional perspective view illustrating a construction state of a wall and a ceiling or a floor of a building constructed in accordance with the second embodiment of the present invention. It is made. Forming a through hole [5] in the pipe [2]; and winding one or three or more layers of a wrapping paper [1] formed primarily of a sponge or non-woven fabric or paper or cloth on the outside of the pipe [2]. And; applying a releasing agent [1] composed of a lubricating emulsion to the surface of the wrapping paper [1] wound on the outside of the pipe [2]; paper or nonwoven fabric on the top of the wrapping paper [1] coated with the release agent; Or again wrapping the wrapping paper [1] consisting of cloth; about 20% to 50% water and about 50% to 80% cement outside the surface of the wrapping paper [1] wound on the outside of the pipe [2]; Attaching and bonding concrete mortar [55] made by mixing 20% ~ 30% of sand with thickness of 3mm ~ 20mm; and concrete mortar [55] on wrapping paper [1] wrapped outside of pipe [2]. Drying and curing the pipe [2] so that it can be bonded; Inserting an insert member [56] in the form of a rod using an air tube made of a rod or an air tube made of rubber, vinyl, synthetic resin, or the like, or an iron or plastic resin or wood; and a pipe in which the manufacturing process is completed through such a process. [2] placing the reinforcing bar and the pipe [2] at regular intervals between the reinforcing bar frames, the main component of the wall, ceiling or floor of the building [6]; [2] the process of connecting the joints [2] between the joints; and joining the formwork [33] to the outside of the pipe [2] and the reinforcing frame [not shown]; 21] the process of pouring; the process of curing the finished concrete [21] to complete the framework of the building [6]; and in the form of a rod inside the pipe [2] inserted into the building [6] Became Extracting the insertion member [56]; and coupling the end of the pipe [2] inserted into the building [6] with the compression pump [99] using a connecting socket [777]; Connecting a liquid supply container [98] configured to supply a mixed liquid selectively mixed with water or a vegetable or mineral substance which acts to remove or purify the toxic concrete; The pump [77] is operated to provide a combined liquid to remove or mitigate the toxicity of water or concrete within the pipe [2] inserted in the building [6] for about 5 to 24 hours. A process of repeatedly injecting three times or more; a liquid remaining in the pipe [2] by operating a compression pump [99] operated for only 2 to 20 hours by using only air which is not supplied with water or liquid. That the steps of moving the compression pump [99] to be discharged to the outside through the wall or floor or ceiling of the structure [6]; This process of cleaning the harmful components exposed to the outside of the building [6]; Purifying or mitigating the toxicity of walls, floors and ceilings composed of cement, the main component of the building [6] Separating the compression pump [99] by dismantling the connection socket [777] connected to the end of the pipe [2] used for the cycle; and removing the connection socket [777] associated with the pipe [2]. Improving the thermal insulation of the building [6] by sealing the end of the pipe [2]; and by increasing the thermal insulation of the building [6] through this process, cement is the main component of the building [6]. It is a construction method to construct a building to remove or purify the building by using a physical method that acts to remove or neutralize the toxicity of the building.

At this time, the compression pump, the liquids, the pipe members, the insertion members inserted into the pipe members, and the wrapping paper members surrounding the outside of the pipe can be used by changing or modifying all materials present on the earth. It is natural that design changes made by changing or modifying these materials are all within the scope of the present invention. In addition, in the state of constructing the empty space inside the prefabricated building panel to construct the building, the soil in the empty space of the panel is injected by injecting the mixture of soil mixed with the soil several times. 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 mixtures is also within the scope of the present invention. In addition, since it is possible to arbitrarily increase or decrease the operating time of the compression pump, such a design change is naturally within the scope of the present invention.

In addition, by increasing the time to force the injection of the compressed pump that operates while receiving only air into the walls of the building and the pipes inserted into the floor and ceiling, or by reducing the operating time of the compression pump. Natural construction method is also within the scope of the present invention is natural.

In addition, by using a natural method of artificially supplying water from a sewage pump or a human without supplying a compression pump, a method of supplying a liquid such as water to a pipe [2] of a building [6] is used. It is also natural that such a method also falls within the scope of the present invention as it can achieve the effects of the present invention.

A third embodiment of the present invention will be described as follows.

Pipes [2] [11] inserted into concrete mortar or brick used to construct walls or floors or ceilings of buildings are made through the following process. The process of wrapping the outside of the first pipe [2] having the through hole [5] once or five times using cloth or sponge or nonwoven fabric, and the second pipe having the through hole [22]. ] Is inserted into the outside of the first pipe [2] and the pipe made through this process are collectively called a pipe [2]. Five to 40 hours have elapsed after placing concrete and placing concrete after laying the pipe [2] made through the above process in the walls, ceiling and floor, the main components of the building. 10% ~ 60% of water, 40% ~ 90% of soil, 5% ~ of charcoal in the pipe [2], which has been in the state of 5 ~ 50 hours after finishing masonry. A first step of adding a dilute and stirred soil mixture [58] by adding an additional 20% ratio; After the soil mixture [58] was introduced into the pipe [2], the soil mixture, which had been mixed at the above-mentioned ratio again, was added to the inside of the pipe [2] again after 1 to 10 hours. and; The soil mixture was mixed with a mixture of 5% to 20% water and 95% to 80% soil after 1 hour to 10 hours or more after the secondary mixture was added to the inside of the pipe [2]. By using the process of sealing the end of the pipe [2] by using the physical structure that acts to remove or neutralize the toxicity of cement contained in the concrete mortar and brick, which are the main components of the walls, ceiling and floor of the building It is a construction method to construct a structure so that the toxicity of concrete, the main constituent member of the building, is purified or mitigated using the method. The method of injecting the mixture of soil into the interior of the building by using the above method is to change the ratio or to change the mixed materials. It is natural that construction methods for building construction using a method of removing the toxicity of cement, which is a main component, fall within 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 all the materials that can be mixed with the soil can mix and use all the materials existing on the earth. Naturally, such a design change is also within the scope of the present invention.

The following describes a fourth embodiment of the present invention.

16 is a sectional perspective view showing a state in which concrete mortar is poured by putting a pipe member into a wall and a ceiling or a floor of a building constructed according to a fourth embodiment of the present invention, and FIG. 17 is a fourth embodiment of the present invention. Fig. 18 is a sectional perspective view showing a state in which a soil mixture is put into a through-hole formed in the interior of a wall and a ceiling or a floor constructed according to FIG. 18, and FIG. 18 is a wall of a building constructed according to the fourth embodiment of the present invention. Cross-sectional perspective view showing a state of injecting air or water or liquid into the through-holes formed in the ceiling or floor, Figure 19 is configured in the interior of the wall and ceiling or floor of the building configured according to the fourth embodiment of the present invention It is a cross-sectional perspective view showing a state in which the soil mixture is added to the through-holes to be completed. 29 is a view illustrating a state in which a propeller shaft and a propeller configured in combination with a stirrer are formed in a through hole formed in a wall and a ceiling or a floor of a building according to the eleventh to sixth embodiments of the present invention. It is a sectional perspective view shown. 30 is a view illustrating a state in which a cooler or a heater configured in combination with a power source is formed in a through hole in a through hole formed in a wall and a ceiling or a floor of a building according to the first to sixth embodiments of the present invention. It is a cross-sectional perspective view.

FIG. 31 is a cross-sectional perspective view showing a state in which a soil mixture is added to a through hole formed in a wall and a ceiling or a floor of a building constructed according to the first to sixth embodiments of the present invention; FIG. Reference numeral 21 shows concrete mortar, and reference numeral 33 shows a simplified state of the formwork used for placing concrete, and reference numeral 76 indicates a certain time after the concrete mortar is poured into the pipe which is put into the concrete mortar. After this, a paper or cloth or cloth or non-woven or sponge or a lubricating emulsion is shown which covers the outside of the pipe so that the pipe can easily escape from the interior of the concrete mortar, and reference numeral 77 denotes a metal or nonmetal Or pipes consisting of steel, plastic, wood, or the like, respectively, and reference numeral 78 denotes a through hole configured naturally at the place where the pipe is removed from the concrete mortar, and reference numeral 79 denotes an air pump or a liquid pump and a cylinder. Shows a connecting member for coupling between the tools, Reference numeral 99 denotes a liquid pump or an air pump. Reference numeral 115 denotes a soil mixture made by mixing soil or water or mineral substances or vegetable substances, reference numeral 225 denotes an outlet port, reference numeral 228 denotes a locking device such as a valve, and reference numeral 331 denotes a rotational force. It shows a stirrer rotating by, the reference numeral 332 shows a support for supporting the stirrer to the upper end of the through hole, the reference numeral 333 shows a propeller shaft coupled to the stirrer, and the reference numeral 334 is configured at the lower end of the propeller shaft A propeller is shown, with reference numeral 442 showing a power supply, and reference 441 showing a heater or cooler connected to the power supply. The fourth embodiment of the present invention constituted as described above is a release agent composed of cloth, paper, non-woven fabric, or a lubricant for forming a through hole 78 on a wall, a ceiling, or a floor of a building [6]. Attaching or applying to the outside of the pipe [77]; combining the pipe [77] wrapped in the release agent [76] with reinforcing bars; Combining the formwork [33], which is constructed to make the structure of the concrete building, with the outside of the pipe [2] and the reinforcing frame [not shown]; the concrete that is the main constituent member of the building [6] A process of pouring mortar [21]; and a process of removing the pipe [77] placed inside the concrete mortar [21] in a state where about 5 to 50 hours have elapsed while curing of the mortar [21] is sufficiently performed. And; After installing the pedestal [332] on the upper portion of the through-hole [78], and installed on the upper portion of the agitator 331 coupled with the propeller shaft [333] and the propeller [334]; Injecting the mixture [58] into the naturally formed through-hole [78] where the pipe [77] was removed for the purpose of purifying or neutralizing the toxicity of water or concrete [58]. The process of rotating the propeller [334] by operating the stirrer [331] during the above time; and injecting the liquid into the through hole 78 during the above time, and again, the air pump [99] and the through hole [78]. Between the air pump [99] and the air hole [78] using a coupling member [79], such as a pipe, between the air hole [78] and the air pump [99] and the propeller shaft [333] so as to prevent the air from leaking between them. Combining the process; Operating the air pump [9] inside the through hole [78] and forcibly injecting air for a time period of about 1 to 20 hours to dry the building [6]; Separating the coupling member [79] and the air pump [99] from the soil; about 40% to 90% soil, about 10% to 60% water, and processed or pulverized char or vegetable members 1 Mixing the mixture by about 10% to about 10% to form a soil mixture [58]; and adding the mixture [58] to the through hole [78] and simultaneously operating a stirrer [331] to propeller [ 334] rotating; inputting a heater [441] coupled with a power source [442] provided to generate heat inside the through hole 78; and the soil mixture [58] Operating the heater [441] for a period of 2 to 5 hours so that the temperature is about 60 to 100 degrees; And then discharging the soil mixture [58] by opening the valve [228] formed at the outlet [225]; and reinjecting the soil mixture [58] at the above ratio into the through hole [78]; Inputting a cooler [442] coupled to a power source [442] to the through hole [78]; operating a stirrer [331] to operate a propeller [334] and simultaneously operating a cooler [441] to remove soil. Operating the stirrer [331] and the cooler [441] for a period of about 1 to 5 hours so that the temperature of the mixture [58] is about 0.5 to 5 degrees; Opening the valve [228] and discharging the soil mixture [58]; closing the valve [228] and filling the through hole [78] with the mixed soil mixture [5] at the above ratio; Operate the combined propeller [334] for 1 to 5 hours and stir the soil mixture [58] filled in the through hole [78]. And a process for stabilizing the soil mixture [58] for 1 hour to 5 hours after the process is completed; and after finishing the process, the soil mixture [58] mixed in the above ratio is formed through the air hole [78]. ] Raising the height of the stirrer [331] in the through hole [78] as the height of the sediment of the soil mixture [58] generated by the sequential input process of about 2 to 6 times inside the; Removing the stirrer [331] and the propeller [334] from the through hole [78] while the soil mixture [58] is completely filled inside the tool [78]; Through the process of filling the uppermost part [551], the physical method acting to remove or neutralize the cement contained in the building [6] enhances the insulation of the building and at the same time, cement It is mitigated by jugeona a method for purifying toxic construction of buildings. As described in the above embodiments, the soil mixture is formed in the through hole [78] formed in the interior of the building [6] or the pipe [2] inserted in the interior of the brick or the through hole [78] formed in the interior of the building [6]. [58] is applied to soil and water mixed with soil naturally by osmotic action [6] or bricks to remove or purify the toxicity of cement, which is the main component of building and bricks. The effect is that it does not harm the health of the people living in the interior of the building. In the configuration of the present invention, the number of locations of the pipes [2] and the through holes [78] included in the building [6] can be arbitrarily increased or reduced, or the size of the through holes can be increased or decreased. The materials to be used can use all the materials existing on the earth, and can be used by changing the materials used to construct the pipe or through-hole, or by adding or subtracting the ratio of the materials to the pipe or through-hole. Since the effects of the present invention can be achieved even if the ratio is arbitrarily adjusted, it is natural that all of these design changes fall within the scope of the present invention.

In addition, the pipe shape can be composed of an inverted triangle or a conical triangle so that the pipe inserted into the building [6] can be easily pulled out of the building [6]. ☆ After forming constellation shape or pipe into 2 or 3 parts and forming a pipe in the shape of a wedge in the space between them, insert the wedge inserted in the middle of the pipe after curing of concrete is completed. Since it is possible to achieve the effect of the present invention by using the method of removing the remaining part after extraction, it is natural that such a design change also falls within the scope of the present invention.

As described above, it is possible to apply the techniques applied to the present invention to the prefabricated building, so that the through hole is formed in the interior of the prefabricated building or through the method of sequentially injecting the soil mixture into the space. Methods of completely sealing the interior of the also within the scope of the present invention is a matter of course.

Next, a fifth embodiment of the present invention will be described.

FIG. 20 is a perspective view showing the shape of a block constructed according to the fifth embodiment of the present invention, and FIG. 21 is a cross-sectional view showing a state in which the blocks formed according to the fifth embodiment of the present invention are combined in a-shape. 22 is a sectional perspective view of a block, and FIG. 22 is a perspective view showing a sectional view of a state in which a block constituted according to the fifth embodiment of the present invention is installed. FIG. 23 is a shape of a block constructed according to the fifth embodiment of the present invention. 24 is a perspective view showing a state in which a block constructed according to a fifth embodiment of the present invention is installed, and FIG. 25 is a state in which a block constructed according to the fifth embodiment of the present invention is stacked. This is a side view.

10% to 60% water and 40% to 90% of the holes in the through-holes [114] formed inside the block to prevent the generation of harmful factors from the concrete block, which is the main component of the building [6]. The mixture of the mixture of about 1% to 5% of water and soil and the mixture of about 1% to 5% of charcoal is filled with soil mixture by using a mixer. The present invention relates to a method for constructing a building by using a block provided to remove the toxicity of concrete, which is a main component, and at the same time improve insulation. Reference numeral 111 denotes a block, reference numeral 112 denotes an uneven groove formed in one side end and the other end of the block, and reference numeral 113 denotes an uneven groove formed in the upper surface of the upper end of the block, and reference numeral 114 denotes a block. A through hole formed inside the block is shown, and reference numeral 115 denotes a soil mixture kneaded by mixing a certain amount of water, charcoal and soil, and reference numeral 116 shows an uneven groove formed in a partition formed at the center of the block. In addition, reference numeral 117 denotes a lower uneven groove formed in the lower end of the block, and reference numeral 118 denotes a partition of a through hole formed in the block.

The structure of the block [111] used in the above-described method constitutes a U-shaped uneven groove [112] at one end and the other end of the block [111], and also at the top and the center of the block [111]. The concave-convex groove [113] [116] in the form. The reason why the concave-convex groove is formed at one side end and the other end and the upper end of the block [111] is that the adhesion of the block and the block is conventionally used by the mortar for masonry used when masonry the block [111]. The reason for configuring the U-shaped uneven groove [116] in the center of the block [111] is to make it easier than the structure. The soil mixture is formed in the through hole [114] of the block [111]. [115] to make them flow completely.

Using blocks [111] constructed in this form, they are sequentially laid down where they are needed when building new buildings. The ratio of water 10% to 60%, soil 40% to 90%, water and soil Among the ratio of the charcoal 1% ~ 10% of the additionally added materials mixed with the earth mixture mixture [115] made by putting the mixture into the through hole [114] to the block [111] is used. Filling the soil mixture [115] so that the empty space does not occur inside the through hole 114 of the block [111] is carried out in the following order. After completion of masonry of block [111], after a certain time has elapsed, the exterior of block [111] is plastered using concrete mortar, etc. Firstly filling the soil mixture [115] mixed in proportion; Through this process, water or liquids in the soil mixture [115] filled in the through hole [114] included in the block [111] are soil mixture [115] after 5 to 10 hours. They become sediment and settle to a certain thickness inside the through-hole [114] of the block [111], and water or liquids are mixed at the above mixing ratio again while being discharged or evaporated out of the block [111]. The soil mixture [5] is spaced in the through hole [114] in the block [111] with a time difference of two to four times in the through hole [114] in the block [111]. In order to construct a wall of a house, a building, a school, or an office by completely filling the mixture of soils [5] in the through hole [114] formed inside the block [111] using a method of sequentially inputting the same into the block [111]. Used [111] to remove or mitigate the toxicity of the cement contained in the interior of the block [111] through the densities of the earth mixture [115] filled with a dense density of the mixture is provided to exert an insulating action It is an invention about a construction method for constructing a building using a block.

The structure of the block applied to the present invention can use concrete blocks or soil-baked blocks that have been used previously, and the structure of the concave-convex groove formed at the center of the block can be used by variously modifying its shape. Naturally, such a design change is within the scope of the present invention. In addition, the soil mixture filled in the through-hole that is combined with the block can use all the materials existing on the earth, and the soil mixture can be manufactured by mixing by adding or reducing the ratio. Changes are also within the scope of the present invention is natural. When the earth mixture is put into the through hole [114] formed in the block [111], the water mixed with the soil is naturally absorbed by the block [111] made of concrete mortar by osmotic action exerted naturally. The effect of eliminating or purifying cement, the main component of block [1], does not harm the health of the people living inside the building.

In addition, the toxic effects of cement contained in concrete mortar, which is an adhesive used when masonry blocks are baked, are naturally removed or purified. It also saves energy by the thermal insulation of the earthy mixtures filled in the through-holes of the block with dense density.

The materials of the soil can use all materials existing on the earth, which were masato or mud yellow soil. In the present invention, even if any one of them is changed, it is possible to exert the effect according to the present invention. It is also natural to belong to the scope of rights of the present invention. In addition, the materials filled in the through-holes constituted in the block can be used by processing all materials or chemicals, minerals or vegetable materials existing on the earth, and one or two or more vegetable materials or materials mixed with soil It is natural that such a design change is also within the scope of the present invention because it can be used by mixing with vegetable materials. The air pump or the compression pump used in the present invention can be used in various ways, and the method of increasing the temperature of the air that is put into the through-hole through the air pump or the compression pump or a method of putting cold air of low temperature and the compression pump By increasing the temperature of the water or liquid introduced into the through-hole using or by using a low temperature of water or liquids to achieve the effect of the present invention, such design changes are all within the scope of the present invention It is natural that copycats should be punished immediately because it belongs to. In addition, equipment such as pumps and coupling members, which are used to fill the soil mixture in the pipes, through-holes, and through-holes of the block, can be used to apply or change all materials existing on the earth. The detailed description of the structure and the display of the drawings are omitted.

Next, a sixth embodiment of the present invention will be described with reference to FIG.

9 is a perspective view illustrating a cross section of a floor, a wall, and a ceiling of a prefabricated building constructed according to a sixth embodiment of the present invention. Through-holes [78] constructed using pipes [77] or in spaces formed by inserting pipes [2] having through-holes [5] into concrete panels [6] used in prefabricated buildings [6]. The soil mixture made by diluting 50% ~ 90% of the soil and 10% ~ 50% of the water and 0.5% ~ 15% of the vegetable member that generates the charcoal or fragrance in the inside of the soil 2 ~ 5 times Sediment of soil mixture [58] generated in the process of phosphorus injection is formed inside the prefabricated concrete panel [6] used to construct the prefabricated structure. The toxicity of cement contained in the prefabricated concrete panels [6] used to construct the buildings [6] by constructing the prefabricated building panels [6] using a method of filling the soil mixture to a dense density in the space of the building. Remove the Using an by reacting the prefabricated concrete panel [6] pipe and tube heat insulating action of the tool are filled with soil mixture exhibited a dense density in a screen that is configured to use a prefabricated concrete panel for construction of a new construction method for building. This method uses a method of manufacturing pipes [2] [77] and soil mixtures [58], which are constructed using the method illustrated in the methods of the first embodiment of the present invention, in the interior of the prefabricated concrete panel. A plurality of pipes [2] comprising reinforcing bars and through holes [5] or a plurality of pipes [77] not including through holes [5] were introduced into a forming mold [not shown] for producing prefabricated concrete panels. After the concrete mortar is put in the state, the curing process is carried out for a certain period of time, and then the empty space naturally formed after removing the insertion member [56] inserted in the pipe [2] of the through hole [5]. Alternatively, a plurality of pies put into the interior of the prefabricated concrete panel after a certain time after the concrete is put into the forming mold [not shown] to produce the prefabricated concrete panel [6]. [77] Soil mixtures [58] diluted in some proportion so that the soil mixtures [58] were completely filled with dense densities within the plurality of through-holes [78] naturally formed in the interior of the prefabricated concrete panel [58]. 2 ~ 5 times in order to remove or neutralize the cement contained in the prefabricated concrete panel and to insulate the mixture of soil mixtures put into the prefabricated concrete panel. Building construction method using prefabricated building concrete panels. At this time, it is possible to configure by changing the shape and shape of the pipe [77] to be used at this time, or by changing the material of the insertion member [56] that is introduced into the pipe [2] that the through hole [5] is configured. It is. In addition, the mixing ratios of the soil mixtures [58] can be configured according to the necessity or location, or according to the ingredient ratio of the material, or according to the season. Therefore, it is natural that such a design change is naturally within the scope of the present invention.

Next, a seventh embodiment of the present invention will be described with reference to FIG.

26 is a cross-sectional perspective view showing a cross-sectional state of a building according to the seventh embodiment of the present invention. The seventh embodiment of the present invention is a panel or a water tank or the like by using an anchor bolt or a nut and an index rubber on the wall or the pillar or the staircase and the ceiling and the top of the floor which are the main components of the building [6]. A water bag or a water reservoir is attached to the watertight container, and water is poured into the container attached to the wall [222], or water and soil or charcoal, or a fragrance exerted by vegetable materials such as chrysanthemums, herbs, pine needles, or juniper. Inject liquids made by mixing the diverging members with water or liquids, or select any one of chemical solutions or substances that act to neutralize harmful substances contained in concrete and inject them for a certain period of time. Toxicity of cement, the main constituent material of buildings [6], by osmotic action caused by water or substances The present invention relates to a method for removing the toxicity of cement contained in concrete, blocks, or bricks, which are the main constituent members of buildings, by using physical methods that act to be naturally removed or neutralized.

The construction method according to the seventh embodiment of the present invention, which is provided to remove the toxicity of the building [6] so as not to generate harmful factors generated in the building [6], is constructed by the following methods. 26 is a cross-sectional perspective view showing a cross-sectional state of a building according to the seventh embodiment of the present invention. Hereinafter, the pillars, stairs, walls, and ceilings, which are the main constituent members of the building used in the seventh embodiment of the present invention, are collectively referred to as "buildings" [6]. Reference numeral 6 shows the wall of the building, and reference numeral 222 indicates the main composition of a mixture or concrete made by mixing water or water with fragrance-emitting members such as soil or charcoal or chrysanthemum or pine needles or fern or juniper. Panels or water tanks or water bags or containers configured to hold chemical solutions or substances which act to remove or neutralize toxic substances such as formaldehyde contained in the absent cement; and Shows a storage device provided for holding water or a solution, hereinafter referred to as a "container" [222]. Reference numeral 223 denotes an anchor bolt or bolt used to attach or join containers to the exterior or interior of a building. A coupling member such as a nut is shown, hereinafter referred to as "anchor bolt" [223]. Reference numeral 224 shows the inlet for introducing a mixture of soil or liquid, such as liquid or water, into the container, and reference numeral 225 shows the outlet of the solution, such as water in the container, respectively. Columns or stairs or floors or ceilings are shown, respectively, hereinafter referred to as "buildings" [6]. Directive 227 shows a soil mixture contained in a container or a chemical solution made from water or a mixture of substances and substances. Directive 228 shows a locking device such as a valve constructed in combination with an outlet. A storage device is provided in an L-shape to store water or a solution at the bottom of the container, and reference numeral 211 denotes a heater such as a heater used to raise the temperature of the water or solution contained in the container or storage device. Each cooler installed to lower the temperature of the liquid contained in the heater or the container is shown. Among the terms used in the present invention, the container [222], the storage device [229] and the storage panel [422] are the same for containing water or a liquid mixture made of water or an earth mixture or a mixture made of vegetable or mineral substances. It is referred to as "vessel" [222] hereafter. Chemical solutions or substances which act to neutralize or purify the toxicity of water or water in the container [22] or mixtures or mixtures mixed with fragrance-producing elements such as charcoal and chrysanthemum or herbs or juniper Solution ”[227].

The construction method according to the seventh embodiment provided to remove the toxicity of cement which is the main constituent member of the building [6] by using the structure configured as shown above is completed through the following process. A container [222] is formed by applying a tent made of stone, steel, plastic, or vinyl system to the inside and outside of the building [6], and then using a coupling member such as an anchor bolt [223] therebetween. [222] is fixed so as not to deviate from the building [6], but a packing member made of a rubber-like member [a known material can be used so that no leakage occurs between the building [6] and the container [222]. After inserting between the building [6] and the container [222] between the container [222] and the building [6] by using an anchor bolt [223] to prevent leakage of the container [222] ] At the lower end of the container [222] with the outlet [225] combined with a locking device [228] such as a valve configured to control the discharge of water or solution [227]. Can put [227] And a heater [211] configured to increase or control the temperature of the water or the solution [227] inside the vessel [222] and to lower the temperature of the water or liquid. It is a structure provided with the cooler 211 which becomes.

Next, an eighth embodiment of the present invention will be described with reference to FIG.

FIG. 27 is a cross-sectional perspective view showing an upper section of a ceiling or a floor of a building according to an eighth embodiment of the present invention. FIG. Reference numeral 224 denotes an inlet for introducing a solution, such as water, into the container, and reference numeral 225 shows the outlet of a liquid, such as water, contained in the container, respectively. Indication 6 denotes a column or stairway or wall or floor of a building. Or ceilings, hereinafter referred to as "buildings". Directive 227 shows a liquid or chemical solution mixed with or combined with water or a substance contained in a container or an earthen mixture made of water at a ratio of 40% to 70% water and 30% to 60% soil. Shows a locking device, such as a valve, which is configured in combination with an outlet, and an indication 229 shows a storage device provided in an L-shape to store water or a solution on the floor of a building, and an indication 211 indicates a container or A heater such as a heater used to raise the temperature of the water or solution contained inside the storage device or a cooler that lowers the temperature of the water or liquid, respectively.

According to the eighth embodiment of the present invention configured as described above, a storage device [229] having a L-shape using a brick or a block or a non-metallic or iron or plastic or wood, the floor of a building [6] Or a rubber packing [not shown], which is an index member on the upper part of the ceiling, is padded between the storage device [229] and the building [6] and then constructed using a coupling member such as an anchor bolt or bolt nut [223]. And an inlet 224 provided at one side of the storage device [229] to introduce water or a solution [227], and at the top of the inlet and outlet of the mixture [227]. A pump [555] device is provided to adjust, and the other side is provided with a discharge port [225] provided for introducing or discharging water or a solution [227], and on one side thereof, the temperature of the water or solution is provided. It is a structure that is equipped with a condenser [211] which is provided to give a lower heater [211] or the water or the temperature of the solution to be provided to give the adjustable jugeona increases. Since the structure of the heater and the cooler can use known mechanisms, the detailed structure is omitted.

Next, a ninth embodiment of the present invention will be described with reference to FIG.

28 is a sectional perspective view showing a wall section of a building according to the ninth embodiment of the present invention. Reference numeral 211 denotes a heater or a cooler provided to lower the temperature of the water or liquid which is provided to raise or control the temperature of the mixture made by mixing or combining water or mineral or vegetable materials. Reference numeral 223 denotes an anchor bolt for supporting the storage panel, reference numeral 224 denotes an inlet for introducing a solution such as water into the storage panel, and reference numeral 225 denotes an outlet of a solution such as water that penetrates into the storage panel. Represented by reference numeral 6, respectively, the pillar or staircase or wall of a building or the floor or ceiling of a building, and reference numeral 227 designates a soil mixture made from water or a chemically combined solution or soil mixed with water in a container. In the drawing, reference numeral 422 shows a storage panel composed of a sponge or a cloth or a paper or nonwoven fabric, etc., and reference numeral 233 shows a pedestal for holding water or a solution flowing down from the storage panel. The structure according to the ninth embodiment of the present invention configured as described above has a storage panel [422] configured to facilitate the capillary phenomenon such as sponge, cloth, nonwoven fabric, paper, or the like. It is composed of a method of combining with the building [6] by using a coupling member such as an anchor bolt [223] after being added to the outside of the building [6], and water or solution [227] on one side of the storage panel [422]. And an outlet [225] configured to hold or discharge water or a solution [227] on the other side of the inlet 224, which is provided to allow the inlet to flow in. With a support stand [233] and the one side is provided with a heater or cooler [211] provided to raise or lower the temperature of the mixture [227] consisting of water or liquid, etc. A.

The construction of the building by the construction method of the present invention in combination with the container [222] or storage device [229] or storage panel [422] made according to the seventh and eighth and ninth embodiments of the present invention. Explain the removal, neutralization or action of hazardous substances. The container [222], storage device [229] and storage panel [222] are hereinafter referred to as "vessels" [2].

As described above, in the container [222] constructed according to the seventh, eighth, and ninth embodiments of the present invention, a mixture of water, minerals, chemicals, or vegetable materials and water or soil is 10% to 30%. Soil mixtures [227], which are made by mixing at a ratio of about 70% to 90% of water, are selectively added. These mixtures [227] are formed by the osmotic action generated by the action of gravity [6]. It penetrates naturally into concrete, the main component, and neutralizes or removes the toxicity of cement.

In addition, when the heater [211] injected into the vessel [222] is operated, the temperature of the mixture [227] naturally introduced into the vessel [222] rises naturally, and the temperature of the building [6] naturally rises. As the osmotic effect of [227] penetrating into the interior of the building [6] becomes more active, the toxicity of cement contained in the concrete is naturally removed or neutralized. At this time, if the temperature of the mixture [227] is increased, it is assumed that the osmotic action of high temperature mixture [227] penetrates into the interior of the building. Is quoted because In addition, when the cooler [211] is placed in the container [222] and the cooler is operated for about 1 to 5 hours, the temperature of the mixture [227] contained in the container [222] is very low. Cement contained in concrete due to the osmotic action of natural condensation [227] penetrating into the interior of the building [6], which maintains a high temperature with condensation which is attempting to move to itself. The toxicity of cement is removed or neutralized by the action of removing or neutralizing the toxicity of cement.

In order to cause this action to occur repeatedly, if the temperature of the mixture [227] is sequentially changed so that the temperature of the mixture [227] is above or below a certain temperature, the toxicity of cement contained in the concrete is naturally removed. It is achieved by the action of being neutralized or neutralized. It is also possible to agitate the mixture [227] using instruments such as propellers so that the mixture [227] does not aggregate inside the vessel [222]. After performing the above process several times, the mixture [227] injected into the container [222] of the building [6] is gradually discharged through the valve [228] coupled with the outlet [225]. When the container [222] comprised in the building [6] is removed, the seventh, eighth, and ninth embodiments of the present invention are completed. At this time, only the container [222] may be removed so that the soil mixture [227] introduced into the container [222] is kept seated outside or inside the building [6]. In addition, the above process is performed several times, and the gap between the ondol pipe and the ondol panel and the panel installed on the floor of the building [6] is mixed with water, or a mixture of mineral or vegetable mixture with a certain ratio of soil. It is natural that the method of constructing the mixture to be completely filled also falls within the scope of the present invention. In the present invention, the harmful substances generated by this phenomenon are the water or the liquid mixture made by mixing the substance and the substance inserted into the interior of the container [222] or the soil mixture made by mixing a certain amount of soil and water [227] As the material comes into contact, it is removed, adsorbed, or neutralized.

Liquids and mixtures of liquids and liquids or mixtures or mixtures of materials and materials used in the container [222] constituted according to the method of embodiment 7, 8 and 9 of the present invention [227] are present in the world All plant materials and materials consisting of liquids and solids can be mixed with water, mixed with chemical solutions or chemicals, or used independently, so they do not limit the material that has become a liquid. In addition, the materials used to construct the container [222] according to the present invention, including the container [222] which is configured to contain water or liquids, may be formed using any member existing on the earth. It is not possible to limit the materials that make up the container [222] because it is possible. A solution made by diluting or mixing water or water and chemical liquids from time to time using the structure of the container [222] or the storage device [229] or the storage panel [222] configured as described above is used as the container [222] or the storage device. [229] or it can act to neutralize or dilute the harmful substances contained in the water or the solution diluted with water [227] or the building when repeatedly inserted or discharged into the storage panel [222]. The osmotic action of the manufactured chemical solutions [227] caused the natural purification or neutralization of the toxic or harmful factors contained in the building [6]. The physical action is to prevent the health is not bad. Any method that consists of a liquid or solid material used to modify or submerge the structure of the container to neutralize or purify the toxicity of the building can be achieved using any material present on Earth. Since the configuration can be changed by changing the invention, even if it is configured by modifying the constituent material is within the scope of the present invention is a matter of course. The methods for attaching or adhering the containers required by the present invention to a building can be configured in various ways, and the construction method is not limited to any one. That is, even if a method of adhering a container to a building using high frequency can be completed, the construction method of the present invention is not limited to any one. In addition, the constituent materials of the container [222] used in the present invention are not limited to any one of them, and therefore, the materials are not specified because any material existing in the world can be processed and used, and therefore, the configuration of the present invention. It is natural that all the construction methods of the container configured by changing the method are within the scope of the present invention.

Next, a method of constructing a fish house, that is, an artificial reef, constructed according to the tenth embodiment of the present invention will be described.

32 is a cross-sectional perspective view of the soil mixture and the pillar of the fish house which are put into the through hole formed in the skeleton of the fish house according to the tenth embodiment of the present invention. FIG. 33 is a cross-sectional perspective view showing a cross section of a pipe and a fish house which are introduced to form a through hole in a frame of a fish house according to a tenth embodiment of the present invention. 34 is a cross-sectional view showing a columnar cross section in a state in which a soil mixture is added and finished in a space after removing a pipe inserted to form a through-hole in a frame of a fish house according to a tenth embodiment of the present invention; Perspective view.

FIG. 35 is a perspective view of a fish house showing a state in which a pipe for constructing a through-hole is put into an inside of a form for forming a fish house according to a tenth embodiment of the present invention; FIG. 36 is a perspective view of a fish house showing a state in which a fish house constructed according to a tenth embodiment of the present invention is completed. FIG. 37 is a cross-sectional perspective view showing a cross section of a through hole and a fish house frame formed at a position from which a pipe inserted to construct a through hole in a frame of a fish house according to a tenth embodiment of the present invention is removed; FIG.

 21 indicates concrete mortar, and 58 indicates 100% of the through hole [78] of the fish house [121] among the mixing ratios of 40% to 80% water and 20% to 60% soil. The sediment of the soil mixture being filled in proportion is shown, and reference numeral 77 shows the pipe being put into the formwork used to construct the fish house, and reference numeral 78 shows the concrete mortar used to construct the fish house [21]. In the drawing, the through-hole is naturally constructed at the position where the pipe [77] is removed, the reference numeral 121 denotes a fish house, the reference numeral 124 shows a die used to form a fish house, and the reference numeral 551 denotes a through hole [ 78] shows the end of the through-hole with the soil completely filled and finished with a finishing material such as concrete mortar on top.

Fish house 121 formed in the above form is completed through the following process. The pipe [77] constructed according to the construction method of the first to fourth is introduced between the reinforcing frame [124] and the concrete mortar [21] is placed inside the fish house [121]. And a process of extracting the pipe [77] in the concrete mortar [21] and constructing a through hole [78] after the casting of concrete mortar [21] has been completed for 2 to 8 hours. And after the pipe [77] has been removed for 5 to 20 hours, 100% of the mixing ratio of water 40% to 80% and soil 20% to 60% inside the through hole [78]. The first soil mixture [58] is introduced into the hollow tool [78] and the first soil mixture [58] is introduced into the hollow tool [78]. After about 1 hour to 10 hours, the soil mixture [58] mixed at the above ratio was subjected to two to six times of sequential processes. Filling the inside of the through-hole [78] formed in the fish house [121] with 100% pure soil; It is a method of constructing a fish house by using a physical method provided to neutralize or remove the toxicity of cement contained in concrete mortar using the giving process.

The shape of the fish house according to the tenth embodiment of the present invention can constitute all the 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 the shape, that is, conical or rectangular or dome or triangular or round or rectangular, so that the shape can be configured, so that by using the method of injecting the earth mixture into the inside of the fish house having a different shape It is natural that all of the methods configured to remove or neutralize the toxicity of concrete, the main component of the fish house, fall within the scope of the present invention. In addition, since the mixing ratio of all substances or water and dilution soil, which are configured to mitigate or remove the toxicity of mineral substances or chemicals or cement mixed with water, the design change is possible. It is natural to be punished immediately.

Effects of the present invention as described above are as follows.

According to the construction method of the present invention, a through-hole formed in a wall or ceiling or floor of a building or a pipe inserted into a pipe or brick inserted into a wall or a ceiling or a floor of a building, and a through-hole and block formed in a building. Water or liquids acting to neutralize or purify the toxicity of cement, the main constituent of the building, by the osmotic action of water or liquids flowing through the water or liquid or soil mixtures filled in the tool. It is a significant action that does not deteriorate the health of the people living inside the building due to the spontaneous osmotic action that causes chemical reactions to neutralize or purify toxic substances such as prohmaldehyde, which is generated from cement, the main constituent of the building In effect . In addition, the buildings composed of concrete generate fine condensation due to the internal temperature and the external temperature difference. At this time, a lot of toxic substances such as promaldehyde are generated.

Due to the condensation occurring at this time, the harmful substances mixed in the concrete, which is the main constituent material of the building, also enter the inside of the building, and a considerable amount of the harmful substances exist inside the building. In the present invention, the harmful substances introduced by condensation occurring at this time are neutralized or adsorbed by contact with water or liquids discharged through the through holes formed in the through holes or blocks formed in the pipe or the building. When condensation occurs in buildings where the toxicity of cement is reduced, contaminated air does not deteriorate indoor air due to the action of polluted air not flowing into the interior of the building.

In other words, if the soil on the cloth used by people is immersed in water for a certain period of time, the water osmotic action and the natural decomposition will cause the cloth to decompose itself. Hazardous substances contained in it also act to mitigate or neutralize the toxicity of cement by the action of water or liquids.

In addition, various types of harmful substances are mixed in the air discharged by the people while inhaling the air, and these substances also exert a bad effect on the indoor air of the building. Due to the effect that removes the toxicity of concrete that deteriorates the indoor air by the action of purifying or purifying by water or liquids discharged through the through hole formed inside and the through hole formed in the block. It is effective in eliminating sick house syndrome diseases such as atopic dermatitis. In addition, in order to enhance the effect of the present invention, after removing the pipes that have been put into the floor, ceiling, or wall, which are the main constituent members of the building, the soil mixtures and the inserts inserted into the pipes are removed. Afterwards, the soil mixture filled in the inner space of the pipe formed by sealing the end of the pipe and the soil mixture filled with dense density in the through hole of the block block the transmission of external cold temperature or hot heat. By acting as a space, there is an effect of acting as a building with excellent insulation effect.

In addition, if artificial fish reef is formed by putting fish house manufactured by the method of removing or neutralizing the toxicity of cement contained in concrete into the sea, seaweed is added to the walls of artificial reefs where the toxicity of cement is removed or alleviated. Since seaweeds such as seaweeds such as seaweeds such as pearl mussels or oysters or seaweeds such as oysters are easily attached to each other, the inside of the artificial reef does not pass for some time and the warming effect is generated.

Claims (11)

A structure of the first pipe [2] provided with the through hole [5] for discharging water or liquid [8]; The outside of the first pipe that surrounds the outside of the first pipe [2] with a nonwoven fabric or cloth, a water repellent cloth, or a sponge [1] to prevent solids or liquids mixed in concrete from entering the first pipe [2]. Structure; Filling the inside of the pipe [2] with a sponge [3] made by filling the sponge inside the first pipe [2] or by injecting a liquid inlet [88] into the inside of the sponge or by adding cotton or fiber An internal structure of the first pipe [2] selectively inserting the insert member [3] made of yarn or chemical fiber yarn or of a mineral material such as charcoal or sand or soil, or a pulverized material; The first pipe [2] is provided with a second pipe [11] in which the through hole [22] is configured to prevent the wrapping paper [1] surrounding the outside of the first pipe [2] from being damaged by an external impact. A structure of the second pipe [11], which is coupled again to the outside of the; A structure of the wrapping paper [32] surrounding the outside of the second pipe [11]; The first pipe [2] and the second pipe [11] constituted as described above are combined with reinforcing bars [not shown] at regular intervals inside the formwork [not shown] configured to cast concrete [21]. With restlessness; Liquid, such as water, through one end of the first pipe [2] to prevent the inflow of concrete solution or solids into the interior of the first pipe [2] before placing the concrete [21] inside the formwork [not shown]. [8] is poured into the pipe [2], and concrete [21] and concrete curing [21] are sufficiently placed inside the formwork [not shown] where the pipe [2] is placed. Sealing one end portions of the ends of the first pipe [2] and the second pipe [11] in a state where the time of about 5 to 30 hours has elapsed; The toxicity of cement, which is the main constituent material of the building, is maintained by the method of continuously introducing water or liquid [8] for a predetermined time through the upper end of the first pipe and the second pipe end configured as described above. 8] In the method of removing the toxicity of the building by using the physical method that acts to be purified, removed or neutralized by the osmotic action that is naturally exerted; to remove or purify the building's toxicity A soil mixture made of 100% by mixing 30% to 60% of water and 40% to 70% of soil inside the first pipe [2] and the second pipe [11] in the building [6]. 58] through two to six sequential processes to completely fill the interior of the first pipe [2] and the second pipe with a mixture of soil [58]. Building construction method that removes the toxicity of buildings by using physical methods that act to remove or neutralize the toxicity Through-holes [5] in pipes [2], through-holes in pipes [2] used in the construction of insulating spaces to remove or mitigate the toxicity of cement contained in buildings [6]. In the construction method using the process of constructing a; [1] 1 layer of wrapping paper [1] consisting of sponge or non-woven fabric or paper or cloth on the outside of the pipe [2] that the through hole [5] is configured Or winding three or more layers; applying a release agent [1] composed of a lubricity emulsion to the surface of the wrapping paper [1] wound on the outside of the pipe [2]; and wrapping paper coated with the release agent [1]. Wrapping the wrapping paper [1] consisting of paper or non-woven fabric or cloth on top of the cover again; 20% to 50% water and cement outside the surface of the wrapping paper [1] wound on the outside of the pipe [2]. 50% ~ 80% of sand and 20% ~ 30% of sand are mixed at 100% Attaching the concrete mortar [55] to a thickness of about 3 mm to 20 mm; and attaching the pipe [2] so that the concrete mortar [55] can be adhered to the wrapping paper [1] wrapped on the outside of the pipe [2]. Drying curing; inserting in the form of a rod by using a rod of rubber components or an air tube composed of rubber, vinyl, synthetic resin, etc., or steel, plastic resin, or wood Inserting the member [56]; and through this process, the pipe [2] having completed the manufacturing process is provided with a constant distance between the reinforcing bar frames, the main component of the column or staircase or wall or ceiling or floor of the building [6]. Placing and placing the reinforcing bar frame [not shown] and the pipe [2]; connecting the joints of the pipe [2] and the pipe [2] using a joint socket [87]; ] The process of joining the formwork [33] to the outside of the reinforcing frame [not shown]; the process of placing concrete [21] on the finished formwork; A process of completing the framework of the pipe; removing the insertion member [56] having a rod shape from the inside of the pipe [2] inserted into the building [6]; and a pipe inserted into the building [6]. 2) the end of the coupling with the compression pump [99] using a connecting socket [777]; water or vegetable or mineral substances that act to detoxify or purify the concrete in the compression pump [77]; Connecting a liquid supply container [98], which is configured to selectively mix and supply a mixed liquid; operating a compression pump [77] into a pipe [2] inserted into a building [6]; Removes or detoxifies water or concrete Injecting the combined liquid three or more times for a time period of about 5 hours to 24 hours; and a compression pump [99] operated using only air that is not supplied with water or liquid for 2 hours. Operating the compression pump [99] so that the liquid remaining inside the pipe [2] flows out through the wall, floor or ceiling of the building [6] to the outside by operating for about 20 hours at; This process cleans up the harmful components exposed to the exterior of the building [6]; and connects to the ends of the pipes [2] used to purify or mitigate the toxicity of the building [6]. Removing the compression pump [99] by dismantling the socket [777]; and removing the connecting socket [777] associated with the pipe [2] and sealing the end of the pipe [2]. 6) improve the thermal insulation of the structure; and through this process to improve the thermal insulation of the building [6] and at the same time to remove or neutralize the toxicity of cement, the main component of the building [6] physical method Construction method that removes the toxicity of the building by using In the construction of buildings using physical methods that act to remove or mitigate the toxic effects of cement contained in concrete mortars. Attaching or applying a releasing agent [76] composed of cloth, paper or nonwoven fabric or a lubricating oil to the outside of the pipe [77] not configured with the through hole [5] to form; Coupling the broken pipe [77] with a rebar; The process of joining the formwork [33] to make the structure of the concrete structure to the outside of the pipe [2] and the reinforcing frame [not shown]; placing concrete mortar [21] inside the formwork [33]; A process of removing the pipe [77] placed inside the concrete mortar [21] in a state in which 5 to 50 hours have elapsed while curing of the mortar [21] is sufficient; and an upper portion of the through hole [78]; After installing the pedestal [332] in the upper portion of the propeller shaft [333] and the propeller [334] coupled to the stirrer [331] with the zoom; [78] was infused with a mixture of water or vegetable or mineral substances or chemical solutions prepared for the purpose of purifying or neutralizing the toxicity of liquids or concrete [58]. And; operating the stirrer [331] during the above time to rotate the propeller [334]; and injecting liquid into the through-hole [78] during the above time, and again, the air pump [99] and the through-hole [ The air pump [99] and the air hole [78] are connected between the air hole [78] and the air pump [99] and the propeller shaft [333] by using a coupling member [79] such as a pipe to prevent the air from leaking between the two pipes. The process of combining between; A step of forcibly injecting air for a time of about 1 hour to about 20 hours by operating an air pump [9] inside the through hole [78]; Separating the air pump [99]; by mixing 40% to 90% soil, 10% to 60% water, and 1% to 10% of the processed member or mineral member by grinding the charcoal or vegetable member. Making an earth mixture [58] composed of 100% ratio; rotating the propeller [334] by operating the stirrer [331] while putting the mixture [58] into the through hole [78]; Injecting a heater 441 coupled with a power source 442 provided to generate heat in the through hole 78; and varying the temperature of the soil mixture 58 to 60 to 100 degrees. Operating the heater [441] for a time period of about 2 hours to about 5 hours; and after the completion of the process, the outlet [225] is configured. Opening the valve [228] and discharging the soil mixture [58]; re-injecting the soil mixture [58] configured at the above ratio into the through hole [78]; and supplying power to the through hole [78]. A process of inputting a cooler [442] coupled with a [442]; operating a stirrer [331] to operate a propeller [334] and simultaneously operating a cooler [441] to obtain a temperature of the soil mixture [58] of 0.5; Operating the stirrer [331] and the cooler [441] for a period of about 1 to 5 hours so as to be about 5 degrees to about 5 degrees; and after completing the process, the valve [228] configured at the outlet [225]. Opening and discharging the soil mixture [58]; closing the valve [228] and filling the mixture of soil mixture [5] at the ratio to the through hole [78]; and a propeller [334] coupled with the stirrer. Stirring the soil mixture [58] filled in the through hole [78] by operating for 1 to 5 hours; Stabilizing the soil mixture [58] for 1 to 5 hours to settle; after finishing this process, the mixture of soil mixtures [58] mixed at the above ratios in two times inside the through hole [78]. Raising the height of the stirrer [331] in the through hole [78] as the height of the sediment of the soil mixture [58] generated through the sequential feeding process of about six times; and the inside of the through hole [78]; Removing the stirrer [331] and the propeller [334] from the through hole [78] while the soil mixture [58] is completely filled; and after completion of the above process, the top portion [551] of the through hole [78] is removed. It improves the thermal insulation of the building by using a physical method that removes or neutralizes the cement contained in the building [6] through the filling process, while at the same time purifying the toxicity of the cement, the main component of the building. Giving or Construction method to construct building to be alleviated In the new construction method of the building is provided to improve the thermal insulation while at the same time to remove or mitigate the toxicity of the cement contained in the block, the main component of the building using a method of manufacturing and masonry block; 10% to 60% water and 40% to 90% of the through-holes [114] formed inside the concrete block [111] to prevent the generation of harmful factors from the concrete block, which is the main component of the building. The dense density inside the through hole [114] of the block [111] is mixed with the soil mixture [58] by adding about 1% to 10% of charcoal in the ratio of water and soil. The structure of block [111] used for construction of new buildings by constructing walls of houses, buildings, schools, or offices by filling the walls with ridges is shaped like a U-shaped groove on one end and the other end of the block [111]. [112] and a structure in which the uneven grooves [113] and [116] are formed in a U-shape at the top and the center of the block [111] together with the zoom; 6] in order to where needed when The process of masonry; filling the gaps of the block [111] completed with concrete mortar; and plastering the outside of the block [111] with concrete mortar; about 10% to 60% of water The ratio of 40% to 90% of the soil and the ratio of 1% to 10% of the charcoal among the water and the soil ratio were additionally added. A process of making soil mixtures [115]; and plastering the exterior of the blocks [111] using concrete mortar, etc., after a certain time has elapsed from about 8 to 20 hours after completing the masonry of blocks [111]. Filling the through-holes [114] with the soil mixture [115] mixed in the above ratio after about 5 hours to 50 hours or more; Through this process, water or liquids in the soil mixture [115] filled in the through hole [114] included in the block [111] are soil mixture [115] after 5 to 10 hours. Are precipitated and settled to a certain thickness inside the through-hole [114] of the block [111], and water or liquids are mixed at the above mixing ratio again while being discharged or evaporated out of the block [111]. The soil mixture [5] is spaced in the through hole [114] in the block [111] with a time difference of two to four times in the through hole [114] in the block [111]. It is used to construct a building [6] by using a method of completely filling the soil mixture [5] with a dense density in the through hole [114] formed inside the block [111] using a method of sequentially inputting the same into the block. In the interior of blocks [111] The building uses a prefabricated block designed to purify or alleviate the toxicity of cement, which is the main constituent of the block, while improving the insulation of the building by using a physical method that acts to remove or neutralize the toxic cement. Construction method In the construction method of building construction using a physical method that acts to remove or mitigate the toxicity of the cement contained in the prefabricated building; in the interior of the concrete panel used in the prefabricated building through holes [5] Constructing the prefabricated concrete panel by inputting the pipe [2]; Material containing about 40% to 85% of soil, 15% to 60% of water, and about 0.5% to 15% of vegetable members that generate charcoal or fragrance in the pipe [2] in which the through hole [5] is formed. Sequentially selecting two to five times the soil mixture [58] prepared by diluting the dilution ratio of the member so that the dilution ratio of the member is 100%; and sediment of the soil mixture [58] generated in this process. Is contained in the interior of the prefabricated concrete panel while increasing the insulation effect by filling the soil mixture [58] to have a dense density in the space of the pipe [2] constructed in the prefabricated concrete panel for building the prefabricated building. Construction method of prefabricated building by using method of removing or mitigating the toxicity of cement In the construction method of building construction by using physical method that acts to remove or mitigate the toxicity of cement contained in prefabricated building; Forming frame for production of prefabricated building panel using concrete mortar [21] Constructing a prefabricated concrete panel used in the prefabricated building [6] by injecting a pipe [77] coated with a release agent [76] in combination with a reinforcing steel frame [not shown]; Curing the pipe; and removing the pipe [77] from the inside of the prefabricated concrete panel in the state of about 2 hours to about 10 hours and constructing the through hole [78] inside the concrete panel; Inside the through-holes [78] composed of prefabricated concrete panels, select between 50% ~ 90% of soil, 10% ~ 50% of water, and 0.5% ~ 15% of vegetable members that generate charcoal or fragrance. Putting a mixture of the soil mixture [58] prepared by diluting the combination ratio of the member to a ratio of 100% to the through-hole [78] through a sequence of two to five times; Increased thermal insulation by filling the soil mixture [58] so that the sediments of the mixture [58] are denser in the space of the through-holes [78] in the interior of the prefabricated concrete panels for the construction of the prefabricated building [6]. Prefabricated using prefabricated concrete panels manufactured by using a method to remove or mitigate the toxicity of cement contained in the interior of concrete panels used in simultaneous prefabricated buildings [6]. Chukmul construction process In the construction method to remove the toxicity of the building by using the physical method to remove or neutralize the cement contained in the concrete which is the main component of the building; Ankabolt [223] on the outer surface of the building [6] By attaching a wire mesh [337] made of resin or steel, etc., to the outer surface of the wire mesh [337], which is attached to the outer surface of the building [6], using a metal or plastic or vinyl system. After constructing the container [222] by padding a tent, etc., the container [222] is fixed so as not to be separated from the building [6] by using a coupling member such as an anchor bolt [223] between them. [222] The end of the building [6] and the container [222] is made of a packing member [not shown in detail because known materials can be used] made of a rubber-like member so that no leakage occurs. After being inserted into the end portion, an anchor bolt [223] is used to couple the end portion of the vessel [222] to prevent leakage of water and the lower portion of the vessel [222]. The outlet [225] is configured to be coupled with a locking device [228] such as a valve configured to control the discharge, and the inlet [224] can be introduced into the upper portion of the container [222]. And a heater [211] or a cooler [211] configured to lower the temperature of the water or liquid, which is configured to raise or control the temperature of the water or the solution [227]. A soil mixture [227] made of a mixture of about 30% to 80% of water and about 20% to 70% of soil in a container [222], or a member of a vegetable scent such as a brush or a herb or a chrysanthemum or juniper 1% ~ 10% degree and water or chemical liquid 1% ~ 20% degree and water The mixture made by mixing% ~ 99% is mixed at the rate of 100% and put into the container [222] and the temperature of the mixture [227] is about 1 ~ 20 hours so that the temperature is about 50 ~ 100 degrees. At the same time, the process of rotating the propeller [334] by operating the stirrer [331] so that the mixtures [227] are not agglomerated at the same time, and the process of discharging the mixture [227] through the outlet [225] and the outlet after completing the process. [225] to close the valve [228] and to operate the heater [211] for about 1 hour to 10 hours to dry the building [6] and again mixed mixture [227] at this ratio The mixture [227] and the mixture [227] introduced into the vessel [222] were operated for 1 to 20 hours while the cooler [211] was operated for about 1 to 10 degrees. 227] propeller to start the stirrer [331] [334] rotating process and discharging the mixture [227] in the container [222] through the outlet [225] and about 50% to 80% soil and 20% to 50% water after the above process And 1% to 5% of the vegetable parts, and the soil mixture [227] prepared by mixing so that the mixing ratio of the member to 100% ratio in the container [222] the first process and after the input process 2 The soil mixture [227], which is made at the above ratio again in a state of about 10 to 10 hours, is added to the container twice or five times in sequence to contain it in concrete, which is the main component of the building. Building construction method that removes the toxicity of the building by using the physical method to remove or neutralize the existing cement In the construction method to remove the toxicity of the building by using a physical method that removes or neutralizes the cement contained in the concrete, which is the main component of the building; a container configured outside the building [6] [222] ] Mixing the member by selecting from about 50% ~ 80% of soil, 20% ~ 50% of water, and about 5% ~ 10% of vegetable members made by grinding the size of straw or wood or vegetable members to 1cm ~ 3cm The ratio of the soil mixture [227] made by mixing the ratio to 100% ratio in the container [222] is first added to the container [222], and the ratio is again in the state of 2 hours to 10 hours after the completion of the input process. The soil mixture [227] was introduced into the container [222] through an iterative process, in which the soil mixture [227] was made into the container [222] two to five times in sequence. Fully attaching between Building construction method that removes the toxicity of the building by using the physical method of removing or neutralizing the toxicity of cement contained in the concrete, which is the main constituent member of the building. In the construction method to remove the toxicity of the building by using the physical method to remove or neutralize the cement contained in the concrete which is the main component of the building; And a rubber packing [not shown], which is an index member, is placed between the storage device [229] and the building [6] on the floor or ceiling of the building [6]. It is composed of a method of engaging with the building [6] by using a coupling member [223], such as anchor bolts or bolt nuts, and on one side of the storage device [229] is provided with an inlet for introducing water or solution [227] 224] together with a pump 555 device at the top to regulate the inlet and outlet of the mixture 227; The other side is provided with a discharge port [225] provided to inject or discharge the water or solution [227], and one side of the heater [211] or water or so as to raise or adjust the temperature of the water or solution A soil mixture [227] or a brush made of a mixture of about 20% to 75% water and about 25% to 75% soil in a container [222] having a cooler [211] provided to lower the temperature of the mixture. The mixing ratio of the member is selected from about 1% to 10% of vegetable scents such as mouth, herb, chrysanthemum or juniper, about 0.5% to 15% of water or chemical liquid, and about 15% to 99.5% of water. Mixing the mixture [227] into a container [222] and heating the mixture [227] for about 2 to 25 hours so that the temperature of the mixture [227] is about 60 to 100 degrees. ] Stirrer to prevent them from sticking together [331] to operate the propeller [334] and after the completion of this process to discharge the mixture [227] through the outlet [225] and to close the valve [228] attached to the outlet [225] Operating the propeller [334] and the heater [211] for about 2 to 15 hours to dry the building [6] by operating the stirrer [331] and again mixing the mixture [227] at the above ratio. The mixture [227] and the mixture [227] while operating the cooler [211] for about 2 hours to 15 hours so that the temperature of the mixture [227] injected into the vessel [222] is 0.5 to 9 degrees or less. The process of rotating the propeller [334] during the above time by operating the stirrer [331] to prevent them from agglomerating and discharging the mixture [227] in the container [222] through the outlet [225] and the soil after finishing the above process. About 40%-75% and water 25%-60% and vegetable absence 0.5%-6% The soil mixture [227] made by mixing at a ratio of 100% in the first process in the container [222] and after the completion of the input process 1 hour to 8 hours after the elapsed time again in the ratio Through the repeated process of injecting the mixture [227] twice or six times into the container, the building is removed by using a physical method to remove or neutralize the toxicity of cement contained in concrete, which is the main component of the building. Building method that removes toxicity In the method of removing the toxicity of the building by using the physical method that removes or neutralizes the cement contained in the concrete, which is the main component of the building, the capillary phenomenon such as sponge or cloth or non-woven fabric or paper After the storage panel [422] is configured to be easily attached to the exterior of the building [6] and then coupled to the building [6] using a coupling member such as an anchor bolt [223]. One side constitutes an inlet port 224 provided to introduce water or a solution [227], while the other side is an outlet port 225 provided to hold or discharge the water or solution [227], such as a valve. A pedestal [233] coupled with the device [228] is provided at the same time, while at one side the temperature of the mixture [227], consisting of water or liquid, is increased. By using the structure of the storage panel [422] provided with a heater or a cooler [211] provided to lower the physical method to remove or neutralize the toxicity of the cement contained in the concrete, the main component of the building Building construction method to remove toxicity of building A method of constructing a fish house by using a physical method to remove the toxicity of cement contained in the fish house building; In the interior of the fish house [121] formwork [124] between the reinforcing frame [not shown] Injecting a pipe [77] coated with a releasing agent [76] in between; pouring a concrete mortar [21] into the form [124]; and 2 hours after the casting of the concrete mortar [21] is completed. Removing a pipe [77] inserted into the concrete mortar [21] in a state of about 8 hours, and constructing a plurality of through holes [78] in the fish house [121]; pipe [77] After removing the water, the mixing ratio of the member was partially selected from about 40% to 80% of water and about 20% to 60% of soil in the inside of the through hole [78] while the time was about 5 to 20 hours. Making an earth mixture [58] at a rate of 100%; After the first process of adding the soil mixture [58] to the through-hole [78] and the earth mixture [58] into the through-hole [78]; After about 1 hour to 10 hours, the earth mixture [58] of the earth mixture [58] formed in the fish house [121] through the sequential process of the soil mixture [58], which is mixed at the above ratio, 2 to 6 times. It is used to construct the fish house [121] by using the process of filling the interior with 100% pure soil and finishing the end point [551] of the through hole [78] filled with pure soil only with concrete mortar. A method of constructing a building for a fish house [121] using a physical method provided to neutralize or remove the toxicity of cement contained in concrete mortar [21].

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