KR101459097B1 - Prefabricated building - Google Patents

Abstract

A prefabricated building is initiated. In the assembled building according to the present invention, the end of the round steel pipe is assembled to the nut portion of the bidirectional binding body, the bolt portion of the bidirectional binding body is assembled to the nut hole of the connector, a plurality of circular steel pipes are assembled And a circular steel pipe structure in which a ring is installed at a predetermined interval on the outer diameter of the circular steel pipe and further a plurality of round steel pipe square portions are provided outside the circular steel pipe through the ring. According to the present invention, even a non-specialist general person can easily assemble a prefabricated building without special tools or extensions. In addition, mass production of preformed modules and parts in advance can reduce primary costs and minimize labor and assembly time costs associated with assembly.

Description

Prefabricated building

The present invention relates to a prefabricated building, and more particularly, to a prefabricated building that quickly assembles a building without using special equipment or tools on a building site by using mass-produced module units.

Generally, in order to build a building, it is necessary to perform basic construction according to the design drawing, to make a concrete structure according to the shape of the form such as reinforcing base-based cement and sand gravel, to assemble the H-shaped steel structure with a crane, It takes a long time to build a building according to the process procedure, and a large amount of manpower and a huge amount of money are invested in each process. Especially, the labor cost is very high in the construction cost.

In addition, according to the process procedure, the skilled worker or professional worker is required for each process due to the procedure of carrying the building material to the building site sequentially and processing it in the field and performing the work according to the exterior and interior process, do.

Therefore, in order to solve these problems, the PC method to assemble the pre-manufactured materials in the factory is applied in various ways in various construction sites, but the PC method can also be performed only by the process experts. Therefore, it was practically impossible for non-experts, that is, ordinary people, to build a certain building.

In detail, Korean Prior Art Publication No. 2012-0040457 (titled "Prefabricated building construction apparatus") discloses a prefabricated building construction apparatus in which a roof structure preliminarily assembled with a wall structure is raised and lowered from a floor when a prefabricated building is installed . The vertical guide bar and the vertical guide bar can be easily and easily assembled without being restricted by the construction position and the work space. In particular, since the vertical guide bar is supported on the outer side of the roof structure, It is possible to secure safety according to the vertical movement of the structure and to improve the workability and the construction period because the additional process such as finishing the incised roof to install the vertical guide bar after installation is dispensed with.

In addition, Korean Unexamined Utility Model Publication No. 2012-0011688 (name of the invention: prefabricated building) discloses a prefabricated building using a sandwich panel improved in heat insulation by applying a two-stage roof. It is easy to assemble the side wall between the lower rail and the upper rail, and it has excellent durability due to the structure that the pillars standing on all sides catch the side walls and can be used without breakage even in case of natural disasters such as strong wind or typhoon .

SUMMARY OF THE INVENTION The present invention provides a prefabricated building which can be easily assembled without special tools or extensions.

According to another aspect of the present invention, there is provided a prefabricated building, wherein the end of the round steel pipe is assembled to the nut portion of the bidirectional binding body, the bolt portion of the bidirectional binding body is assembled to the nut hole of the connector, A plurality of circular steel pipes are assembled and connected to each other to constitute a basic frame of a prefabricated building, and a ring is provided at an outer diameter of the circular steel pipe at regular intervals, and a plurality of round steel pipe square portions are further provided outside the circular steel pipe through the ring And a round steel pipe structure.

According to another aspect of the present invention, there is provided a prefabricated building comprising: a plurality of circular steel pipes connected to each other to form a basic frame of a prefabricated building; a plurality of half pipes are coupled to ends of the circular steel pipe; And a ring fixing portion for fixing the half pipe at a predetermined position outside the plurality of the half pipes is disposed and the bolt connected to the plurality of half pipes is rotated to inflate the half pipe inner binding portion located inside the half pipe, So as to bind the circular steel pipe.

According to another aspect of the present invention, there is provided a prefabricated building comprising a plurality of circular steel pipes connected to each other to form a basic frame of a prefabricated building, a first pipe inserted into the circular pipe, Wherein one end of the bolt is formed with an inner inclination so that the bolt can be fixed by passing through it, and a nut is fixed to the protrusion of the bolt protruding out of one end of the first tube, Wherein the cutting portion is formed by cutting a plurality of cuts in the direction of the first pipe, and when the nut is rotated toward the bolt, the cut portion is expanded and bound to the round steel pipe.

According to the prefabricated building according to the present invention, the prefabricated building can be easily assembled without special tools or extensions even if the general person is a non-specialist. In addition, mass production of preformed modules and parts in advance can reduce primary costs and minimize labor and assembly time costs associated with assembly.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a small diameter circular steel pipe, a bidirectional binding body and a hexahedral connector according to the present invention,
2 shows a small-diameter round steel pipe, a bidirectional coupling body, a spherical connector and a six-way connector according to the present invention,
FIG. 3 is a view showing a large-diameter round steel pipe, a bidirectional binding body, and a hexahedral connector according to the present invention,
FIG. 4 is a view showing a height control pedestal disposed below a circular steel pipe structure according to the present invention. FIG.
FIG. 5 is a view showing a square steel tube structure in which a bending strength applied to a circular steel pipe structure according to the present invention is distributed,
6 is a view showing a special bolt for joining a large diameter circular steel pipe and a square steel pipe according to the present invention,
7 is a cross-sectional view showing a state where a small diameter / large diameter round steel pipe according to the present invention is coupled with a round steel pipe square portion by using a ring,
8 is a view showing six cases in which a round steel pipe square part and a wall are assembled according to the present invention,
FIG. 9 is a view showing a rectangular intersection fixing portion for enhancing tie-in at vertically and horizontally intersecting portions of a round steel pipe square portion according to the present invention;
10 is a view showing a detailed structure of a wall according to the present invention,
11 is a view showing a wall corner fixing part according to the present invention,
12 is a view showing a coupling structure of a round steel pipe square part and a ring according to the present invention,
FIG. 13 is a view showing a color identification label, a numbering system, and a manual structure of each part constituting the present invention,
14 is a view showing a packaging and identification method of each part constituting the present invention,
15 is a view showing a state where a round steel pipe according to another embodiment of the present invention is coupled using a half pipe,
16 is a view showing a state where a round steel pipe according to another embodiment of the present invention is coupled using bolts,
FIG. 17 is a view showing a plurality of circular steel pipes assembled in an orthogonal manner through an orthogonal connection portion of a circular steel pipe according to another embodiment of the present invention.

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

Fig. 1 is a view showing a small diameter circular steel pipe 5, a bidirectional binding body 7 and a hexahedron connector 3A according to the present invention. Fig. 2 is a perspective view showing a small diameter circular steel pipe 5, 3 shows the large diameter round steel pipe 10, the bidirectional coupling body 7 and the hexahedron connector 3A according to the present invention. Fig.

1 to 3, the assembled building according to the present invention is characterized in that both ends of the round steel pipes 5 and 10 are respectively assembled to the nut portion 2 of the bidirectional binding body 7 and the bidirectional binding body 7, The bolt portion 1 of the connector 3A or 3B is assembled to the nut hole 4 of the connector 3A or 3B. For reference, as shown in FIG. 1, threads are formed on the outer circumferential surface of the bolt portion 1, the nut portion 2 is formed in a hollow shape, and threads are formed on the inner circumferential surface. Then, a plurality of circular steel pipes 5 and 10 are assembled through the connectors 3A and 3B and connected to each other by this method to form a basic frame of the assembled building.
That is, the circular steel pipes 5 and 10 are connected to the bidirectional binding members 7 and 10, which can be assembled by rotating the circular steel pipes 5 and 10 and the connectors 3A and 3B in opposite directions, Is inserted into the nut hole 4A of the hexahedron connector 3A so that the bolt portion 1 of the hexahedron connector 3A passes through the nut portion 2 (that is, the portion where the nose or mountain is formed in the bolt portion is exposed to the outside of the nut portion) Insert it into the nut hole (4B) of the connector (3B). By repeating the process of joining the circular steel pipes 5 and 10 to the connectors 3A and 3B without welding them to each other, a circular steel pipe structure composed of the circular steel pipes 5 and 10 is produced. The circular steel tubes 5 and 10 are coupled to the six-way connector 3C so that a plurality of circular steel tubes 5 and 10 can be coupled in the x-, y-, and z-axis directions.

At this time, the bidirectional binding body 7 is composed of the bolt portion 1 and the nut portion 2, and the bolt portion 1 and the nut portion 2 are assembled in advance before the circular steel pipes 5 and 10 are engaged . It is preferable to use a small-diameter round steel pipe 5 having a small diameter for a small-sized building having a small area and a large-diameter round steel pipe 10 having a large diameter for a large-sized building.

The joint structure of the round steel pipe according to another embodiment of the present invention is shown in Figs. 15 to 16. Fig. Referring to FIG. 15, the basic frame of the prefabricated structure according to the present invention uses the circular steel pipe structure as described above. 15, the opposite ends of the round steel pipe 5 are connected to a plurality of half pipes 11 and 12 to surround the end of the round steel pipe 5, The ring fixing part 20 for fixing the coupled half tubes 11 and 12 is located outside the half tubes 11 and 12 and the bolts 8 connected to the plurality of half tubes 11 and 12 are rotated to form the half tubes 11 and 12 And the inner circumferential surface of the round steel pipe 5 is connected to the inner circumferential surface of the round steel pipe 5. [ At this time, a circular rail groove (not shown) is formed in a portion where the plurality of half tubes 11 and 12 are joined, and an elastic body is injected into the circular rail groove, so that the round steel pipe 5 can be more strongly bound.

16, the first pipe 16 is inserted into the circular steel pipe 5, and one end of the first pipe 16 is internally inclined so that the bolt can be passed and fixed, A nut is fixed to one end of the first tube 16 and one end of the first tube 16 having an internal taper is cut into a plurality of cut portions in the tube direction of the first tube 16. Therefore, when the nut is rotated toward the bolt, the cut portion is expanded and bound to the round steel pipe 5. At this time, the saw blade 22 is formed on the outer surface of the cutting portion, so that the saw blade 22 is embedded in the inside diameter of the circular steel pipe 5, and the binding of the circular steel pipe 5 can be further strengthened. Referring to FIG. 17, the circular steel pipe 5 may be connected to the circular steel pipes 5 in the x, y, and z axial directions by orthogonally assembling the plurality of circular steel pipes 5 through the orthogonal connecting portion 50.

4 is a view showing a state in which a height-adjusting pedestal 66 is disposed below the round steel pipe structure according to the present invention. Referring to FIG. 4, the height control pedestal 66 can control the height of the prefabricated building by supporting the round steel pipe structure constituting the column of the prefabricated building from the bottom in the round steel pipe structure.

In order to distribute the load of the prefabricated building, the wall load is dispersed by the round steel pipes 5 and 10, and the floor load is dispersedly assembled into the square steel pipe 13. 5, in order to disperse the bending strength of the round steel pipe structure, a lower sub connector 14 is connected to an end of the round steel pipe structure, and a square steel pipe 13 is provided inside the lower sub connector 14, To produce a steel pipe structure.

The connectors 3A and 3B are composed of a hexahedron connector 3A, a spherical connector 3B, a lower sub-connector 14 and a balanced sub-connector 17. The hexahedron connector 3A and the spherical connector 3B may have a plurality of nut holes 4A and 4B.

The hexahedron connector 3A is mainly used when it is assembled with the small diameter circular steel pipe 5, and because of the hexahedron structure, the number of pitches at which the bidirectional coupling body 7 is assembled is small and thus is weaker than the spherical connector 3B. The spherical connector 3B is mainly used when it is assembled with the large diameter circular steel pipe 10 and because of its spherical structure, the bidirectional binding body 7 has a greater number of pitches than the hexahedron and has a stronger property than the hexahedron connector 3A. However, due to the nature of the spherical structure, the periphery of the nut hole 4B is flattened so that the bidirectional binding body 7 can be firmly assembled.

5, when the length of the small-diameter circular steel pipe 5 is long as described above, there arises a problem of the bending strength as described above. Therefore, in order to disperse such bottom load, the end of the small-diameter circular steel pipe 5 . 6, the balanced sub connector 17 is connected to the square steel pipe connecting bolt 18 of the square steel pipe 13 for dispersing the bottom load of the large diameter circular steel pipe 10 to share the floor load do.

High-rise buildings of three stories or more can be constructed by dispersing loads in combination with round steel pipes 5 and 10 using H-shaped steel (not shown). However, the use of special equipment (for example, a crane) is inevitable when using H beams.

7 is a sectional view showing a state in which the small diameter / large diameter round steel pipe 5, 10 according to the present invention is coupled with the round steel pipe square portion 25 by using the ring 27. FIG. 7, rings 27 are provided at regular intervals on the outer diameters of the round steel pipes 5 and 10 to form a plurality of round steel pipe square portions 25 on the outside of the round steel pipes 5 and 10 through the ring 27, Can be additionally installed. There are a plurality of insertion portions so that a plurality of round steel pipe square portions 25 can be additionally inserted into the outside of the ring 27. Further, a plurality of rail grooves 29, 30, 31, 32, 33 are formed on one side of the round steel pipe square portion 25, so that the binding position of the wall can be selected. 8, any of the plurality of rail grooves 29, 30, 31, 32, and 33 is selected and selected in the plurality of rail grooves 29, 30, 31, 32, Thin wall and thick wall can be arbitrarily selected and assembled by inserting the wall into the rail groove. Further, in addition to the plurality of rail grooves 29, 30, 31, 32, and 33 described above, an additional first rail groove 23 may be located on the surface where the round steel pipe square portions 25 meet, The heat insulating material can be inserted into the opening 23.

8 (a) is a view showing a thin wall (100 mm) applied to a tropical area, (b) is a wall having a medium thickness (110 mm), (c) is a thick wall (F) is an example of an edge treatment of an extreme-area double-walled wall, and FIG. 6 (d) is a double-walled double-walled wall (180-200 mm) Fig. That is, the wall binding portion 39 can be bound to any of the rail grooves 33 of the round steel pipe square portion 25, and the wall of the room can be constructed using the hangers of the indoor wall body 38. Further, it is possible to construct a more solid wall by inserting a hole in the intermediate wall 36 and inserting the steel plate 41 on the back face and passing the bolt through the wall binding portion 39 with a nut. At this time, a heat insulating material and a sound absorbing material may be added between the indoor wall 38, the intermediate wall 36 and the outdoor wall 34 using foamed glass, polyurethane or the like, and they may be used depending on the purpose and use. Also, the outdoor wall 34 and the intermediate wall 36 can be made of a wall made of magnesia as a raw material or a wall made of a similar material. In extreme cases, the double insulation structure can be used to double the insulation or double the noise shielding.

FIG. 9 is a view showing a rectangular intersection fixing portion 52 for strengthening the binding of a portion of the round steel pipe square portions 25 according to the present invention. When the right angle intersecting portion 52 is inserted into the corner portion rail grooves 29,30,31,32,33 of the round steel pipe square portion 25 and the bolt 53 of the fixing member 54 is rotated 90 degrees, The two round steel pipe square portions 25 which are vertically and horizontally crossed by the fixing bodies 54 are tightly coupled to each other in the rail grooves of the steel pipe square portion 25. Use of the right angle intersecting section 52 at the inner diagonal line between the outdoor wall 34 and the interior wall 38 is also useful for fixing the double glazing or tempered glass to the round steel pipe square 25 in addition to reinforcing the structure .

10 is a view showing a detailed structure of a wall according to the present invention. Referring to FIG. 10, a board obtained by synthesizing magnesia (magnesium oxide) and fiber is used as an indoor wall body 38, an intermediate wall body 36, and an outdoor wall body 34. The outdoor wall 34 and the intermediate wall 36 are formed into a box shape, and the inside thereof is filled with polyurethane or foamed glass to form a wall according to the purpose of use such as heat insulation and sound insulation. A bolt combined with an iron plate penetrating the inside of the intermediate wall 36 is assembled by a nut of a square steel pipe 45 to push and fix the wall binding portion 39 and the five rails of the round steel pipe square portion 25 The wall binding portion 39 inserted in one of the grooves 29, 30, 31, 32, and 33 is rotated in the fixing direction so that both ends of the rail groove are in close contact with each other, .

11 is a view showing the wall corner fixing portion 56 according to the present invention. (a) to (c), the wall corner fixing portion 56 is configured to strongly tighten the corners of the wall while holding the round steel pipe square portion 25 perpendicularly and horizontally intersecting at right angles. The corner fixing portion 56 has a structure in which the vertical lever 59 is pushed so as not to escape from the inside of the rail grooves 29, 30, 31, 32, 33 of the round steel pipe square portion 25. The corner fixing portion 56 can fix the bolt 42 engaged with the back surface plate 41 to the edge of the wall through the hole of the corner fixing portion 56 through the intermediate wall body 36. That is, the corner fixing portions 56 at the corners of the wall are connected to each other by using the vertical lever 59 and the rail grooves 29, 30, 31, 32, 33 so that the two walls can be fixed to each other. When the turnbuckle 77 is rotated in the diagonal direction by using an iron plate or a wire 75 to the hole 78 of the corner fixing portion 56 as shown in Fig. So that the structure of the quadrangular wall can be strongly bound to each other.

12 is a view showing a coupling structure of a round steel pipe square portion 25 and a ring 27 according to the present invention. 12, the coupling heat insulating member 100 can be inserted into the inner rail groove 101 due to the fine tolerance between the inner rail groove 101 of the round steel pipe square portion 25 and the insertion portion of the ring 27 have. 10 are inserted into the outer diameters of the round steel pipes 5 and 10 by using the elasticity of the O-ring 103 or one of the circular pipes 106 that are detached at certain positions of the round steel pipes 5 and 10, The coupling heat insulating body 100 can be pushed and inserted into the insertion portion of the ring 27 in a state in which the round steel pipe square portion 25 is in close contact with the ring 27. [

13 is a view showing a color identification label, a numbering system, and a manual structure of each part constituting the present invention. Parts such as the round steel pipes 5 and 10, the rectangular steel pipe 13, the connectors 3A and 3B, the ring 27 and the round steel pipe square portion 25 according to the present invention are manufactured with predetermined weight and size . In other words, it is standardized with the weight and size that can be used by two adult men and it is manufactured in advance. Each part is labeled with a color label so that it can be assembled in order by manual. For example, the height control pedestal 66 may be labeled brown and the label color of all parts associated with the floor surface may be brown. In addition, they are numbered on each label and can be assembled in order of number (refer to FIG. 14).

At this time, temporary working stairs can be created by using the last used parts to facilitate the assembly work. After the column and roof work is finished, the footrest is disassembled and the bottom part, specifically, Can be used as steel pipe.

In order to check the horizontal level of the building, round steel pipes 5 and 10, a round steel pipe square part 25 and a ring 27 are assembled on two height control pedestals 66, You can check the degree of tilting by looking at the ink color depth by pouring it in the groove. At this time, if the level is not matched, the height of the elevation pedestal 66 can be adjusted to level the building. If the horizontal portion of the circular steel pipe structure constituting the basic frame of the prefabricated building does not match the vertical direction of the vertical portion of the circular steel pipe structure, the assembly itself is impossible. Therefore, if the horizontal part of the circular steel pipe structure does not match, the horizontal can be adjusted according to the flatness and strength of the ground using a turnbuckle or the like.

The roof of the snowy area can build the building with the structure that disperses the snow load by rushing the inclination angle. The roof used in the prefabricated house according to the present invention may be provided with a snow detection sensor to separately distribute the snow load by flowing electric current to the hot line disposed under the roof when the snow starts to fall. A safety device can be added to prevent overheating of the hot wire. Under the roof, a metal plate with a good thermal conductivity can be installed instead of an electric heating device, and the heat can be heated under the roof through the heat pipe to melt the snow. In addition, when constructing the wall, it is necessary to provide piping and electric wires for the electric wiring inside the wall and special connectors at the end of the electric wires, so that all the necessary electric works such as switches, lights, Make it easy for anyone to assemble.

In the above description, terms such as 'first', 'second', and the like are used to describe various components, but each component should not be limited by these terms. That is, the terms 'first', 'second', and the like are used for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a 'first component' may be referred to as a 'second component', and similarly, a 'second component' may also be referred to as a 'first component' . Also, the term " and / or " is used in the sense of including any combination of a plurality of related listed items or any of the plurality of related listed items.

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While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the embodiment in which said invention is directed. It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

1: bolt portion 2: nut portion
3A: hexahedral connector 3B: spherical connector
3C: 6-way connector
4: Nut hole 5: Small diameter round steel pipe
6: half-tube inner binding portion 7: bidirectional binding body
10: Large diameter round steel pipe 11, 12:
13: square steel pipe 14: lower sub-connector
16: first tube 17: balanced sub-connector
18: square steel pipe connecting bolt 20: ring fixing portion
22: saw blade 25: round steel pipe square portion
27: rings 29, 30, 31, 32, 33:
34: outdoor wall 36: intermediate wall
38: indoor wall 39: wall binding part
45: square steel pipe 50: orthogonal connection part
52: Right angle intersection fixing part 8, 53: Bolt
54: Fixture 56: Wall corner fixture
66: height-adjustable pedestal 100:

Claims (21)

A bidirectional binding body having a bolt portion having a thread formed on an outer peripheral surface thereof and a nut portion formed in a hollow shape and having a thread formed on an inner peripheral surface thereof,
A connector having a nut hole in which a bolt portion of the bidirectional binding body is screwed; And
And a circular steel pipe structure formed by arranging a plurality of round steel pipe square portions on the outside of the circular steel pipe through a ring provided at regular intervals on the outer diameter of the circular steel pipe. The method according to claim 1,
Further comprising a height-adjustable pedestal supporting the round steel pipe structure constituting the column of the prefabricated building from below and controlling the height of the prefabricated building. 3. The method of claim 2,
Further comprising a prismatic steel pipe structure formed by connecting a sub connector to an end of the round steel pipe structure to distribute the bending strength of the round steel pipe structure and providing a square steel pipe inside the sub connector. The method according to claim 1,
Wherein an end of the round steel pipe is bound to the nut portion in a state where the bolt portion is inserted into the nut portion so that a threaded portion of the bolt portion is exposed to the outside of the nut portion, Prefabricated buildings. The method according to claim 1,
And a plurality of inserting portions are formed on the outside of the ring so that the round steel pipe square portion can be inserted. The method according to claim 1,
Wherein a thickness of the wall can be selected by selecting one of the plurality of rail grooves formed at one side of the round steel pipe and combining the at least one heat insulating wall. The method according to claim 1,
Wherein the plurality of circular steel tubes are connected in x-axis, y-axis, and z-axis directions using a six-way connector. The method according to claim 6,
Further comprising a wall coupling unit having an iron plate inside the wall and connecting the bolt to the iron plate to bind the nut to the iron plate. The method according to claim 1,
Further comprising a right angle intersection fixing portion inserted in the rail groove of the round steel pipe square portion to reinforce the binding of the portion where the two round steel pipe square portions intersect. The method according to claim 6,
Further comprising a corner fixing part which is located at four corners of the wall and connects the vertical lever to the inside of the rail groove of the round steel pipe to fix the wall to each other. The method according to claim 1,
Further comprising a roof disposed on the circular steel pipe structure and configured to transmit heat transferred from a heat source provided at a lower portion to an upper portion. The method according to claim 1,
And the vertical direction of the vertical portion of the circular steel pipe structure is matched when the horizontal portion of the circular steel pipe structure constituting the basic frame of the assembled building meets the horizontal portion. 13. The method of claim 12,
Wherein the horizontal tubular structure is horizontally aligned with the flatness and strength of the ground by using a turnbuckle if the horizontal portions of the circular steel pipe structure are not aligned with each other. The method according to claim 1,
Wherein the shape of the connector is one of a cube, a rectangular parallelepiped, and a sphere, and the connector has a plurality of the nut holes. The method of claim 3,
Wherein the round steel pipe, the square steel pipe, the two-way binding member, the connector, the ring, and the steel pipe square portion are manufactured with predetermined weight and size. The method of claim 3,
Wherein the circular steel pipe, the square steel pipe, the bidirectional binding member, the connector, the ring, and the steel pipe are attached with labels according to colors and assembled in order by manual. A plurality of circular steel pipes are connected to constitute a basic frame of the assembled building,
Wherein a plurality of half pipes are coupled to each other at an end of the circular steel pipe and a ring fixing part for fixing the half pipe at a predetermined position outside the plurality of the half pipes is positioned and the bolts connected to the plurality of half pipes are rotated And the inner pipe connecting portion located in the inner pipe is inflated to fit the inner diameter of the circular pipe, thereby binding the circular pipe. 18. The method of claim 17,
And a circular rail groove is formed at a portion where the plurality of half tubes are joined to inject the elastic body into the circular rail groove. A plurality of circular steel pipes are connected to constitute a basic frame of the assembled building,
Wherein a first pipe is inserted into the circular pipe, an end of the first pipe is internally tilted so that the bolt can be passed and fixed, and a nut is provided on the protrusion of the bolt protruded out of one end of the first pipe And one end of the first tube having the inner inclination formed therein is formed with a cut portion cut into a plurality of pieces in the direction of the first tube so that when the nut is rotated toward the bolt, the cut portion expands and is bound to the circular steel pipe A prefabricated building characterized by. 20. The method of claim 19,
And a saw blade is formed on the outer surface of the cut portion, so that the saw blade is stuck to the inside of the circular steel pipe. 20. The method of claim 19,
Wherein the circular steel pipe assembles a plurality of circular steel pipes orthogonally through an orthogonal connection portion.

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