KR101514261B1 - Prefabricated bulding and construction process thereof - Google Patents

Abstract

The present invention discloses a prefabricated building and method of constructing the same to provide a comfortable living space as well as improved workability and mobility.
The prefabricated building includes a wall mounting portion for supporting the bottom and both side walls of the column so that the lower end of the column for inserting the wall is inserted and a bottom connecting portion for connecting the bottom wall to one side of the wall mounting portion, And the bottom and the bottom are integrally connected to each other.

Description

{PREFABRICATED BULDING AND CONSTRUCTION PROCESS THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefabricated building and a construction method thereof, and more particularly, to a prefabricated building and a method of constructing the same, which are provided to provide a comfortable living space with ease of workability and movement.

In a typical building, the foundation and the pillars constituting the frame are constructed through concrete pouring.

However, in the case of an existing building in which a foundation and a frame are constructed through concrete pouring, there is a problem that it is difficult to perform a quick construction due to the time required for curing the poured concrete.

Therefore, in recent years, there have been emerging architectures that can be installed directly on the construction site in order to improve the workability.

Japanese Patent Application Laid-Open No. 10-2012-0035992

However, in the case of a conventional structure in which a wall or a pillar is directly installed on the site, since the foundation portion is still constructed by pouring concrete, there is still a limit to improve the workability more effectively.

Also, in the case of simple buildings, the construction and mobility are prioritized so that they are produced in a form close to a real container or a container. In such a building, since the entire structure is manufactured through a thick steel plate, the weight is heavy, And the heat conductivity is high, it was difficult to provide a proper living space.

An object of the present invention is to provide a prefabricated building and a construction method thereof which are provided to provide a comfortable living space with improved workability and ease of movement.

In order to attain the above object, the prefabricated building according to the technical idea of the present invention comprises a wall installation part for supporting the bottom and both sides of the bottom of the column so as to insert the lower end of the column for forming the wall, And a bottom portion connecting portion for connecting the bottom portion and the bottom portion is disposed along the periphery of the bottom portion so that the wall and the bottom portion are integrally connected.

The bottom body connecting portion includes a horizontally extending portion extending in the horizontal direction from the inner wall of the wall mounting portion so that the bottom body can be constructed with a plurality of horizontal plate members and the end portions of the horizontal plate member are supported while being supported in the horizontal direction can do.

The horizontal plate may have a protruding reinforcing portion protruding upward in a central portion along the longitudinal direction to reinforce the bottom body. The bottom connecting portion may be provided on the bottom portion of the horizontal extending portion to reinforce the horizontal extending portion. And an inclined extension portion that connects the inner wall of the wall tongue portion and the extending direction end of the horizontal extending portion in an inclined state.

A plurality of the columns are spaced apart from each other in the longitudinal direction and a lower end of the columns is inserted into the wall, and the wall includes a first side cover connecting one side of the columns and a second side cover connecting the other side of the columns A first side cover, a second side cover, a filler filled between the first and second side covers and the pillars including the loess powder, and an upper cover covering the top of the pillars in a state of filling the filler .

The filling material may further include straw, and the straw may be filled in the wall in a state mixed with the loess powder.

The prefabricated building may further include a hollow roof provided to cover an upper portion of the walls, and the roof may be filled with a filler including a loess powder.

The pillar includes a base surface portion, a pair of side surface portions provided at both ends of the base surface surface so as to be perpendicular to the base surface portion, and a pair of bending extending portions extending and bent toward the side surface portions And the base section may be provided so as to be coupled with each other in a state in which the base section faces each other.

A method of constructing a prefabricated building according to the technical idea of the present invention is a method of constructing a prefabricated building comprising a wall installation portion for supporting the bottom and both sides of the column so that the lower end of the column for inserting the wall is inserted, A joint member having a bottom portion connecting portion for the bottom portion; The first and second side covers are connected to each other so that the lower ends of the plurality of columns are spaced apart from each other in the longitudinal direction of the wall mounting portion, A wall assembly step of filling a filler including a loess powder between the second side cover and the columns and covering the top of the columns with an upper cover to assemble the wall; And a bottom body assembling step of assembling the bottom body integrally connected to the wall by fastening a plurality of horizontal plate members for constituting the bottom body to the bottom body connecting part.

According to one aspect of the present invention, the prefabricated building is integrally connected to the wall and the bottom by the joint material having the wall installation portion and the bottom connection portion, so that the wall can be firmly built around the bottom So that the entire body including the wall can be moved by lifting the bottom side, so that workability and mobility can be improved at the same time.

According to the prefabricated building of the present invention and the method of construction thereof, the wall and the roof constituting the side and periphery except for the bottom adjacent to the ground are filled with the loess powder, thereby improving the overall air permeability of the building and improving the cooling and heating efficiency So that a more comfortable living space can be provided.

1 is a perspective view illustrating a structure of a joint material in a prefabricated building according to an embodiment of the present invention.
FIG. 2 is a plan view showing a state in which a joining material installation step is completed during a construction process of a prefabricated building according to an embodiment of the present invention.
FIG. 3 is a side view showing a structure in which a wall assembly process and a bottom assembly process are being performed during a construction process of a prefabricated building according to an embodiment of the present invention.
FIG. 4 is a perspective view illustrating a structure in which a wall assembly process and a bottom assembly process are performed during a construction process of a prefabricated building according to an exemplary embodiment of the present invention.
5 is a plan view showing a state in which a bottom assembly is completed during a construction process of a prefabricated building according to an embodiment of the present invention.
FIG. 6 is a perspective view illustrating a state where first and second side covers are connected to each other during a wall assembly process during a construction process of a prefabricated building according to an embodiment of the present invention.
FIG. 7 is a plan view showing a state in which a filling material is filled in a wall in the step of assembling a wall during a construction process of the prefabricated building according to an embodiment of the present invention. FIG.
FIG. 8 is a side view showing a state in which a wall assembly step is completed during a construction process of a prefabricated building according to an embodiment of the present invention.
FIG. 9 is a side view illustrating a state in which a roof assembly is assembled during a construction process of a prefabricated building according to an embodiment of the present invention. FIG.
FIG. 10 is a side view illustrating a construction of a prefabricated building constructed in a multi-layer structure according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art can fully understand the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted in the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

The prefabricated building according to the present embodiment is a movable building that can be assembled immediately in the field and can be constructed immediately, and includes a bottom body 10, a wall body 20, and a roof body 30.

The double wall 20 and the bottom 10 are integrally connected to each other through the joint 40 so that the building can be moved and the overall construction of the building is improved.

1, the joint material 40 includes a wall mounting portion 41 for supporting the bottom and both side surfaces of the column 21 so as to insert the lower end of the column 21 for forming the wall 20, And a bottom body connecting part 42 provided for connecting the bottom body 10 to one side of the wall mounting part 41. The inner space of the wall mounting part 41 is inserted into the insertion groove 41a.

The joint member 40 may be formed by cutting a long length of extrudate such as a section or a beam by a required length and the wall attachment portion 41 and the bottom joint portion 42 may be formed by cutting the length of the joint material 40 Direction.

In the case of the bottom body 10, the bottom body connecting portion 42 may be constituted by a plurality of horizontal plate members 11 arranged in succession, and the bottom body connecting portion 42 is fastened such that the end portions of the horizontal plate members 11 are supported in the horizontal direction And a horizontally extending portion 42a extending in the horizontal direction from the inner wall of the wall mounting portion 41. [ The lower body connecting portion 42 is formed by the horizontal extending portion 42a and the inner wall of the bottom wall tongue 41 and the extension of the horizontal extending portion 42a to reinforce the horizontal extending portion 42a supporting the bottom body 10. [ And an inclined extension portion 42b connecting the ends of the guide portions in an inclined state.

The space between the horizontal extending portion 42a and the inclined extending portion 42b is a space for accommodating the fastening member 100 accommodating the bottom portion of the fastening member 100 fastened to the horizontal extending portion 42a for fastening the horizontal plate 11 42c are formed so that inhibition of the aesthetics of the prefabricated building due to external exposure of the fastening member 100 is suppressed.

Therefore, the prefabricated building in which the wall 20 and the bottom 10 are integrally connected by the joint material 40 having the wall installation portion 41 and the bottom connection portion 42, It is possible to firmly construct the floor 20 in the vicinity of the bottom 10 and lifting the floor 10 to move the entire building including the wall 20, .

When the prefabricated building is constructed using the joint material 40, the prefabricated building 40 is installed on the ground along the periphery of the bottom of the prefabricated building. A body assembling step of assembling the wall body 20 through the mounting part 41 and a bottom body assembling step of assembling the bottom body 10 through the bottom body connecting part 42 of the joint material 40, The roof body 30 is assembled to the upper part of the wall body 20 in a state where the assembly of the roof body 30 and the bottom body 10 is completed.

As shown in FIG. 2, in the joint material installation step, a plurality of joint materials 40 are connected in a frame shape along the outer periphery of the bottom of the building according to the size of the prefabricated building to be installed. At this time, adjacent joints (40) can be welded to each other and connected to each other in a state where the ends are transferred in an oblique line.

In the state where the joint material installation step is performed, the wall assembly step and the bottom assembly step are performed using the joint material 40. The wall assembling step and the bottom assembling step can be carried out regardless of the order, and can proceed at the same time.

In the wall assembly step, as shown in FIGS. 3 and 4, the lower ends of the columns 21 are inserted into the wall mounting portions 41 of the joint material 40 so as to be spaced apart from each other along the longitudinal direction.

The column 21 has a base surface portion 51, a pair of side surface portions 52 provided at both ends of the base surface portion 51 so as to be perpendicular to the base surface portion 51 and side surface portions 52 And a pair of bend extension portions 53 bent and extended toward the opposite sides of the tubular portion 50. [ The pair of seed tubes 50 are joined to each other in such a manner that the base surface portions 51 are opposed to each other to form a single column 21. At this time, the space between the base surface portions 51 can be joined through spot welding.

5, in a state where the lower end of the column 21 is inserted into the wall mounting portion 41, the side portion 52 of the both-side tubular steel 50 is inserted into the insertion groove 41a of the wall mounting portion 41, So that it is possible to firmly maintain the state of being welded to the inner surface. At this time, the column 21 can be joined to the wall mounting portion 41 through spot welding. In the drawings, a reference numeral a denotes a spot welded portion.

6, the one side surfaces of the pillars 21 are connected to each other through the first side surface cover 61, and the other side surfaces of the pillars 21 are connected to each other through the second side surface cover 61, A hollow filling space 22 is formed between the first and second side covers 61 and 62 and the pillars 21 by connecting the first side cover 61 and the second side cover 61 through the first side cover 61 and the second side cover 62. [ The first and second side covers 61 and 62 may be formed by a plurality of steel plates, each of which is a plate, and may be fixed by welding while being arranged side by side on the surface of the column 21 in the vertical direction.

7, when the first and second side covers 61 and 62 are installed, the filling space 22 is filled with the filling material 70 including the loess powder 71, 8 is completed by covering the upper ends of the pillars 21 by using the upper cover 80 as shown in FIG. 8 in a state that the filling material 70 is filled in the filling space 22. FIG.

Since the loess powder 71 has excellent air permeability as well as excellent antibacterial effect and low thermal conductivity property, the wall 20 filled with the loess powder 71 as a filling material 70 is excellent in humidity control So that the indoor space inside the wall 20 can be maintained in a pleasant condition and contributes to enhance the efficiency of cooling and heating the room.

In the case of the filler 70, most of the filler 70 is composed of the cobalt powder 71, and the filler 70 is coated with the cobalt powder 71 to increase the porosity between the cobalt powders 71, And a small amount of straw 72 formed by the stems or leaves of rice, barley, wheat, and the like. The loess powder 71 and the straw 72 constituting the filling material 70 are filled in the filling space 22 in a state of being agitated without any separate processing step so as not to delay the assembling time of the wall body 20 do.

The upper cover 80, which covers the upper ends of the pillars 21 in a state where the filling space 22 is filled with the filling material 70, is formed by cutting an extrudate having a "C" The upper and lower surfaces of the first and second side covers 61 and 62 are covered with the upper and lower surfaces of the first and second side covers 61 and 62, As shown in Fig.

Each wall 20 constituting the prefabricated building can be sequentially assembled along the periphery of the building from one side by repeating this process.

A plurality of horizontal plate members 11 for constituting the bottom body 10 are fastened to the bottom body connecting portion 42 of the joint material 40 to be integrally connected to the walls 20, The body 10 is assembled.

In order to reinforce the bottom body 10, the horizontal plate 11 is provided with a projecting reinforcing portion 11a protruding upward in the central portion along the longitudinal direction. Therefore, the bottom body 10 is constructed to be able to withstand the load applied to the upper portion while being constructed through the horizontal plate material 11 having a simple plate shape. A supporting portion 11b having fastening holes 11c formed at the ends of the horizontal plate 11 on both sides of the projecting reinforcing portion 11a to be fastened to the joint material 40 is provided.

9, in a state in which the walls 20 and the bottom 10 are integrally connected to each other through the wall assembling step and the bottom assembling step, A roof assembly step for assembling the body 30 is performed.

The roof 30 includes a roof body 91 forming an upper open filling space 91a and a roof cover 92 joined to the roof body 91 to cover the open top of the fill space 91a. And the roof 30 can be joined to the upper portion of the wall 20 as the bottom outer bottom surface of the roof body 91 is welded to the upper surface of the walls 20.

The filler 70 composed of the loess powder 71 and the straw 72 is filled in the filling space 91a inside the roof body 91 before the roof cover 91 is joined, Thereby securing air permeability and antibacterial ability.

As described above, in the assembled building according to the present embodiment, except for the bottom body 10, which is filled with the loess powder 71 and is provided adjacent to the ground, not only the wall body 20 but also the inside of the roof body 30, Is advantageous for cooling and heating as the ventilation ability is improved as a whole.

10, the upper cover 110 includes an upper cover part 111 and a lower cover part 111. The lower cover part 111 and the upper cover part 111 are formed on the upper part of the wall 21, And a joint part 112 provided in the form of a joint material 40 may be integrally provided.

In the upper cover 110, the upper cover 110 may have the same structure as that of the upper cover 80 described above. In the case of the joint material 112, as in the case of the joint material 40, (41) and the thin-shaped body connecting portion (42).

Therefore, when the upper cover 110 is used, the upper part of the bottom wall 20 can be closed through the upper cover part 111, and the upper wall 110 can be closed through the joint part 112 So that the wall 20 and the bottom 10 can be easily assembled in a state where the wall 20 and the bottom 10 are connected to each other even in the process of constructing the prefabricated building in a multi-layer structure.

The upper cover 110 may be formed of an extruded material having the upper cover part 111 and the joint material part 112 integrally with each other and may have a joint structure between the upper cover part 111 and the pillar 21, 112 may be made the same as in the upper cover 80 and the joint material 40 described above.

10: bottom body 11: horizontal plate
11a: projecting reinforcing portion 20: wall
21: Column 30: Roof
40: joint material 41: wall mounting part
41a: insertion groove 42: bottom body connection portion
42a: horizontal extending portion 42b: inclined extension portion
42c: accommodation space for the fastening member 50:
61: first side cover 62: second side cover
70: filler 71: loess powder
72: straw 80, 110: upper cover
91: roof body 92: roof cover
111: upper cover part 112: joint material part

Claims (8)

A wall mounting part for supporting both the bottom and both sides of the column so that the lower end of the column for inserting the wall is inserted so that it can be directly installed at the installation site, and a bottom connecting part for connecting the bottom to the wall mounting part Wherein the joint body is disposed along the periphery of the bottom portion so that the wall and the bottom body are integrally connected to each other,
Wherein the bottom body is constituted by a plurality of horizontal plate members,
Wherein the bottom connecting portion includes a horizontal extending portion extending in a horizontal direction from the inner wall of the wall mounting portion so that the end portion of the horizontal plate is supported in a state of being supported in a horizontal direction, And an inclined extension portion that connects the inner wall of the wall mounting portion and the extending direction end of the horizontal extending portion in an inclined state between the lower ends of the mounting portions,
Wherein the slant extension part and the horizontal extension part are provided so as to be continuous in a bent form,
Wherein a plurality of the columns are spaced apart from each other along the longitudinal direction,
The wall includes a first side cover for connecting between one side of the pillars, a second side cover for connecting between the other side of the pillars, and a second side cover covering the first and second pillars, A filling material filled in a filling space formed between the side cover and the pillars and an upper cover covering the top of the pillars in a state that the filling material is filled in the filling space,
Wherein the upper cover includes an upper cover portion provided at a lower portion of the upper portion of the wall to close the upper portion of the wall portion and a joint material portion provided in the form of the joint material at the upper portion of the upper cover portion to constitute the upper cover portion and the joint material portion And the like.
delete The method according to claim 1,
Wherein the horizontal plate member includes a protruding reinforcing portion protruding upward in a central portion along a longitudinal direction to reinforce the bottom body.
delete delete The method according to claim 1,
Further comprising a hollow roof provided to cover an upper portion of the walls,
Wherein the roof is filled with a filler including a loess powder. The method according to claim 1,
The pillar includes a base surface portion, a pair of side surface portions provided at both ends of the base surface surface so as to be perpendicular to the base surface portion, and a pair of bending extending portions extending and bent toward the side surface portions Wherein the base portion is provided in a state where the base portions are mutually butted against each other. A wall mounting portion for supporting both the bottom and the bottom of the column so as to insert the lower end of the column for forming the wall and the bottom connecting portion for connecting the bottom to the wall mounting portion, A joining material installation step of arranging the joining material along the joining material;
The first and second side covers are connected to each other so that the lower ends of the plurality of columns are spaced apart from each other in the longitudinal direction of the wall mounting portion, A wall assembly step of filling a filler between the second side cover and the columns and covering the top of the columns with an upper cover to assemble the wall; And
And a bottom assembly assembling step of assembling the bottom assembly integrally connected to the wall by fastening a plurality of horizontal plates for constructing the bottom assembly to the bottom assembly connecting part,
Wherein the bottom connecting portion of the joint material used in the joint material mounting step includes a horizontal extending portion extending in the horizontal direction from the inner wall of the wall mounting portion so that the end portion of the horizontal plate is supported in a horizontal direction, And an inclined extension portion that connects the inner wall of the wall mounting portion on the bottom side between the horizontal extending portion and the lower end of the wall mounting portion for reinforcing the extended portion and the extending direction end of the horizontal extending portion in an inclined state, And the horizontal extension portion is provided so as to be continuous in a bent form,
In the wall assembly step, the filling material is filled in a filling space formed between the first and second side covers and the pillars in a state that the loess powder and the straw are mixed and agitated,
Wherein the upper cover includes a bottom upper cover portion adapted to close the upper portion of the wall so as to close the upper portion of the wall in the wall assembly step and simultaneously install a new wall and a bottom in the upper portion of the wall, Wherein the upper cover part and the joint part are integrally provided on the upper part of the upper cover part, and the extruded part is integrally formed with the upper cover part and the joint part.

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