KR101784574B1

KR101784574B1 - How to build a prefabricated container house that has improved durability to combine dual windows

Info

Publication number: KR101784574B1
Application number: KR1020150180445A
Authority: KR
Inventors: 김경락; 김정화
Original assignee: 김경락; 김정화
Priority date: 2015-12-16
Filing date: 2015-12-16
Publication date: 2017-10-13
Also published as: KR20170072437A

Abstract

The present invention relates to a method of manufacturing a prefabricated container house, and more particularly, to a method of manufacturing a prefabricated container house, (S100) for constructing the bottom part (110) by forming the side part (120) and the lid part (130) with the curved lattice frame (121) on the outer slope of the bottom part (110); Preparing an inner wall connection step (S200) of forming a plurality of inner pieces (210) on one side of each of the grid frames (121) and then forming a wood material (220) on the lower part of each inner piece (210); An inner wall forming step S300 in which the inner wall 320 is closely attached to the surface of the heat insulating material 310 and is joined to the inner wall 220 after the heat insulating material 310 is formed between the inner wall 220 and the inner wall 220, ; An inner finishing step (S400) of placing the lid part (130) on the upper part of the side part (120) and fixing the end part of each of the side parts (120) to each other by the inner finishing agent (410); So that the bottom part of the container house can be easily moved for easy transportation, and when the inner wall is formed, it is possible to easily construct the structure through a plurality of inner pieces, thereby providing convenient operation, It is a useful invention that can provide various durability by constituting a variety of designs so as to provide diversity and, among other things, a curved shape of the lattice frame forming the side wall of the inner wall.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of manufacturing a prefabricated container house having improved durability for joining dual windows,

The present invention relates to a method of manufacturing a prefabricated container house having improved durability for joining dual windows. More specifically, the present invention relates to a method of manufacturing a prefabricated container house by combining various configurations in a simple manner, The present invention relates to a method of manufacturing a prefabricated container house in which the durability is improved in order to combine dual windows for providing the double doors.

Conventionally, container houses are used for offices, simple accommodation, storage warehouses, and the like in construction and civil engineering sites. Recently, they are used for residential purpose in rural and mountain village areas outside the urban areas because they are robust and easy to move and install.

However, the conventional container house requires a lot of time for the overall floor, the frame, and the warming and finishing process, and has a time-consuming problem of individually assembling and then assembling the individual components.

Also, most of the container houses have problems that they can not provide beauty because they can not provide various designs.

First of all,

(EN) A method of assembling a movable assembly house, comprising the steps of: providing a cone having protrusions formed in the X, Y and Z directions, respectively, on the upper and lower edges of the assembly housing; Forming a skeleton of an assembled house by connecting frames to connection projections between the cones and the cones; Fixing a plurality of bottom surface reinforcements between frames forming a bottom surface of the assembled house; Stacking a floor plywood and a bottom surface finishing material sequentially on the upper surface of the bottom surface reinforcement bar and fixing them; Fixing a plurality of wall panels between the frames constituting the wall of the assembled house; Fixing a plurality of ceiling scene reinforcing bars between frames forming a ceiling of the assembled house; And a step of fixing a ceiling surface finishing material to a lower surface of the ceiling scene reinforcing bar and fixing a ceiling plate steel plate to the upper surface of the ceiling scene reinforcing bar.

Registration No. 10-1368729 (Special) First fiber reinforced plastic; A frame having the first fiber-reinforced plastic installed thereon and the plurality of frames being coupled to each other according to the shape of the movable building; A heat insulating material interposed between the frames; And the first fiber-reinforced plastic has a rim portion of the first fiber-reinforced plastic, which is adjacent to each other at each corner of the frame, Wherein the first and second fiber reinforced plastics are formed at a size such that they are fixed to the outer surface of the frame after being wrapped around each other, And a second fiber-reinforced plastic filled and cured in an empty space formed by the connection lines of the adjacent both ends of each of the interior materials, wherein the glass-reinforced plastic has a size of a size of one side of the building, A first step of cutting; A second step in which the first fiber-reinforced plastic is applied to the glass plate at a predetermined thickness and cured; A fourth step of attaching the first fiber-reinforced plastic separated from the glass plate to a prefabricated frame combined with a plurality of frames; A fifth step in which a heat insulating material is installed between the frames; A sixth step of attaching the interior material to the heat insulating material and the frame; A seventh step in which each of the corners of the frame, to which the first fiber-reinforced plastic is fixed, is filled with a second fiber-reinforced plastic and cured; The present invention relates to a method of manufacturing a mobile building.

A roof panel, side panels in each of the four sides, a floor panel, and a container, which is supported between each corner of the roof panel and the floor panel and which is connected to all four side panels, In the assembly house, the roof panel is applied to a deck plate having a concavo-convex section in which the upper surface-side concave portion becomes a drainage channel, a drainage guide is integrally formed at both ends of the deck plate, and a drainage- And a vertical drain hole communicating with the hole.

The prior art described above is a technique of arranging cones and connecting protrusions at corner portions to form a frame of the container house and then arranging the cone and connecting protrusions at each corner portion to form a frame of the container house, When a frame, a cone, and a connection protrusion are coupled to each other to form a frame, a plurality of operators are required, and the durability of the frame of the completed container house is inevitably deteriorated.

In other words, with the technique of inserting and fixing each of them, if the wrong center is caught, the container house is inevitably subjected to erroneous construction as a whole, so that it is inconvenient to re-merge again after separation, .

Other types of technologies have largely centered on technologies for corrosion protection and life extension. However, in order to implement such a technology, there is a problem in that a lot of construction is added to the construction of a conventional container house, which requires a lot of manufacturing cost.

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a prefabricated container house which is improved in durability to combine dual windows to improve the overall durability of the container house, And the technical problem is focused on providing the method.

The present invention provides a method of manufacturing a prefabricated container house in a method of manufacturing a prefabricated container house, comprising the steps of: placing a wooden piece (113) on an upper part of a panel (111) A base step S100 of forming a side part 120 and a lid part 130 with a curved grating frame 121 on an outer slope of the bottom part 110; Preparing an inner wall connection step (S200) of forming a plurality of inner pieces (210) on one side of each of the grid frames (121) and then forming a wood material (220) on the lower part of each inner piece (210); An inner wall forming step S300 in which the inner wall 320 is closely attached to the surface of the heat insulating material 310 and is joined to the inner wall 220 after the heat insulating material 310 is formed between the inner wall 220 and the inner wall 220, ; An inner finishing step (S400) of placing the lid part (130) on the upper part of the side part (120) and fixing the end part of each of the side parts (120) to each other by the inner finishing agent (410); As a technical feature.

According to the method of manufacturing a prefabricated container house having improved durability for joining the double windows according to the present invention, it is possible to easily move the bottom of the container house and to easily carry it, and when the inner wall is formed, And it is possible to provide a variety of designs selectively on the outer wall to give variety, and moreover, the lattice frame forming the wall surface is formed in a curved shape to secure the overall durability It is a useful invention.

1 is a flowchart showing a preferred embodiment of the present invention.
2 is a perspective view showing a preferred embodiment of the present invention.
3 is a perspective view showing a configuration of a bottom portion of the present invention;
4 is a perspective view showing a configuration of a side part of the present invention,
FIG. 5 is a perspective view showing a construction of a built-in piece in a side portion of the present invention,
Fig. 6 is a perspective view showing that the inner piece is made of the inner piece of the present invention,
Fig. 7 is a perspective view showing that a heat insulating material is formed between the webs of the present invention,
8 is a perspective view showing a construction of the inner wall of the present invention,
Fig. 9 is a perspective view showing an inner finishing agent of the present invention. Fig.
10 is a perspective view showing a lid part of the present invention,
Fig. 11 is a perspective view showing the construction of the lid of the present invention. Fig.
12 is a perspective view showing an outer wall body and an outer finishing material of the present invention;
Fig. 13 is a perspective view showing a combination of windows of the present invention,
14 is a perspective view showing the combination of windows of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 or 2, the present invention may be applied to a method of manufacturing a composite material, which includes a basic step S100, a wall connection preparation step S200, a wall construction step S300, an inner finishing step S400, S500).

① Basic step (S100)

The basic step S100 is the most basic step for fabricating the container house. The basic step S100 includes a panel 111 of a steel plate as shown in FIGS. 2 to 4, And the bottom part 110 is formed by placing the wood 113 thereon.

The panel 111 is formed with an insertion portion 111a at one side thereof so that it can be conveniently handled using a separate transportation means such as a forklift.

The side part 120 and the lid part 130 are formed on the outer slope of the bottom part 110 by the lattice frame 121 having a curved shape.

The curved shape of the lattice frame 121 is continuously formed from one end to the other end so that the overall durability of the container house can be ensured. That is, by changing the shape of the grating frame 121 to be bent without forming a separate reinforcing member, it is possible to reduce the material cost loss and secure more durability.

Further, it is also possible to vary not only the curved shape but also a shape for ensuring durability.

The lid 130 and the side surface 120 are formed to have the same internal structure and a separate latching ring 131 is formed on the outer side of the lid 130 to form the bottom 110 and the side 120 The side portion 120 is covered and fixed using a device such as a crane.

That is, the lid 130 is composed of a curved lattice frame, a built-in piece, a slab, and an inner wall in the same manner as one surface of the side portion 120 to be described below.

One or a plurality of angled pipes 140 are formed on one side and the other side of the grid frame 121 so as to be able to connect the doors of the later windows. It is preferable to configure the square pipes 140 when constructing the toilet door.

② Preparing the wall connection (S200)

5 and 6, a plurality of inner pieces 210 are horizontally formed on one side of each of the grid frames 121, and then, A long bar shaped panel member 220 is constructed and fixed to fix a heat insulating material 310 for insulation to be described below at a lower portion of the panel 210.

The inner piece 210 has a groove 211 through which the bolt is coupled to the double-pane frame of the window.

In addition, although the slab member 220 is shown as being formed in the shape of a long bar, the slab member 220 can be formed in a plurality of divided shapes.

Although not shown, electrical wiring may be formed on the side and top of the container house, and other wirings may be formed at the request of other customers. At this time, the electric wiring is located on the side portion of the container housing water and is connected to the upper portion, and is positioned by the lid unit 130, and a separate electric piping is formed inside the lid unit 130 to safely protect the electric wiring .

③ My wall construction step (S300)

7 or 8, the inner wall forming step S300 may include forming a heat insulating material 310 so as to perform a warming function between the wood materials 220, And the inner wall member 320 is closely attached to the surface to be coupled with the slab member 220.

In the case of the inner wall body 320, a plurality of the inner wall bodies 320 may be vertically or horizontally arranged in a divided shape, and may be made of wood to reduce material cost. The inner wall body 320 may have a beautiful appearance Combine with Takagi.

Meanwhile, when constructing the heat insulating material 310 and the inner wall body 320, the electric wiring should not be covered though it is not shown.

(4) Internal finish processing step (S400)

9 to 10, the inner finishing process S400 is performed by placing and fixing the cover 130 formed at the base step S100 on the upper portion of the side portion 120, and welding or other means And the end portions of the respective side portions 120 and the edge portions of the respective pipes 140 are finished with an inner finish agent 410 and the edges of the windows and the doors are finished desirable.

In addition, although not shown, if a kitchen and a toilet necessary for ordinary living are installed inside, water piping for drainage is connected.

Here, as shown in FIG. 13 or 14, a door and a window are formed in the square pipe 140, respectively. In the case of a window, a double pane may be installed to couple the frame of the double pane to the interior piece 210.

(5) External finish processing step (S500)

As shown in FIG. 11 and FIG. 12, the outer finishing process S500 may include attaching a plurality of outer wall bodies 510 to the outer wall of the container house separately after the inner finishing process S400, So that the outer surface of the outer wall body 510 is fixed to the outer edges of the outer windows and the outer doors.

In this case, the outer wall body 510 may be monochromatic or may be attached in two or more colors so as to impart a variety of colors. In the present invention, the outer wall body 510 has a single color.

As the container house is manufactured in the basic step S100, the inner wall connection preparing step S200, the inner wall forming step S300, the inner finishing processing step S400, and the outer finishing processing step S500, So that it is possible to manufacture the film precisely, and not only the defects are small in the initial production, but also it is possible to manufacture the film in a short time.

According to the method of manufacturing a prefabricated container house having improved durability for joining the double windows according to the present invention, it is possible to easily move the bottom of the container house and to easily carry it, and when the inner wall is formed, It is possible to provide the convenience of the work as well as to provide diversity by selectively configuring various designs on the outer wall, and moreover, it is formed in a curved shape of the lattice frame forming the side wall of the inner wall, It is a useful invention that can be.

S100: basic step S200: preparation of connection of the inner wall
S300: Internal wall forming step S400: Internal finishing step
S500: External finishing step
110: bottom part 111: panel 111a:
113: Wood
120: side part 121: lattice frame
130: lid part 131: latching ring 140: square pipe
210: inner piece 211: groove 220:
310: Adiabatic material 320: Inside wall
410: Interior finish
510: Outer wall 520: Outer finish

Claims

A wooden part 113 is placed on the upper part of the panel 111 to form a bottom part 110. The side part 120 and the lid part 130 are formed on an outer slope of the bottom part 110 with a curved grid frame 121, (S100); Preparing an inner wall connection step (S200) of forming a plurality of inner pieces (210) on one side of each of the grid frames (121) and then forming a wood material (220) on the lower part of each inner piece (210); An inner wall forming step S300 in which the inner wall 320 is closely attached to the surface of the heat insulating material 310 and is joined to the inner wall 220 after the heat insulating material 310 is formed between the inner wall 220 and the inner wall 220, ; An inner finishing step (S400) of placing the lid part (130) on the upper part of the side part (120) and fixing the end part of each side part (120) An outer finishing process S500 of attaching a plurality of outer wall bodies 510 to the outer wall of the container house individually after the inner finishing process S400 and finishing outer edges of the outer wall bodies 510 with an outer finish agent 520; In the basic step S100, a plurality of angled pipes 140 are formed on one side and the other side of the side part 120 to correspond to the outer shapes of the windows and the doors. On the upper side of the lid part 130, A plurality of latching rings 131 are formed in the inner wall structure forming step S200 and the inner wall bodies 320 are divided into a plurality of blocks and arranged in the vertical or horizontal direction, The interior of the pipe 140 is covered with the interior finishing agent 410 and the water pipe is connected to the kitchen and the toilet, In the outer finishing process (S500), the outer wall body (510) is formed in a multi-tapered shape and attached with two or more colors.
In the inner wall connection preparing step S200, the inner piece 210 protrudes inward, and a groove 211 is formed through one end of the inner piece 210 to be coupled with the double-
In the interior finishing process (S400), a door and a window are formed on each of the pipes 140. When a window is installed as a double window, the frame of the double window is configured to be coupled to the inner piece 210 and the groove 211 Wherein the durability of the container house is improved.

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