KR102302550B1 - Method for manufacturing of container house - Google Patents

Abstract

Disclosed is a manufacturing method of a container house. The manufacturing method of a container house in accordance with the present invention comprises the steps of: manufacturing a floor structure formed by installing a flat bottom portion on an upper portion of a reinforcing portion formed by coupling a plurality of square steel pipes with each other; manufacturing an internal structure in which a plurality of panels are coupled with each other to seal an upper portion, a lower portion, and side portions, and at least one entrance area and a window area are formed on a surface thereof; manufacturing an external structure in which a plurality of steel plates are coupled to each other so as to surround the internal structure to seal the upper portion and the side portion, and a door installation portion and a window installation portion corresponding to the entrance area and the window area are formed; installing the internal structure on the upper portion of the floor structure; and installing the external structure on the upper portion of the floor structure so as to surround the internal structure. In accordance with the present invention, the container house is manufactured to surround the internal structure with the external structure after installing the internal structure on the upper portion of the floor structure, thereby contributing to the improvement of productivity of the container house through ease of work and simplification of the process. In addition, the temperature deviation of the container house is minimized by an integrated thermal insulation structure of the internal structure, so that cooling and heating efficiency can be increased.

Description

Manufacturing method of container house

The present invention relates to a method for manufacturing a container house, and more particularly, to a method for manufacturing a container house that can easily manufacture a container house and increase cooling and heating efficiency by minimizing a temperature deviation by an integrated thermal insulation structure will be.

Recently, simple buildings using containers have been widely used. Containers have the advantage of being simple in structure and easy to install compared to permanent structures, so they are used as mobile stores, exhibition spaces, advertising spaces, cafes, restaurants, resting spaces, and facilities for performances and events.

For example, the container is also used as a container house that allows people to live by installing electrical wiring inside and furniture for residence. Such a container house insulates the inside of the container from the outside by assembling and attaching an insulating material to the side wall of the container. At this time, the method of attaching the insulation material is to first fix a plurality of reinforcing blocks to the side wall using iron pieces or wires, cut and insert the insulation material such as styrofoam between the pieces, and then attach the gypsum board to the reinforcing pieces with nails, etc. This is done in a way that is fixed The related prior art of the container house is disclosed in Utility Model Registration No. 20-0172590 (wall laminated panel for container house).

However, in the thermal insulation structure applied to the container house according to the prior art, a plurality of reinforcement timbers are fixed to the inner side wall of the container house using iron pieces or wires, and the insulation material such as styrofoam is cut and inserted between the wooden beams and then plastered. Since the structure in which the board is fixed to the reinforcing timber with nails, etc. is adopted, the work process is complicated and difficult, and the manufacturing period is increased, which causes a cost increase.

In addition, since the container house according to the prior art adopts a structure in which the insulation material is cut and inserted between the reinforcing pieces, there is a problem that the insulation performance is significantly lowered due to a gap or misalignment between the reinforcing pieces and the insulation material. have.

In addition, since the container house according to the prior art performs insulation work in a limited space inside, there is a problem in that work efficiency is lowered due to an increase in internal temperature, particularly in summer.

KR Registered Utility Model Publication No. 20-0172590 KR Registered Patent Publication No. 10-1491418

The technical problem of the present invention is a method for manufacturing a container house that can be easily manufactured by simplifying the process of manufacturing a container house and improving workability, and can minimize temperature deviation by an integrated insulation structure to increase cooling and heating efficiency is to provide

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. There will be.

The technical problem is, manufacturing a floor structure formed by installing a flat bottom portion on the upper portion of the reinforcing portion formed by combining a plurality of square steel pipes with each other; manufacturing an internal structure in which a plurality of panels are combined with each other to seal the upper part, lower part, and side part, and at least one entrance area and a window area are formed on the surface; manufacturing an external structure in which a plurality of steel plates are coupled to each other so as to surround the internal structure to seal the upper part and the side part, and a door installation part and a window installation part corresponding to the entrance area and the window area are formed; installing the internal structure on an upper portion of the floor structure; and installing an external structure on the upper portion of the floor structure so as to surround the inner structure.

The panel is characterized in that it is formed of any one panel selected from a Styrofoam panel, a Nanyoung Styrofoam panel, a urethane panel, a refrigeration panel, and a glass wool panel.

The external structure is characterized in that it is fixed to the floor structure through welding.

Further comprising the step of fixing the movement in the left and right directions of the internal structure by the internal structure fixing part when installing the internal structure on the upper portion of the floor structure,

The internal structure fixing part is installed to slide in left and right directions inside the floor structure so as to correspond to each corner region of the internal structure, and a first guide inclined surface and a second guide inclined surface that are inclined downward on both left and right sides The sliding member is formed; It is disposed on the uppermost portion of the first guide inclined surface and is installed so as to protrude to the upper part of the floor structure, and a descending inclined surface corresponding to the first guide inclined surface is formed at the lower end, and a first guide during the pressing operation of the internal structure a pressing member descending on an inclined surface to forcibly move the sliding member in a right direction; and an outer edge of the internal structure and an ascending/lowering installed inside the floor structure so as to be disposed at the lowermost portion of the second guide inclined surface, and a rising inclined surface corresponding to the second guide inclined surface is formed at the lower end of the sliding member. and a corner fixing member which rises to protrude to the upper portion of the floor structure on the second guide inclined surface during movement and is in contact with each corner of the inner structure.

The internal structure fixing part is installed in a groove that is opened upwardly in the bottom part of the floor structure, and a cover sealing the upper part of the groove, the sliding member is installed to be guided by sliding in the left and right directions in the groove, the The pressing member and the corner fixing member are characterized in that it is installed so as to be able to elevate the cover.

The sliding member has an elongated guide hole disposed parallel to each other in the movement direction at the upper portion so as to be able to move constantly in the left and right directions within the groove, and a guide protrusion inserted into the guide hole at the bottom of the groove characterized in that it is formed.

According to the present invention, by manufacturing the inner structure to surround the inner structure with the outer structure after installing the inner structure on the upper portion of the floor structure, it has a useful effect that can contribute to the improvement of the productivity of the container house through the ease of operation and the simplification of the process.

In addition, it has a useful effect of increasing the cooling and heating efficiency by minimizing the temperature deviation of the container house by the integrated thermal insulation structure of the internal structure.

1 is a flowchart showing a manufacturing process of a container house according to the present invention.
2 is a perspective view showing a floor structure of a container house according to the present invention.
FIG. 3 is a cross-sectional view taken along line AA shown in FIG. 2 .
4 is a perspective view showing the main part of the floor structure shown in FIG.
5 is a perspective view showing an internal structure of a container house according to the present invention.
6 is a perspective view showing an external structure of a container house according to the present invention.
7 is a cross-sectional view showing a state in which the internal structure is installed on the floor structure of the container house according to the present invention.
8 is a cross-sectional view showing a state in which the inner structure of the container house according to the present invention is wrapped with an outer structure.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted in order to clarify the gist of the present invention.

Referring to FIG. 1 , the method of manufacturing a container house according to the present invention includes the steps of manufacturing the floor structure 100 ( S10 ), manufacturing the internal structure 200 ( S20 ), and the external structure 300 . The manufacturing step (S30), the step of installing the internal structure 200 on the upper part of the floor structure 100 (S40), and the external structure to surround the internal structure 200 on the upper part of the floor structure 100 It includes a step (S50) of installing (300).

Referring to FIG. 2 , the floor structure 100 is manufactured by installing the flat bottom part 120 on the upper part of the reinforcing part 110 formed by combining a plurality of square steel pipes with each other. At this time, the reinforcing part 110 is formed in a lattice shape by a square steel pipe to ensure structural rigidity, and the bottom part 120 is formed of wood or synthetic resin of a certain thickness, and a bolt is placed on the upper part of the reinforcement part 110 . connected by means of

3 and 4, the floor structure 100 is provided with an internal structure fixing part 130 for fixing the movement in the left and right directions of the internal structure 200 installed thereon. To this end, the internal structure fixing unit 130 includes a sliding member 132 , a pressing member 134 , and a corner fixing member 136 .

The sliding member 132 is installed to be guided slidingly in the left and right directions inside the floor structure 100 so as to correspond to each corner region of the internal structure 200, and a first guide inclined surface inclined downward on both left and right sides ( 132A) and the second guide inclined surface 132B are respectively formed. The sliding member 132 has a structure that is installed to slide in the left and right directions in the groove 122 that is opened and formed in the upper portion of the bottom portion 120 of the floor structure 100 .

The pressing member 134 is disposed on the uppermost portion of the first guide inclined surface 132A and is installed so as to protrude to the upper portion of the floor structure 100 so as to be elevatingly installed on the cover 124 that seals the upper portion of the groove 122, and at the lower end portion A descending inclined surface 135 corresponding to the first guide inclined surface 132A is formed. This pressing member 134 is descended on the first guide inclined surface 132A by the descending inclined surface 135 during the pressing operation of the internal structure 200 to forcibly move the sliding member 132 in the right direction. .

The corner fixing member 136 is installed so as to be elevating inside the inner structure 200 so as to be disposed at the lowermost portion of the outer edge and the second guide inclined surface 132B of the inner structure 200, and a second guide inclined surface 132B at the lower end of the inner structure 200 ) and the corresponding rising inclined surface 137 is formed. This corner fixing member 136 is raised so as to protrude to the upper portion of the floor structure 100 on the second guide inclined surface 132B by the ascending inclined surface 137 when the sliding member 132 is moved, and the outer side of the internal structure 200 . It is structured to be in contact with the edge.

That is, the edge fixing member 136 is installed on the floor structure 100 to correspond to the outer edge of the internal structure 200 . The corner fixing member 136 having such a structure protrudes to the upper portion of the floor structure 100 by the pressing member 134 and the sliding member 132 when the internal structure 200 is installed on the upper portion of the floor structure 100 . The outer edge of the internal structure 200 is fixed, and accordingly, the internal structure 200 is installed on the floor structure 100 and then any movement in the left and right directions can be prevented.

In addition, the internal structure fixing part 130 has a long guide hole 133 disposed parallel to each other in the moving direction on the upper portion of the sliding member 132 , and the bottom of the groove 122 formed in the bottom part 120 . A guide projection 123 to be inserted into the guide hole 133 is formed. Accordingly, the sliding member 132 secures a structure that can be constantly moved in the left and right directions within the groove 122 .

Reference numeral '140', which is not described in the floor structure 100, denotes a fork groove formed so that a fork of a forklift can be inserted. That is, the container house according to the present invention is installed in a set place after being transported from the factory to the site by a transport vehicle and unloaded by a forklift.

Referring to FIG. 5 , the internal structure 200 combines a plurality of panels 202 with each other so as to be installed on the top of the floor structure 100 to seal the upper part, lower part and side parts, and at least one open access area on the surface. It is manufactured by forming the 210 and the window region 220 . In this case, the panel 202 may be formed of any one panel selected from a Styrofoam panel, a Nanyoung Styrofoam panel, a urethane panel, a refrigeration panel, and a glass wool panel having a certain heat insulating property.

Here, in the panel 202, grooves and protrusions corresponding to each other are formed at the connecting portions. That is, the panel 202 is connected through the groove and the protrusion, and at the same time, an adhesive is applied to the connecting portion, so that the panel 202 can be firmly coupled to be integrated.

Referring to FIG. 6 , the outer structure 300 combines a plurality of steel plates with each other so as to surround the inner structure 200 installed on the upper portion of the floor structure 100 to seal the upper portion and the side portions, and the entrance area of the inner structure 200 . It is manufactured by forming the door installation part 310 and the window installation part 320 corresponding to the 210 and the window region 220 .

Here, as the steel plate, a conventional container steel plate is used to secure the structural rigidity of the container house.

Hereinafter, a method of manufacturing a container house according to the present invention will be described with reference to FIGS. 7 and 8 .

First, the container house according to the present invention is prepared by manufacturing the floor structure 100 , the inner structure 200 , and the outer structure 300 .

Referring to FIG. 7 , the internal structure 200 is installed on the floor structure 100 . At this time, the internal structure 200 is fixed to prevent any movement in the left and right directions at the top of the floor structure 100 by the internal structure fixing part 130 provided in the floor structure 100 .

That is, the pressing member 134 of the internal structure fixing part 130 is pressed down when the internal structure 200 is installed on the upper part of the floor structure 100 , and the sliding member 132 is the pressing member 134 of the As it descends, it is moved in the right direction within the groove 122 of the floor 120 , and the edge fixing member 136 protrudes to the upper portion of the floor structure 100 according to the movement of the sliding member 132 to form an internal structure. (200) is brought into contact with the outer edge.

Accordingly, when the internal structure 200 is installed on the upper portion of the floor structure 100 , movement in the left and right directions by the internal structure fixing part 130 may be prevented, and the upper part of the floor structure 100 may be It will be able to be installed stably in the position.

Referring to FIG. 8 , when the internal structure 200 is installed on the floor structure 100 , the external structure 300 is installed on the upper part of the floor structure 100 so as to surround the internal structure 200 with the external structure. By welding the lower portion of the 300 to the floor structure 100, and finishing the interior of the internal structure 200 with a gypsum board, the manufacture of the container house is completed.

Here, the external structure 300 is installed in the floor structure 100 so as to cover the internal structure 200 at once in a pre-manufactured state, but as another embodiment of the present invention, the external structure 300 includes the internal structure 200 individually. It may be installed so as to be wrapped with a steel plate of

As described above, the manufacturing method of the container house according to the present invention is manufactured to surround the internal structure 200 with the external structure 300 after installing the internal structure 200 on the upper part of the floor structure 100, It can contribute to the improvement of the productivity of the container house through the ease of operation and the simplification of the process.

In addition, the method for manufacturing a container house according to the present invention can increase cooling and heating efficiency by minimizing the temperature deviation of the container house by the integrated heat insulation structure of the internal structure 200 .

In the foregoing, specific embodiments of the present invention have been described and illustrated, but it is common knowledge in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those who have Accordingly, such modifications or variations should not be individually understood from the technical spirit or point of view of the present invention, and modified embodiments should be said to belong to the claims of the present invention.

100: floor structure
110: reinforcement part
120: bottom
122: groove 124: cover
123: guide projection
130: internal structure fixing part
132: sliding member 132A: first guide inclined surface
132B: second guide slope 133: guide hole
134: pressing member 135: descending slope
136: edge fixing member 137: rising slope
200: internal structure
202: panel
210: entrance area
220: window area
300: external structure
310: door installation part
320: window installation unit

Claims (6)

manufacturing a floor structure formed by installing a flat bottom portion on an upper portion of a reinforcing portion formed by coupling a plurality of square steel pipes to each other;
manufacturing an internal structure in which a plurality of panels are combined with each other to seal the upper part, lower part, and side part, and at least one entrance area and a window area are formed on the surface;
manufacturing an external structure in which a plurality of steel plates are coupled to each other so as to surround the internal structure to seal the upper part and the side part, and a door installation part and a window installation part corresponding to the entrance area and the window area are formed;
installing the internal structure on an upper portion of the floor structure;
installing an external structure on an upper portion of the floor structure to surround the inner structure; and
and fixing the movement in the left and right directions of the internal structure by an internal structure fixing part when the internal structure is installed on the upper part of the floor structure;
The internal structure fixing part,
a sliding member installed to slide in left and right directions in the interior of the floor structure to correspond to each corner region of the inner structure, the first guide inclined surface and the second guide inclined surface inclined downward on both left and right sides;
It is disposed on the uppermost part of the first guide inclined surface and is installed so as to protrude to the upper part of the floor structure, and a descending inclined surface corresponding to the first guide inclined surface is formed at the lower end, and a first guide during the pressing operation of the internal structure. a pressing member descending on an inclined surface to forcibly move the sliding member in a right direction; and
The outer edge of the internal structure and the second guide inclined surface are vertically installed inside the floor structure to be disposed on the lowermost part, and an ascending inclined surface corresponding to the second guide inclined surface is formed at the lower end, and when the sliding member is moved The method of manufacturing a container house, comprising a; edge fixing member riding on the second guide inclined surface to protrude to the upper portion of the floor structure to be in contact with each corner of the internal structure. According to claim 1,
The panel is
A method of manufacturing a container house, characterized in that it is formed of any one panel selected from Styrofoam panel, Nanyoung Styrofoam panel, urethane panel, refrigeration panel, and glass wool panel. According to claim 1,
The method of manufacturing a container house, characterized in that the external structure is fixed to the floor structure through welding. delete According to claim 1,
The internal structure fixing part,
Doedoe installed in a groove opening upwardly in the bottom part of the floor structure and a cover sealing the upper part of the groove, the sliding member is installed to be guided by sliding in the left and right directions in the groove, and the pressing member and the corner are fixed A method of manufacturing a container house, characterized in that the member is installed to be liftable on the cover. 6. The method of claim 5,
The sliding member is
In order to be able to move uniformly in the left and right directions within the groove, guide holes arranged parallel to each other in the moving direction are long formed on the upper part, and guide protrusions inserted into the guide holes are formed at the bottom of the groove. A method for manufacturing a container house.

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