KR20120079259A - Manufacturing method of modular mobile buildings with insulation structure and mobile buildings using them - Google Patents

Abstract

PURPOSE: A manufacturing method of a modulated transportable building equipped with the thermal insulation structure is provided to reduce build period and costs while securing sealing performance, thermal insulation performance, and strength. CONSTITUTION: A manufacturing method of a modulated transportable building equipped with the thermal insulation structure is as follows. The skeleton of a module structure is formed into intended structure of building by using an insulation injection port(50) horizontal frame(2) having an insulation discharge hole, a vertical frame(1), and a support member(4). A slab, a floor, electric wires, and water pipes are installed in the installed module structure. All gaps in the module are sealed. Insulating material(6) is injected into the module structure. Windows and doors are formed in the module structure having clotted insulating material.

Description

Manufacturing Method of Modular Mobile Building with Insulating Structure and Mobile Building Using Them {.}

The present invention relates to a prefabricated building, and more specifically, to install a floor, a ceiling slab and internal facilities in a frame based on a vertical frame and a horizontal frame, and install a plywood that is a interior material by partitioning windows and doors, etc. After constructing the structure, the temperature of the module structure is raised to a certain level, and the interior facilities are buried by injecting an insulating material containing effervescent polymer and loess into the space formed between the frame and the plywood to integrally function the building. The modular construction reduces the construction cost while shortening the construction period, and also provides a heat-insulated structure that can be transported to the site and provided as a building completed in the factory so as to be movable with an insulating structure with improved airtightness. Method of manufacturing a modular mobile building having a It relates to the mobile building used.

Most buildings conventionally constructed are concrete structures or concrete structures based on steel structures. These buildings consist of field construction, in which most processes and facilities rely on functional personnel and equipment to join each other and connect pipes and other components in the field.

On-site construction of these buildings requires the procurement of materials and parts necessary for the construction of pillars, wall stacking, slabs, insulation, interior and exterior, windows, and auxiliary facilities from construction and foundation work. Defects are likely to occur, there was a problem that a large amount of material is lost.

Therefore, in the case of the site construction is affected by a number of factors, such as skill level of skilled personnel, environmental conditions of the site, climate change, material supply and demand, supervisor capacity, such as the construction quality and construction period for each site do.

In addition, the longer the construction of the building, the more advanced the work, the risk of safety accidents, and the labor costs are inevitably increased by hiring skilled workers.

On the other hand, the development and application of buildings that can be moved and installed like containers and can be manufactured at the factory and assembled at the site are in full swing, but existing construction methods that separately carry out water and sewage piping, electrical facilities, and wiring work are applied. Depending on the field construction could not escape.

Modular Framing is a method of assembling and constructing a three-dimensional box-shaped unit component group that is manufactured and assembled at the factory.It is an electrical and mechanical equipment that enters the unit parts, interior and exterior materials including windows, flooring and ceiling materials. More than 90% of the buildings, such as the installation of toilets and kitchens, are completed at the factory. The modular construction method is a box type. Can also be used as

Steel House (Steel House) is an example of a modular building is composed of a lightweight frame steel frame, the basic structure is composed of a wall member such as a column and track members above and below the wall, the joist supporting the floor or ceiling.

The modular building as described above is manufactured in a box-shaped module at the factory in order to improve the constructability and quality than the previous construction method, and in the field, it is being constructed by a field panel method or a factory panel method in which a building is constructed. .

These modular buildings must be manufactured in the form of panels by cutting the manufactured steel studs in the field, and each panel must be assembled in the field to form a wall and a box-shaped room, resulting in noise in the field and errors in panel production. The construction may be degraded, giving inconvenience to the general public and the traffic of the vehicle around the site, and the problem of impairing safety still remains.

Modular buildings must be assembled to ensure structural stability, as well as to be insulated to prevent excessive energy consumption during heating and cooling.

The modular building currently being constructed is being constructed by on-site panel construction or factory panel construction.However, in order to improve construction and safety and improve quality, the modular building is manufactured as a complete box-shaped module that has been assembled at the factory, and only transported in the field. It would be more advantageous from the point of view of the contractor or consumer to supply a modular building by a construction method that can be completed simply by arranging the building.

The present invention is a frame suitable for the space of the construction site where the prefabricated building is to be installed, and the frame constituting the frame, and various building facilities and a heat insulating material including ceramic, porous material, foam material and polymer are integrally formed to form a complete building form. It proposes a modular structure that is made of modular structure that can be transported to the site and installed to provide a completed structure without the construction work in the field.

Method for manufacturing a modular mobile building having a heat insulating structure of the present invention is a first step of installing a frame of a modular structure of the intended structure using a horizontal frame and a vertical frame and a support member provided with a heat insulating material inlet and a heat insulating material discharge hole ;

A second step of installing an outer wall, a slab, and a floor having a space structure in which windows and doors are installed by finishing materials in the framework of the module structure completed by the first step;

A third step of constructing plumbing facilities for electric wiring, water and sewage, and heating and cooling facilities in the module structure according to the second step;

A fourth step of sealing a gap between the outer wall, the slab, and the bottom connection part constructed by the second and third steps;

A fifth step of injecting the insulating material into the module structure according to the fourth step through the insulating material inlet formed by the first step;

A sixth step of solidifying the insulating material injected into the module structure in the fifth step;

And a seventh step of constructing windows and doors in the module structure in which the insulation is solidified by the sixth step.

The above-described rural process may further include a basic concrete work for supporting the frame of the building shape between the first step of installing the frame of the building shape and the fifth step of injecting insulation.

In the fifth step, the insulation may be applied to a foamed synthetic polymer, specifically, urethane foam, and may be selected from ocher, concrete, preferably lightweight foamed concrete, or other ceramic material mixed with porous bodies such as rice straw styropol grains. .

The method of solidifying the heat insulating material in the sixth step may be selected from a method in which the module structure is heated to a predetermined temperature or more in a heating furnace or dried in a natural dry state.

The method of manufacturing a modular mobile building is embedded in an insulating material made of a foamable synthetic polymer or a ceramic insulating material so that the arrangement of the electrical facilities installed in the wall of the building and the internal facilities such as water and sewage and heating and cooling facilities are embedded. It provides a uniform structure in the location, an economical structure and a method which eliminates the need for labor to install wires and pipes in the field, and a heat insulation structure with improved airtightness.

The technical feature of the modular mobile building having a heat insulating structure of the present invention is that the fastening holes, such as bolts and nuts, are fastened to a first fixed end formed side by side from both ends of the first base at regular intervals. Vertical frame formed;

A connecting member which engages with the contact surface of the first base on which the vertical frame faces and engages the horizontal frame;

Fasteners, such as bolts and nuts, having a second fixed end formed side by side from both ends of the second base so as to be coupled to the vertical frame and having a width inserted into a space formed between the first fixed end of the horizontal frame. A fastening hole to which the fastening holes are continuously formed at regular intervals and selectively coupled to the horizontal frame and the connection member;

A support member coupled to the horizontal frame by successively forming fastening holes for fastening fasteners such as bolts and nuts to be coupled to the horizontal frame at regular intervals;

It is fixed to the support member characterized in that it comprises a housing for forming a form for filling the heat insulating material to form a space in which the heat insulating material is put in the upper portion.

The modular mobile building having a heat insulating structure according to the present invention has a lattice frame structure in which the vertical frame, the horizontal frame, and the supporting member have a rectangular, square, or other intended shape, and the space filled with the heat insulating material by the exterior material. It provides a building structure that is integrally modular by a heat insulating material that is formed and subsequently filled in the space.

According to the present invention, a modular building structure in which a heat insulating structure made of a foamable synthetic resin such as ceramic, ocher and polyurethane as an internal heat insulating structure is integrally provided as a completed building to be movable in a factory, satisfying heat insulating property due to excellent airtightness. Has the strength to

In addition, unlike the conventional modular building that manufactured and transported each module to the site and then assembled and assembled on site, the modular structure of the completed modular structure is fully equipped with various facilities including insulation structure, electric facility, heating and cooling pipe, and water and sewage pipe. As the building only needs to be supplied to the site, it is not necessary to assemble and perform construction work on site, which shortens the construction time, reduces dangerous working conditions, increases safety, and reduces construction cost.

1 is a flow chart showing the process sequence of the embodiment of the present invention
Figure 2 is a perspective view showing a frame structure of the embodiment of the present invention
Figure 3 is an exploded perspective view of a part of the frame structure in the embodiment of the present invention
4 is a cross-sectional view of an embodiment of the present invention.
5 is an enlarged view of a portion A of FIG.
FIG. 6 is a cross-sectional plan view of a state in which the portion A of FIG. 3 is assembled.
7 is an enlarged view of a portion B of FIG.
8 is a cross-sectional plan view of the assembled state B of FIG.
Figure 9 is a cross-sectional view showing a state in which the insulation is filled in an embodiment of the present invention
10 is a cross-sectional view showing a state in which the concrete foundation in the embodiment of the present invention

The features and advantages of the present invention will become more apparent from the embodiments described by the accompanying drawings.

Hereinafter, embodiments of the present invention will be described.

Modular portable building having a heat insulating structure of the present invention is a method of manufacturing a modular mobile building having a heat insulating structure as shown in Figure 1 using a horizontal frame and a vertical frame and a support member provided with a heat insulating material inlet and a heat insulating material discharge hole A first step (S1) of installing a framework of a modular structure having an intended building shape;

A second step (S2) of installing an outer wall, a slab, and a floor having a space structure in which windows and doors are installed by finishing materials in the installed framework;

A third step (S3) of constructing plumbing equipment for electric wiring and water and sewage and heating and cooling facilities in the module structure;

A fourth step (S4) of performing a sealing operation for sealing a gap between the outer wall, the slab, and the bottom connection part, which has been previously constructed;

A fifth step (S5) of insulating the insulating material through the insulating material inlet to the module structure in which the sealing operation is completed;

A sixth step (S6) of solidifying the insulating material injected into the module structure;

Insulating material is implemented by the seventh step (S7) for constructing the windows and doors to the solidified module structure.

The module structure installed in accordance with the first step S1 is shown in FIG. The module structure may be manufactured in various sizes, and the module structure illustrated in FIG. 2 illustrates one example of various forms that may be implemented by the present invention.

As referred to in this figure, the modular structure of a modular mobile building having an insulating structure according to the present invention is a vertical frame (1), horizontal frame (2), connecting member (3), support member (4), exterior material ( 5) and heat insulating material (6).

Each of the above components is either manufactured directly to a size that corresponds to the scale of the finished building, or cut from a ready-made product.

3 and 4 are views illustrating a relationship in which the vertical frame 1, the horizontal frame 2, the connection member 3, the support member 4, and the exterior member 5 are coupled to each other.

As referred to in this figure, the vertical frame 1 is formed with a fixed end 11 formed side by side from both ends of the first base 10 is fastened to the fasteners such as the bolt 100 and the nut 101 The fastening holes 12 and 13 are continuously formed at regular intervals on the first base 10 and the fixed end 11.

The horizontal frame 2 has a fixed end portion 21 formed side by side from both ends of the base 20 so as to be coupled to the vertical frame 1 between the fixed end portions 11 of the horizontal frame 1. The fastening holes 22 and 23 to which the fasteners, such as the bolt 100a and the nut 101a, are fastened while being formed to have a width inserted into the space, are continuously formed at regular intervals at the base 20 and the fixed end portion 21. It is. By this structure, the horizontal frame 2 can be selectively coupled to the vertical frame 1 and the connecting member (3).

The connecting member 3 has a fastening hole 30 formed therein so that the vertical frame 1 can be engaged in a space between the bases 10 on which the vertical frames 1 are combined to face each other so as to engage the horizontal frame 2. do.

5 to 8 show an enlarged perspective view and a cross-sectional view of a part of the portion where the vertical frame 1 and the horizontal frame 2 are coupled, respectively.

5 and 6 show the coupling state of the corner portion (A).

The state in which the vertical frame 1 and the horizontal frame 2 are coupled to each other by the connecting member 3 will be described in detail with reference to the drawings. 1a) the bolt 100 and the bolt 100 penetrating the fastening holes 12 and 30 through the connecting member 3 in the space between the two base 10 in the state that the base 10 is facing each other. Both vertical frames 1 and 1a and the connecting member 3 are coupled to each other by a nut 101 fastened thereto.

At this time, one side of the connecting member (3) is exposed to the side of the vertical frame (1, 1a), the end of the connection member (3) exposed so that the fastening hole 22 of the horizontal frame (2, 2a) The bolt 100a and the nut 101a are fastened to the fastening hole 30 of the connection member 3.

That is, two horizontal frames 2 are formed in one set, and the end C of the connecting member 3 exposed in the space between the two bases 20 in the state where the bases 20 face each other is interposed with the fastening hole 22. The horizontal frame 2 and the connecting member 3 are coupled to each other by the bolt 100a penetrating through the 30 and the nut 101a fastened to the bolt 100a, thereby connecting the connecting member 3 to the medium. Thus, the vertical frame 1 and the horizontal frame 2 are maintained in a coupled state.

Meanwhile, the horizontal frame 2b is inserted into the space between the fixed ends 11 of the vertical frame 1a and fastened by the bolt 100b and the nut 101b.

7 and 8 show the coupling state of the wall portion (B).

The state in which the vertical frame 1 and the horizontal frame 2 are coupled to each other by the connecting member 3 will be described in detail with reference to the drawings. 1c is the bolt 100b and the bolt 100b penetrating the fastening holes 12 and 30 through the connecting member 3a in the space between the two bases 10 while the base 10 faces each other. Both vertical frames 1b and 1c and the connecting member 3a are coupled to each other by a nut 101b fastened thereto.

At this time, one side of the connecting member (3a) is exposed to the side of the vertical frame (1b, 1c), the fastening hole 22 of the horizontal frame (2c, 2d) to the end (D) of the connecting member (3a) is exposed in this way The bolt 100c and the nut 101c are fastened to the fastening hole 30 of the connection member 3a.

That is, two horizontal frames (2b, 2c) is a set of two fastening holes through the end (D) of the connecting member (3a) exposed to the space between the two base 20 in the state that the base 20 is facing each other Both horizontal frames 2b and 2c and the connecting member 3a are joined by the bolt 100c penetrating the 22 and 30 and the nut 101c fastened to the bolt 100c, thereby connecting the connecting member 3a. ), The vertical frames 1b and 1c and the horizontal frames 2c and 2d are coupled to each other.

On the other hand, in the space between the fixed ends 11 of the vertical frames 1b and 1c, horizontal frames 2d and 2e are inserted and fastened to the bolt 100d and the bolt 100d passing through the fastening holes 13 and 23. The vertical frame 1b, 1c and the horizontal frame 2d, 2e are coupled by the nut 101d. <Step 1, S1>

This frame structure is a vertical frame (1, 1a, 1b, 1c) is installed at an appropriate interval between the corner portion and the corner portion of the building, the horizontal frame (2, 2a, 2b, 2c, 2d, 2e) is a vertical frame It is possible to complete a frame having a roof shape while maintaining the standing conditions of (1, 1a, 1b, 1c).

The horizontal frame 2 is installed in multiple stages at appropriate intervals as in a conventional frame structure, so that the window frame and the door can be configured.

The support member 4 is formed with an extended portion 41 formed side by side from both ends of the base 40 and a fixed end portion 42 formed by bending in a direction parallel to the base 40 from the extended portion 41. It is.

In the base 40, fastening holes 43 to which fasteners, such as screws 102 are fastened, are continuously formed at regular intervals in order to fix the exterior material 5, and the fixed end 42 has the vertical frame. Fastening holes 44 to which fasteners such as bolts 100c and nuts 101c are fastened so as to be coupled to (1) and the horizontal frame 2 are continuously formed at regular intervals.

The support member 4 is inserted between the fixed end 11 of the vertical frame 1, and both ends thereof are fixed to the bolt 100d and the nut 101d, and the bolt 100e and the nut ( It is possible to install the exterior member 5 which is fixed to 101e) and constitutes the wall surface.

In the example illustrated in the drawings, the supporting member 4 constituting the wall is fixed in a horizontal state, but may also be fixed in a vertical state.

In addition, the support member 4 is fixed to the fastening hole 23 of the fixed end portion 21 in the upper and lower portions of the horizontal frame (2) by bolts and nuts to be able to install the exterior material (5) constituting the floor and the slab. .

The exterior material 5 is fixed to the fastening hole 43 formed in the base 40 of the support member 4 fixed to the vertical frame 1 by screws 102 to form a wall, and the horizontal frame 2 The screw 102a is fixed to the fastening hole 43 formed in the support member 4 which is fixed to the bottom surface, and thus the floor and the slab can be configured.

The exterior member 6 is fixed to the support member 4 to form a mold for filling the thermal insulator 6, and forms an inlet 50 through which the thermal insulator 5 is inserted. <Step 2, S2>

When the installation of the exterior material 5 is completed in this way, various plumbing and electrical wiring works including water and sewage and air conditioning facilities are performed.

Although not shown in the drawings, such facility construction is combined by fixing means that are suitably provided for each facility structure in the space in which the exterior material 5 is installed.

Insulating material 6 is injected into the inner space formed by the exterior material 5 in the modular structure in which the piping and wiring facilities are completed. In order to prevent leakage of the insulating material 6, sealing work is performed before the thermal insulation material 6 is introduced. Will perform.

The sealing construction is made with respect to the space between the contact of the exterior material 5 and the clearance between the vertical frame 1 and the finishing cap 8 inserted into the end of the horizontal frame 2. <Fourth Step, S4>

In the module structure in which the sealing is made, the heat insulating material 6 is injected through the inlet 50 formed on the upper portion. <Step 5, S5>

The heat insulating material 6 may be applied ocher, concrete, lightweight foamed concrete, other ceramic materials, preferably foamed urethane, in which porous bodies such as rice straw and styropol grains are mixed.

The insulator 6 to be injected is a space between the vertical frame 1 and the horizontal frame 2 and the fastening holes 12, 13, 22, 23, which serve as the insulator discharge holes in the space formed by the exterior member 5. Through the 30, 44 may be evenly distributed in the space formed by the packaging material (5).

The module structure into which the heat insulating material 6 is injected is foamed or solidified by a heating means such as an oven or a heating furnace.

By the foaming and solidification of the heat insulating material, the heat insulating material 6 is firmly fixed to the piping and wiring fixtures while filling the internal space constituting the wall and the floor and ceiling slab by the exterior material (5).

Insulation including foamed polyurethane is inexpensive, has excellent insulation and satisfactory strength, and it is possible to maintain the installation of the internal installations firmly, thus making it very convenient to fix the installations.

When the heat insulating material 6 is solidified, the inlet 50 is removed and leaks to the outside to cut and remove the exposed heat insulating material.

The module structure in which the heat insulating material 6 is solidified is completed by constructing windows and doors. <Seventh Step S7> The surface of the external material 5 may be provided with various types of heat insulating material or finishing materials as usual. .

Before the heat insulator 6 is introduced in the manufacturing process of the module structure, the foundation work by the concrete structure 9 as shown in FIG. 10 may be selectively performed.

Such foundation works are suitable when the module structure of the present invention is provided in the form of an extensive building, and may be omitted when applied as a prefabricated module to a multi-storey building.

1: vertical frame 2: horizontal frame
3: connecting member 4: supporting member
5: exterior material 6: insulation material
7: fixing piece 8: closing cap
9: concrete structure 10: base
11: fixed end 12, 13: fastening hole
20: donation 21: fixed end
22, 23 fastener 40: donation
41: extension part 42: fixed end
43, 44 fasteners

Claims (5)

A first step of installing a framework of a modular structure having an intended building shape by using a horizontal frame, a vertical frame, and a supporting member provided with an insulation material inlet and an insulation material discharge hole;
A second step of installing an outer wall, a slab, and a floor having a space structure in which windows and doors are installed by finishing materials in the framework of the module structure completed by the first step;
A third step of constructing plumbing facilities for electric wiring, water and sewage, and heating and cooling facilities in the module structure according to the second step;
A fourth step of sealing a gap between the outer wall, the slab, and the bottom connection part constructed by the second and third steps;
A fifth step of injecting the insulating material into the module structure according to the fourth step through the insulating material inlet formed by the first step;
A sixth step of solidifying the insulating material injected into the module structure in the fifth step;
Method of manufacturing a modular mobile building having a thermal insulation structure characterized in that provided in the building completed to be movable, including the seventh step of constructing windows and doors to the module structure in which the insulation is solidified by the sixth step. .
2. The method of claim 1, further comprising a foundation concrete work between the first step of installing the framework of the building shape and the fifth step of injecting the insulation. Way.
The method of claim 1, wherein the method of solidifying the heat insulating material is selected from a method in which the module structure is heated in a heating furnace at a predetermined temperature or higher, or dried in a natural dry state. Method of manufacturing a modular mobile building having a thermal insulation structure.
A vertical frame in which fastening holes for fastening fasteners, such as bolts and nuts, are fastened to a first fixed end formed side by side from both ends of the first base and are continuously formed at regular intervals;
A connecting member for engaging the horizontal frame through the contact surface of the first base on which the vertical frame is placed facing each other;
Fasteners, such as bolts and nuts, having a second fixed end formed side by side from both ends of the second base so as to be coupled to the vertical frame and inserted into a space formed between the first fixed end of the horizontal frame. A fastening hole to which the fastening holes are continuously formed at regular intervals and selectively coupled to the horizontal frame and the connection member;
A support member coupled to the horizontal frame by successively forming fastening holes for fastening fasteners such as bolts and nuts to be coupled to the horizontal frame at regular intervals;
Modular mobile building having a heat insulating structure, characterized in that it comprises a sheath fixed to the support member to form a form for filling the heat insulating material to form a space into which the heat insulating material is put in the upper portion.
5. The modular mobile building of claim 4 wherein the thermal insulator is any one selected from foamable synthetic polymers, ceramics, and loess.

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