KR20050049015A - Prefebrication module and building method thereby - Google Patents

Abstract

The present invention provides a method for constructing a multi-storey building on a site separately prepared using a building module, the module manufacturing step of manufacturing a standardized building module for each residential function in a dedicated factory; A design step of designing a building in consideration of an area of the building module and the site; A foundation construction step of laying the ground and establishing a foundation on which the building module is to be installed; A transport step of transporting the building module to the site; An assembly step of placing the building module on the foundation; And a finishing step of installing a roof to prevent rainfall on the building module. According to this construction method, a new building can be completed quickly by using a building module manufactured for each use.

Description

Prefabricated building module and construction method using same {PREFEBRICATION MODULE AND BUILDING METHOD THEREBY}

The present invention relates to a construction method for constructing and building a building using a prefabricated building module, and more particularly, to a prefabricated building module and a construction method using the same by using a building module standardized for each residential function. It is about.

Container houses are often used as temporary housing for workers in construction sites. Such a temporary building does not need a separate construction has the advantage of low installation cost. Recently, many buildings have been built using containers in the medium and long term. 1 shows a multi-story structure made using a container. Each layer consists of a plurality of containers 100 arranged horizontally. Doors 110 are formed at both sides of the container 100, and the doors 110 are connected to the doors 110 of the container 100 arranged on the left and right sides. Therefore, even if the plurality of containers 100 are arranged horizontally, it is possible to enter and exit the inner container 100 through the doorway 110 of the container 100 located outside. On the container 100 arranged as described above, a plurality of containers 100 are arranged again to form another layer. The entrance 110 of the upper container 100 is provided with a staircase connected to the ground.

Container 100 is made of steel finish has a heavy weight. Therefore, even if another container 100 is placed on the container 100, the stability of the structure is maintained to some extent by the weight of the container 100, but is very vulnerable to natural disasters such as strong winds and earthquakes. Recently, in order to solve such drawbacks, the container 100 is stacked up and down using a means such as a wire or a clamp. However, such a means is connected to the container 100 arranged up and down or left and right without structural review, the stability of the building is poor.

The present invention is to solve the above problems, and to provide a prefabricated building module with improved assembly and functionality.

In addition, an object of the present invention is to provide a prefabricated building module for building a building with improved durability and convenience using the prefabricated building module and a construction method using the same.

According to an aspect of the present invention, a method for constructing a multi-storey building on a site separately prepared using a building module, comprising: a module manufacturing step of manufacturing a standardized building module for each residential function in a dedicated factory; A design step of designing a building in consideration of an area of the building module and the site; A foundation construction step of laying the ground and establishing a foundation on which the building module is to be installed; A transport step of transporting the building module to the site; An assembly step of placing the building module on the foundation; And it provides a building construction method using a prefabricated building module comprising a finishing step of covering the roof to prevent rain on the building module.

According to another aspect of the present invention, a prefabricated building module manufactured in a factory and stacked in the field to form a building, comprising: a pillar having a long hole for supporting vertical loads and having a worker's hand at both ends; A connecting plate member coupled to both ends of the pillar and having a plurality of coupling holes formed therein; Beams installed horizontally in upper and lower portions of the pillars to connect the pillars to the pillars; A joist arranged and coupled between the beam in a vertical or horizontal direction; And a pipe passage formed in the joist so that various pipes can communicate with each other.

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

2 is a block diagram showing a building construction step according to an embodiment of the present invention.

The first step (S10) is a step of manufacturing the building module. The building module is a very important part of the building. Therefore, the building module is manufactured considering the following matters.

First, make field work to a minimum. The reason for using prefabricated building modules is most often to meet tight air. Therefore, the building module should be equipped with basic facilities to be a part of the building by simple assembly work in the field. For example, electrical wiring, water and sewage pipes, window frames and door frames.

Second, various building modules are manufactured according to the purpose and characteristics. Buildings have different interior and exterior materials depending on their parts. For example, in a school building, classrooms where students sit and study at all times require air conditioning and heating piping, but corridors and stairs that are simply used as passageways do not need heating and cooling piping. In addition, the toilet requires water and sewage piping, but does not need a classroom or a corridor. Therefore, when manufacturing the building module, it is necessary to manufacture the building module in consideration of these characteristics of the building.

The second step (S20) is the step of designing the building to be constructed. Once the site to be built and the purpose of the building are determined, the building is designed considering the size and shape of the building module.

The third step (S30) is the step of laying the foundation of the site to be built. After the architectural design, the groundwork of the site is based on this. The foundation work is the same as the usual building method. However, anchor bolts should be installed on the foundation so that the building module can be firmly fixed to the foundation. Anchor bolts should be installed considering the installation location of the building module.

The fourth step (S40) is a step of transporting the building module required for building construction from the dedicated factory to the site. The building module is manufactured at a dedicated factory, not at the construction site. Therefore, after the architectural design and foundation work, purchase the necessary module for the dedicated factory and transport it to the construction site. The transportation means uses a conventional transportation vehicle, and the transportation time uses a night time with less movement of the vehicle.

The fifth step (S50) is a step of constructing a building using a building module carried in a dedicated factory. When the building module manufactured in the dedicated factory is transported, the building module is placed in the corresponding position by using a crane. After the construction of the building module is completed, the building module is fastened to the anchor bolt and fixed to the foundation. At this time, the height of the building module is adjusted by inserting a washer and the like to the anchor bolt so as to be horizontal with other building modules arranged on the left and right.

Meanwhile, to increase the number of floors of a building, another building module may be continuously stacked on top of an already installed building module. The upper module and the lower module are connected by using fastening means such as bolts. At this time, the coupling between the modules is made up, down, left and right.

The sixth step (S60) is a step of covering the roof on the building made of building modules. Most of the building modules are finished with interior and exterior materials, so there is no big problem in waterproofing and heat insulation. However, the part where the building module and the module are joined is relatively weak, so it is better to cover the roof. Roof construction uses general building members or specially manufactured roof modules. In addition, by performing a separate exterior construction on the outer wall of the completed module can be decorated with the surrounding landscape of the exterior of the building.

On the other hand, conventionally, a container was used as a prefabricated building module. However, containers were originally designed for the safe storage of goods, making them unsuitable for building use. Therefore, in the present invention, the building module is newly manufactured. Building module according to the present invention is produced in the order of fabrication, frame assembly, panel assembly and interior and exterior materials assembly.

Figure 3 shows a frame structure according to an embodiment of the building module used in the present invention, Figure 4 shows the coupling of the exterior material to the building module shown in Figure 3, Figure 5 is the building shown in Figure 3 The process of building a building using modules is shown.

The building module 200 has a rectangular shape similar to a conventional container. Columns 210 are installed at four corners and both points of the building module 200, and beams 220 are installed above and below each column 210. A plurality of joists 230 are installed in the horizontal direction between the beams 220 and the beams 220 to form the bottom of the structure and the ceiling frame. In addition, on the side of the building module 200 several reinforcing members 240 are installed horizontally or vertically to form a wall frame.

The pillar 210 of the building module 200 is a square steel pipe. Long holes 211 are formed at both ends of the pillars 210, and connecting plates 300 are coupled to both ends of the pillars 210. The connecting plate 300 is a member provided to couple the building module 200 and the building module 200. The connecting plate 300 is formed with a plurality of coupling holes 301 for fastening bolts. The long hole 211 of the pillar 210 is formed for the convenience of the operator according to such a bolting operation, is a kind of passage provided so that the operator can use a tool such as a spanner for bolting. Therefore, the size of the long hole 211 is enough that the hands of the tool and the operator can be entered. On the other hand, when transporting the building module 200 with a crane to fasten the eye bolt to the coupling hole 301 of the connecting plate member 300 so that the wire connection is easily made.

As the joist 230, which forms the floor and the ceiling frame, 'c' section steel is used. On the vertical surface of the joist 230, a plurality of pipe passages 231 are formed in the longitudinal direction of the joist 230. The pipe passage 231 is provided with a heating pipe, a water and sewage pipe, or an electric wire. Bottom and top of the joist 230 is attached to the flooring. The reinforcing member 240 is installed on the side of the building module 200. The reinforcing member 240 forms a wall frame, a window and a door frame. Insulation is installed in the space between the reinforcing members 240, and the front and back wall plate such as gypsum board is attached.

When the insulation, wall plate, flooring, windows, etc. are attached to the frame structure, it becomes a module as shown in FIG. 4 is a classroom corridor module 400 of a school building, the wide side of which is the classroom portion and the narrow side is the hallway portion. When the classroom corridor module 400 is coupled in plurality in the width direction, it forms one classroom. On the other hand, some of the classroom corridor module 400 is formed with a wall surface in the width direction. Therefore, by mixing and arranging the classroom corridor module 400 having a wall surface in the width direction and the module 400 having no wall surface, an architectural structure consisting of separate classrooms and corridors can be obtained. At this time, by adjusting the mixing ratio, the size of the classroom can be adjusted. 5 shows that the classroom corridor module 400 is arranged long in the width direction, each classroom corridor module 400 is installed on a fixed plate 500 installed on the foundation. In the present embodiment, three modules 400 constitute one classroom, and a plumbing hole 410 is formed on an upper portion of the classroom corridor module 400 disposed among them. The plumber 410 is provided for various piping of the ceiling-mounted air conditioner is installed on the ceiling of the classroom.

On the other hand, the frame structure and module described above is an example of a classroom corridor module for school building. Therefore, the basic frame structure is not a big difference, but some structures, including interior materials may be changed depending on the purpose and module of the building.

According to the present invention, the construction period can be shortened because the building is constructed using a building module manufactured according to the specification in a dedicated factory. In addition, since most of the interior and exterior construction of the building module is made in the factory, it is possible to keep the construction site surroundings clean.

The technical idea of the prefabricated building module and the construction method using the same has been described above with the accompanying drawings, but the exemplary embodiments of the present invention have been described by way of example and are not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1 shows a conventional prefabricated building using a container,

Figure 2 is a block diagram showing the building construction step according to an embodiment of the present invention,

Figure 3 illustrates a skeleton structure according to an embodiment of a building module used in the present invention,

4 is a view showing a combination of the exterior member to the building module shown in FIG.

FIG. 5 illustrates a process of building a building using the building module shown in FIG. 3.

<Description of Symbols for Major Parts of Drawings>

200: building module 210: pillar

220: Bo 230: Joist

240: reinforcing member 300: connecting plate

Claims (4)

As a method of constructing a multi-storey building on a site separately prepared by using a building module, A module manufacturing step of manufacturing a standardized building module for each residential function in a dedicated factory; A design step of designing a building in consideration of an area of the building module and the site; A foundation construction step of laying the ground and establishing a foundation on which the building module is to be installed; A transport step of transporting the building module to the site; An assembly step of placing the building module on the foundation; And Building construction method using a prefabricated building module comprising a finishing step of covering the roof to prevent rain on the building module. The building construction method using prefabricated building module according to claim 1, further comprising an expansion step of stacking the building module by stacking another building module on the building module arranged in the building step. It is a prefabricated building module that is manufactured at the factory and laminated at the site to form a building A pillar having a long hole for supporting a vertical load and having a worker's hand in and out at both ends thereof; A connecting plate member coupled to both ends of the pillar and having a plurality of coupling holes formed therein; Beams installed horizontally in upper and lower portions of the pillars to connect the pillars to the pillars; A joist arranged and coupled between the beam in a vertical or horizontal direction; And Prefabricated building module comprising a pipe passage formed in the joist so that various pipes can communicate. The prefabricated building module according to claim 3, wherein the joist is installed and coupled with a heat insulating material and a wall plate forming a wall and a bottom.