KR101437083B1 - Method for constructing steel structure building with easy assembly - Google Patents

Abstract

The present invention relates to a method for efficiently constructing a steel-structured building. Brackets are engaged to the top surface of an angled pipe at regular intervals to prefabricate a base frame, and brackets are engaged to both sides at regular intervals to prefabricate a floor frame, so that the frames are transferred to an installation location. A lower portion of a column is vertically connected to the bracket of the base frame, and an upper portion of the column and the floor frame are connected to by a bracket. Connection angled-pipes, deck plates or roof trusts are connected to the floor frame to construct the building of a steel structure. Only members prefabricated and then transferred to the site can be easily assembled to construct the building.

Description

[0001] METHOD FOR CONSTRUCTION STEEL STRUCTURE BUILDING WITH EASY ASSEMBLY [0002]

The present invention relates to a method of constructing a building. More particularly, the present invention relates to a method of constructing a building, in which a base frame is manufactured by joining brackets to a top surface of each tube at regular intervals, To connect the lower part of the column vertically to the bracket of the foundation frame, to connect the upper part of the column and the floor frame to the bracket, to construct the structure of the steel structure by connecting the connection pipe or deck plate or roof truss to the floor frame The present invention relates to a method of constructing a steel structure that can be easily assembled by simply assembling even a member that is manufactured and transported to a site, thereby making it possible to construct a stable building.

Generally, a building is a space composed of a roof, a pillar or a wall.

Technically, bases, pillars or walls, upper floors (slabs) or roofs (flat roofs, sloped roofs) should be structurally and stably connected. Stable buildings are constructed of pillars or walls to resist the horizontal load (fixed load, load load) and external force (wind pressure, earthquake, etc.) ), It is a structure free from deformation.

In the existing construction method, it is generally required to install and complete many processes by skilled workers with the skill in the field condition, and the quality and the cost are increased due to the need of a lot of labor and skill.

As an alternative, the development of modular buildings such as domestic patent registration 10-0643075 and 10-0705697 is actively developed.

This modular construction method is an advanced construction method that is installed in the field by predicting the basic frame of weatherproof steel more than 80%.

It is a way to build a building like a container by prefabricating a steel frame structure at a factory. This construction method is able to secure the quality of the building and shorten the construction time, and it can be easily moved or reused, which is considered to be highly competitive in terms of construction quality, economical efficiency and environmental friendliness compared to the previous construction method.

The greatest strength of modular construction method is construction period and economical efficiency. The construction period can be reduced to one-third, and the cost of construction can be dramatically reduced, and reuse is possible, which is excellent in economy.

In addition, it minimizes waste generation by minimizing field work and minimizes noise and dust on site.

In the modular method, a steel pipe column and a C-shaped steel beam are rigidly joined and a composite or PC bottom plate is inserted into a C-shaped steel web.

However, since the existing modular construction method is made with modules separated by the limitation of the moving means, it is necessary to install the module through the hard assembling work, There is a problem that it is insufficient to fill the demand of the consumer.

Domestic patent registration 10-0643075 Domestic Patent Registration No. 10-0705697

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a floor frame by assembling brackets at predetermined intervals on a top surface of each tube, To connect the lower part of the column to the bracket of the foundation frame vertically, to connect the upper part of the column and the floor frame to the bracket and to connect the other side of the floor frame to the connection pipe or deck plate or roof truss, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method of constructing a steel structure that can be easily assembled by simply assembling the members that are manufactured and transported on site.

According to an aspect of the present invention,

A method of constructing a structure for a steel structure, the method comprising: a frame making step of manufacturing a base frame by joining brackets to an upper surface of each pipe at a predetermined interval in a factory to produce a base frame; A transporting step of transporting the manufactured base frame and the bottom frame to the site; A foundation placing step of placing a mat foundation or an independent foundation on a surface of the building where the building is to be installed, fixing the anchor to the reinforcing bars, and fixing the base plate to the anchor so that the base plate is exposed at the top edge; A base frame mounting step of mounting the base frame to the base plate by bolting when the base is cured; A column installation step of connecting the lower part of the column to the bracket located on the upper surface of the foundation frame; A bottom mold installing step of assembling and fixing the bottom mold to the top of the column by lifting the bottom mold; And an upper layer assembling process for assembling a connecting pipe, a deck plate or a roof truss to the other side of the bottom frame to complete an upper layer.

Here, the bottom frame is formed by joining the brackets at regular intervals to both side surfaces of the respective pipes when the connecting pipe is installed, and when the deck plate is installed, the bottom plate is formed by bending an iron plate in an L- When the truss is installed, its cross-sectional shape is formed in a triangular shape, and the brackets are formed at one side of the trusses at regular intervals.

In this case, the bracket is formed in a diagonal shape, and bolt holes are formed on both sides, so that the base frame and the bottom frame are coupled to each other so as to face the horizontal plane.

Here, OBS plywood or a sandwich panel is attached to the inner side or outer side of the column, the connecting pipe and the roof truss to form a wall, a roof, and a roof.

In this case, in the step of installing the column and the step of installing the bottom frame, all of the columns are installed, and then the wall is provided on each column so that the entirety of the bottom frame is lifted. Alternatively, Or partially lifted and installed on the column, and then the remaining column is installed.

Here, the bottom frame may be formed in one or more layers by arranging the bottom frame at regular intervals on the pillars.

According to the method for constructing a steel structure, which is easy to assemble as described above, the method of constructing the steel structure of the present invention having the above-described structure is advantageous in that the steel structure, which is an advantage of steel structure, It is possible to construct a stable building by simply assembling the members manufactured by assembling them and transporting them to the site.

FIG. 1 is a perspective view illustrating an example of a building constructed by a method of constructing a steel structure for easy assembly according to the present invention.
2 is a perspective view showing the construction of a foundation frame applied to a method of constructing a steel structure according to the present invention.
3A to 3C are perspective views illustrating the construction of a floor frame applied to a method of constructing a steel structure for easy assembly according to the present invention.
4 to 8C are process explanatory diagrams for explaining a method of constructing a steel structure according to the present invention.

Hereinafter, a method of constructing a steel structure for easy assembly according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

FIG. 1 is a perspective view illustrating an example of a structure manufactured by a method of constructing a steel structure structure that is easy to assemble according to the present invention, FIG. 2 is a view illustrating a structure of a foundation frame applied to a steel structure construction method, 3A to 3C are perspective views showing the construction of a floor frame applied to a method of constructing a steel structure for easy assembly according to the present invention, and FIGS. 4 to 8C are views showing a method of constructing a steel structure Fig.

Referring to FIGS. 1 to 8C, a method of constructing a steel structure for easy assembly according to the present invention includes a mold making step S100, a conveying step S110, a foundation casting step S120, S130), a column installation step S140, a bottom mold installation step S150, and an upper layer assembly step S160.

"Frame making process-S100"

First, as shown in FIG. 2, a bracket 10 is fixed at an interval to a top surface of a rectangular pipe having a rectangular cross section according to the size of the building 1 at a factory, And a bottom frame 30 serving as a frame bar is manufactured. 3A, when the connection pipe 40 is installed to form the bottom of the OBS plywood or the sandwich panel 7, the bracket 10 is connected to both sides of each pipe at regular intervals 3B, when the deck plate 50 is installed to pour the concrete into the upper layer, the steel plate is formed by bending the L-shaped plate and then the brackets 10 are coupled to the vertical plane at regular intervals When the roof truss 60 is installed as shown in FIG. 3C, the cross-sectional shape of the roof truss 60 is formed in a triangular shape, and the brackets 10 are formed at one side of the roof truss 60 at regular intervals.

Then, the connecting pipe 40, the deck plate 50, the roof truss 60, and the column 70 are manufactured to fit the size of the building 1, and bolt holes are formed in the bolt mounting positions, respectively.

At this time, the foundation frame 20 and the floor frame 30 are formed in a frame shape corresponding to the size in the factory, or the respective members are transferred to the site to be combined with each other on the site to form a frame shape, If not possible, it may be split into transportable sizes and combined on site.

A bolt hole 11 is formed on both sides of the base frame 20 and the bottom frame 30 to form a horizontal plane Respectively. At this time, it is preferable that the bracket 10 is coupled by a welding or bolt method.

&Quot; Carrying process-S110 "

Then, the manufactured base frame 20 and the bottom frame 30 are transported to the site.

"Foundation casting process-S120"

3, the foundation B is laid on the ground surface on which the building 1 is to be installed, the anchor 3 is fixed to the reinforcing bars (not shown), the base plate 5 is fixed to the anchor 3, And the base plate 5 is exposed to the top edge corner to cure. At this time, as a base (B), a mat foundation may be applied as shown in the drawing, or an independent basis may be applied.

&Quot; Foundation frame installation process-S 130 "

When the curing of the base B is completed, the foundation frame 20 carried by the anchor 3 protruding from the base plate 5 of the base B is bolted.

&Quot; Column installation process-S140 "

6, the lower portion of the column 70 is vertically inserted into the bracket 10 located on the upper surface of the foundation frame 20, and the bolts are fixedly installed do. At this time, the wall may be formed by attaching an OBS plywood or sandwich panel 7 to the inner and outer sides of the column 70, or a heat insulating material (not shown) may be formed inside the wall to insulate the wall when the OBS plywood is applied It can also be inserted. At this time, when all the columns 70 are installed, the column 70 may be provided with a barrier wall (not shown), or only a part of the columns may be provided.

&Quot; Floor frame installation process-S 150 "

When the column 70 is installed, the bottom frame 30 is lifted and installed on the column 70 so that the load of the upper layer can be efficiently dispersed.

In this case, in order to form the OBS laminate or the sandwich panel 7 as the upper layer floor, the floor panel 30 provided with the brackets 10 is lifted as shown in FIG. 7A The bracket 10 and the column 70, which are coupled to one side of the bottom frame 30, are bolted to the upper portion of the column 70. When the deck plate 50 is installed to form the upper floor as concrete, the bottom frame 30 bent in an L shape is lifted as shown in FIG. 7B, The bracket 10 and the column 70, which are coupled to one side of the bracket 30, are bolted together. When the roof truss 60 is installed to form the upper layer directly on the inclined roof, the bottom frame 30 having a triangular cross-sectional shape is lifted as shown in FIG. 7C, The bracket 10 and the column 70 coupled to one side of the bracket 30 are bolted together.

The bottom frame 30 may be coupled to the column 70 by lifting the bottom frame 30 integrally formed with the columns 70. When the column 70 is formed with only some pillars, It is also possible to integrate the separated bottom frame 30 after installing the remaining pillars.

In addition, the bottom frame 30 may be formed on the pillars 70 at regular intervals to form one or more upper layers.

&Quot; Upper layer assembly process-S160 "

When the installation of the floor frame 30 is completed, the connection pipe 60 or the deck plate 50 or the roof truss 60 is assembled to the floor frame 30 to complete the upper layer.

8A, when the connecting pipe 40 is installed to form the OBS plywood or the sandwich panel 7, the bottom frame 30 provided with the brackets 10 is lifted up on both sides thereof The bracket 10 and the column 70 coupled to one side of the bottom frame 30 are bolted to the upper portion of the column 70 and then connected to the bracket 10 coupled to the other side of the bottom frame 30, (40). 8B, when the deck plate 50 is installed to form the upper layer floor as concrete, the L-shaped bent bottom frame 30 is lifted to form a floor frame (not shown) The bracket 10 and the column 70 connected to one side of the deck plate 30 are fixed by bolts and then the deck plate 50 is fixed to the bottom frame 30. As shown in FIG. 8C, when the roof truss 60 is installed to form the upper layer directly on the inclined roof, the bottom frame 30 having a triangular cross-sectional shape is lifted, A bracket 10 and a column 70 coupled to one side of the bottom frame 30 are bolted to the bracket 10 and a roof truss 60 is installed on the bracket 10 attached to one side of the bottom frame 30.

When the upper layer is formed of the OBS laminate or the sandwich panel 7 when the building 1 is formed in two or more layers, the OBS laminate or the sandwich panel 7 is attached after the connecting pipe 60 is installed, When a sloped roof is installed on the upper part of the upper layer, a triangular roof 30 is installed on the column, a roof truss 60 is assembled to the bracket 10 coupled to one side of the triangular roof 30 Attach the OBS plywood or sandwich panel (7).

On the contrary, in the case where the upper layer is to be formed of concrete when the building 1 is formed in two or more layers, the deck plate 50 is installed on the L-shaped bottom frame 30, When a sloped roof is installed on the upper part of the upper layer, concrete is installed and cured. In the case where a sloped roof is installed on the upper part of the upper layer, a triangular bottom frame 30 is installed on the column 70, The roof truss 60 is assembled and then the OBS plywood or sandwich panel 7 is attached. When a flat slab roof is provided on the upper part of the upper layer, a L-shaped bottom frame 30 is installed on the column 70, a deck plate 50 is installed on the bottom frame 30, It is cured by placing reinforced concrete and concrete on it.

In the case where the building 1 is formed as a single layer, a roof truss 60 may be provided on the upper layer in the above manner, and a sloped roof may be provided immediately or a deck plate 50 may be provided to provide a flat slab roof. At this time, if an OBS plywood is applied for heat insulation, a heat insulating material (not shown) may be inserted into the inside.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Although the present invention is applied to columns, frames, bases, connecting pipes, roof trusses, steel, it can be applied to wood, and is applicable to houses, small buildings, warehouses and the like.

1: Building 3: Anchor
5: Base plate 7: OBS laminate or sandwich panel
10: Bracket 20: Foundation frame
30: floor frame 40: connection pipe
50: Deck plate 60: Roof truss
70: Column B: Foundation

Claims (6)

In a construction method of a steel structure,
A bracket is formed on a top surface of each pipe in a factory, and brackets formed with bolt holes on both sides are assembled at regular intervals to form a base frame, and each of the bottom frames is formed, A mold making process to be combined to be in an interview;
A transporting step of transporting the manufactured base frame and the bottom frame to the site;
A foundation placing step of placing a mat foundation or an independent foundation on a surface of the building where the building is to be installed, fixing the anchor to the reinforcing bars, and fixing the base plate to the anchor so that the base plate is exposed at the top edge;
A base frame mounting step of mounting the base frame to the base plate by bolting when the base is cured;
A column installation step of connecting the lower part of the column to the bracket located on the upper surface of the foundation frame;
A step of assembling the bottom frame to the top of the column by lifting the bottom frame and fixing the bottom frame to the column at a predetermined interval to form one or more layers; And
And an upper layer assembling step of assembling a connecting pipe, a deck plate or a roof truss to the other side of the bottom frame to complete an upper layer,
In the column installation step and the bottom mold installation step,
After all the pillars have been installed, the entire bottom frame is lifted up by installing a curtain on each of the pillars. Alternatively, the bottom frame may be wholly or partially lifted while some pillars are installed, Wherein the steel structure is easily assembled. The method according to claim 1,
The floor frame,
When the connecting pipe is installed, the brackets are formed at both sides of the respective pipes at regular intervals. When the deck plate is installed, the steel plate is formed by bending in an L shape. When the roof truss is installed, Wherein the brackets are formed in a triangular shape and the brackets are joined to one side surface at regular intervals. delete The method according to claim 1,
On the inner side or outer side of the column, the connecting pipe and the roof truss,
An OBS plywood or a sandwich panel is attached to form a wall, an upper plate, and a roof. delete delete

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