KR20090116099A - Column supporting beam structure and iron frame construction using it - Google Patents

Abstract

PURPOSE: A column for supporting a beam structure of a high-rise building is provided to build a steel structure to an uppermost story by successively piling columns of each story. CONSTITUTION: A column for supporting a beam structure of a high-rise building comprises a ground floor column(1a) and an upper floor column(1b). The ground floor column is vertically installed on the floor of a footing concrete(100) formed on the ground. The ground floor column comprises a cylindrical body, a lower flange, a protrusion, an upper flange, an insertion hole, a plurality of reinforcing rib, and a plurality of beam connectors(2). An anchor bolt assembly hole is formed in the lower flange to be vertically fixed on the footing concrete. A fastening bolt assembly hole is formed on the upper flange to connect the upper floor column vertically. A beam structure is assembled on a plurality of beam connectors with a bolt and a rivet. The upper floor column is vertically connected to the upper end of the upper end of the ground floor column.

Description

Column supporting beam structure and iron frame construction using it}

The present invention relates to a column for supporting a beam structure of a high-rise building, and a steel structure construction method using the same. More specifically, the connection work with the beam structure constituting each beam of the high-rise building is easy and robust. For supporting beam structures of high-rise buildings consisting of a plurality of ground floor columns continuously connected vertically with a predetermined distance to the ground floor so as to be supported, and a plurality of upper column columns continuously connected vertically on the ground floor columns. The hydraulic jacks support the beam structure from the second floor to the highest floor while moving the roof structure one by one while the column and the hydraulic jacks connected to the top of each of the columns support the roof structure of the pre-assembled high-rise building. High-rise buildings that allow you to stack each column column in turn It relates to a method to build bone structure.

In general, high-rise buildings are constructed by constructing walls after constructing the skeleton of the building with steel structures, and the steel structures are formed of columns of H-beams and beams of I-beams. It consists of.

The conventional steel structure construction method is to build a first-level steel structure by connecting the column and the beam constituting the first floor in the ground floor in advance to build the basement layer in advance, and then to erect columns and connect the beams on the first layer steel structure described above. By constructing a two-story steel structure, the two-story steel structure is constructed on the first-level steel structure, and the steel structures of each layer are repeatedly assembled and assembled on the steel structure directly below. The steel structure of the highest level has been constructed.

However, the steel structure of the high-rise building as described above is a situation that many problems are exposed to the safety of the operator because the connection assembly work of each column column and the beam is made entirely by the operator's hand.

Because the columns or beams for constructing the steel structures of each floor of the high-rise building can be transported using tower cranes, but the connection assembly work of the columns and beams transported to each floor is purely made by the worker.

That is, in the case of steel structures constructed on the 2nd or 3rd floor, the connection and assembly work is performed at a height that is not so high, so that the worker is deeply stable and can safely and accurately perform the construction work of the steel structure. For example, the connection between the column and the beam on a steel structure with a height of four or more floors, which is dangerous to humans, is very dangerous. Therefore, the construction of the steel structure is slow and the worker works on the beam on a windy day. It becomes a difficult state, such as a problem that will not be able to build a steel structure at all.

Therefore, the inventor of the present invention has proposed the invention of the Patent Publication No. 0132550 to solve the problems of the prior art as described above, this prior invention is assembled after assembling the steel structure of the highest layer in the ground floor and then raised to the first floor height, and then It is a method of constructing steel structures of high-rise buildings by repeating assembling the steel structures of the floors corresponding to the lower floors of the top floor and raising the steel structures of the top floor and the lower floors to the first floor at the same time. Since the steel structure is connected and assembled on the ground floor, worker's safety can be secured. Also, as the assembly work is performed by connecting columns and beams on the ground floor, it is possible to quickly proceed with the construction of steel structure on each floor. It has the advantage of shortening, but it is built in turn on the ground floor Since the hydraulic lifting means that can safely raise the steel structure of each floor by one level at the same time has not been solved, the situation has not been practical to date.

The present invention has been proposed in order to solve the problems described in the prior art as described above, the piston rod on the top of each of a plurality of first-floor columns fixed vertically with a predetermined interval on the ground concrete built on the ground 1 The hydraulic jacks, which are installed at the height of each floor, are connected vertically one by one, and the roof structures of the high-rise buildings to be built on each hydraulic jack are pre-assembled and installed, and the hydraulic jacks vertically connected to the top of each of the first floor columns are installed. At the same time, the piston rod moves up and down, and the roof structure is moved to the first floor. Then, the second floor columns are vertically connected to the top of each of the first floor columns. Repeatedly assembling the three-layer column on top of each of the two-layer column while moving up The main purpose is to build a steel structure up to the high floor, and also to prevent wind and around the roof structure that is pre-assembled at the top of each hydraulic jack as a means to install a safety net to protect the worker It was invented for another purpose to safely perform the connection assembly work of the columns of each layer and the beam structures of each layer with confidence.

The present invention as a means for achieving the above object,

The column for supporting the beam structure forming the steel structure of the high-rise building,

A body formed in a cylindrical shape, a lower flange formed at a lower end of the body and fixed to an anchor bolt on the bottom of the base concrete, a protrusion extending from an upper end of the body and having a smaller diameter than the body, and the protrusion An insertion hole formed at the center of the upper flange, an upper flange formed at the upper end of the protrusion, a plurality of flat parts formed at an equilateral angle on all sides of the upper end of the body and a plurality of fastening bolts respectively attached to the flat parts. A ground bed column having a plurality of beam connecting holes formed to protrude to a predetermined length toward each side;

The lower body is formed in a cylindrical shape, the lower fitting portion protruding with a small diameter to the lower end of the body to be fitted into the insertion hole of the upper flange formed on the top of the protrusion of the ground layer column, fixedly attached to the upper end of the lower fitting portion A lower flange that is tightly assembled to the upper surface of the upper flange of the ground layer column, a protrusion extending from an upper end of the body and having a smaller diameter than the body, an insertion hole formed at the center of the protrusion, and an upper end of the protrusion. A plurality of beams formed to protrude in a predetermined length toward each of the upper flange to be formed, and a plurality of plane portions formed in an equilateral shape on all sides of the upper end of the body and a plurality of fastening bolts respectively attached to the plane portions. An upper column having a connection;

It consists of consisting of supporting the beam structures of each layer steel structure to form each layer of steel structure of the high-rise building.

In addition, a plurality of reinforcing ribs are formed on the outer periphery of the protrusions on the top of the body of each of the ground column and the upper column.

And, the steel structure construction method of the high-rise building using the ground column and the upper column,

A ground layer column installation step of fixing ground layer columns vertically at a plurality of positions such that predetermined intervals are maintained on the foundation concrete built on the ground;

In the above-mentioned ground column column installation step, a hydraulic jack configured to move the piston rod at one level corresponding to each of two or more floors of a high-rise building to be built on top of each of the above-ground columns is detachably attached to the upper flange of each of the above-ground columns. While assembling the bolts, the hydraulic flanges are bolted to the upper flange of the ground column so that the cylinder flange is attached to the end of the piston rod so that the cylinder body can be moved up to the first floor when the piston rod of the hydraulic jack appears. A hydraulic jack installation step of installing upside down;

A roof structure installation step of pre-assembling and installing the roof structure at the upper end of the cylinder body so that the roof structure of the high-rise building to be built is placed on the upper ends of the cylinder bodies of the hydraulic jacks installed upside down in the hydraulic jack installation step;

After the roof structure installation step is completed, each of the hydraulic jacks supporting the roof structure is operated simultaneously so that the tip of each piston rod appears in the state supported by the upper flange of each of the ground column columns. A hydraulic jack lifting step of moving the roof structure up and down by one level by the upward movement of the bodies;

In the hydraulic jack ascending step, the coupling flanges assembled on the upper flanges are sequentially separated by one of the hydraulic jacks in which the roof structure is raised and moved to the first floor by the emergence of the piston rods. Then, the piston rod is immersed in the ground layer column. Insert and connect the upper column between the upper flange of the upper flange and the connecting flange attached to the piston rod end of the hydraulic jack, and repeat the operation of connecting the upper column between each ground layer column and each hydraulic jack in which the piston rod is immersed. An upper column column assembly step;

After completing the upper column assembly step, as shown in the hydraulic jack ascending step, the piston rod emerges from the hydraulic jack and moves the roof structure to the first floor, and then the paston rod appears as in the upper column assembly step. The upper column stacking assembly step in which the connecting flanges attached to the end of the piston rod are separated from the upper assembly flanges of the upper column column one by one among the hydraulic jacks, the piston rod is immersed, and the new upper column is stacked and assembled. Wow;

When the roof structure is moved up to the highest floor height of the high-rise building by the repeated operation of the upper column stacking assembly step, the piston rods of the hydraulic jacks are immersed at the same time, and then one of the hydraulic jacks is sequentially turned on the upper column and the roof. Separating the structure, and inserting the uppermost column of the uppermost column in place to assemble and connect the uppermost upper column;

Characterized in that consisting of.

In addition, a circumferential portion of the roof structure which is pre-assembled and installed on the cylinder body upper end of each hydraulic jack is installed to surround the steel frame structure to prevent the wind while a safety construction structure to protect the worker is formed, the safety construction structure It is characterized by having an external upper and lower work benches.

In addition, the roof structure is characterized in that the plurality of internal upper and lower work benches are installed between the adjacent ground floor and the upper floor columns in all directions so that workers can work safely.

According to the present invention, after installing the roof structure of the high-rise building in advance on the top of the hydraulic jacks assembled upside down one by one on the top of each of the plurality of ground floor columns fixed vertically to maintain a predetermined distance to the ground floor, the piston of the hydraulic jacks It is possible to connect and assemble the columns of the steel structure sequentially from the ground floor to the highest floor by connecting rods one by one and raising the roof structure up and down by moving rods simultaneously. In particular, the hydraulic jacks only support the load of the roof structure, thereby providing an effect of smoothly moving the roof structure by one level. Also, the roof structure includes a safety hypothesis structure surrounding the steel structure. External workbench and The internal workbench is installed to provide the effect of safely assembling the steel structure at the internal and external workbench installed on the already built steel structure without any major obstacles in rainy or snowy weather.

A detailed embodiment of a steel structure construction method of a column and a high-rise building using the same for supporting a beam structure of a high-rise building according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a state diagram of the steel structure construction of a high-rise building for explaining the present invention, Figure 2 is a partially separated perspective view of the ground column of the present invention, Figure 3 is a perspective view of the upper column of the present invention, Figures 4 to 8 Step of constructing a steel structure of the high-rise building of the present invention, Figure 9 is an enlarged view of a portion "A" of Figure 4, Figure 10 is an enlarged cross-sectional view of a portion "B" of Figure 6, Figure 11 is an internal working table installation of the present invention The top view which shows the state is shown.

Reference numeral 1a denotes a ground column and 1b denotes an upper column.

The ground layer column 1a is fixedly installed vertically on the bottom of the foundation concrete 100 constructed on the ground, and the upper column 1b is vertically connected to the top of the ground layer color 1a and assembled upward. It is laminated and assembled continuously.

First, the ground bed column 1a will be described.

The ground layer column 1a is a body 11 formed in a cylindrical shape, a lower flange 12 formed to fix and attach to an anchor bolt (not shown) to the base concrete 100 at the lower end of the body, and the body The upper end of the (11) is formed of a smaller diameter than the body protruding upwards protruding upward 13, the upper flange 14 formed on the upper end of the protrusion 13 and the insertion formed in the center of the upper flange A plurality of reinforcing ribs 16 are formed between the ball 15 and the upper end of the body 11 and the upper flange 14 at regular intervals, and the predetermined intervals are formed at all sides of the upper end of the body 11. Each of the plurality of flat portions 17 formed as a plurality of beam connecting portions 2 fixedly attached by the plurality of fastening bolts 12 are formed to protrude to a predetermined length.

In the lower flange 12 of the ground layer column 1a, a plurality of anchor bolt assembly holes (not shown) for fixing the ground layer column 1a vertically to the foundation concrete 100 are formed, and also the ground layer column 1a. A plurality of fastening bolt assembly holes (not shown) are formed in the upper flange 14 of the) so that the upper column 1b can be vertically connected and assembled.

In addition, each of the plurality of beam connectors 2 connected to the top of the body 11 of the ground layer column 1a is assembled to the beam structures 3 made of I-shaped steel like bolts or rivets. Assemble using connection.

The beam structure is installed on the bottom of the foundation concrete 100 vertically at a position spaced apart at a predetermined interval vertically, and both beam connector (2) facing each other on the top of the ground layer columns (1a) adjacent to each other in the longitudinal direction If the assembly is connected to (3), the assembly of the steel structure of the first floor is completed.

Next, the upper column 1b will be described.

The upper column 1b is vertically connected to the top of the ground layer columns 1a constituting the first-layer steel structure assembled on Kichon concrete 100 to form a column of two-layer steel structure as well as from the second layer. Up to the top layer, each column constitutes a column of steel structure.

The upper column 1b has the same structure as that of the ground column 1a. Therefore, in describing the structure of the upper column 1b, the same components as the ground column 1a have the same name and the same reference numerals. It will be described using.

That is, the upper column 1b has a lower flange 12 formed at the lower end of the body, including a body 11 formed in a cylindrical shape like the ground column column 1a, and a small upper end of the body 11. A protrusion 13 extending in diameter, an upper flange 14 formed on the upper end of the protrusion, an insertion hole 15 formed in the center of the upper flange, and an isometric view on the outer circumference of the protrusion 13 It is provided with a plurality of beam connector (2) is assembled to the reinforcing rib 16 and the plurality of flat portion 17 formed at a predetermined interval on the upper end of the body (11) by fastening bolts 21 In addition, the upper column 1b is formed with a small diameter that is inserted into the upper insertion hole 15 at the center of the bottom of the lower flange 12 in order to securely assemble the connection with the ground column 1a. Lower fitting portion 18 and the lower body 11 described above The components of the lower flange plurality of reinforcement ribs 19 are welded to the conformal phases between 12 and further comprising.

The method of constructing a steel structure of a high-rise building using the ground column column 1a and the upper column column 1b configured as described above will be described in each step.

<Ground Layer Column Installation Steps>

This step is to install the ground floor columns (1a) in the longitudinal direction of the foundation concrete 100 in accordance with the design in order to build the steel structure of the high-rise building on the foundation concrete 100 built on the ground after the basement floor As the ground layer columns 1a, the lower flange 12 is fixedly installed by being screwed by a plurality of anchor bolts (not shown) embedded in the bottom of the foundation concrete 100.

Each ground layer column 1a fixedly installed on the Kichon concrete 100 at predetermined intervals as described above is formed of I-shaped steel on each of the two beam connecting ports 2 adjacent to each other in the longitudinal direction. When the both ends of the beam structures (3) are connected and assembled, a one-layer steel structure consisting of a ground layer column (1a) and a beam structure (3) is formed on the foundation concrete (100).

<Hydraulic Jack Installation Steps>

In this step, the hydraulic jacks 4 are installed upside down one by one on the upper flanges 14 of each of the plurality of ground column columns 1a to which each beam structure 3 of the first layer steel structure constructed in the above ground layer column installation step is connected. It's a step.

That is, the hydraulic jacks 4 are detachably attached to the upper flange 14 of the ground column 1a such that the connecting flange 43 attached to the tip of the piston rod 42 is in a state where the cylinder body 41 is turned upside down. It is installed in a state of being assembled by a plurality of assembly bolts (not shown) (see Fig. 9).

In addition, the hydraulic jacks 4 are configured in a standard (length) that allows the piston rod 42 to move in and out of a high-rise building.

<Roof Structure Installation Stage>

This step is the roof structure (5) on the top of the cylinder body 41 of each of the plurality of hydraulic jacks (4) installed upside down fixed to the upper flange (14) of the ground layer column (1a) of the first-layer steel structure in the hydraulic jack installation step It is a step of installing the prefabricated.

The roof structure (5) is made of the same structure as the roof of the high-rise building to be built, the cylinder body 41 of the hydraulic jacks (4) installed upside down on top of each of the ground floor columns (1a) of the first-level steel structure It is installed in a screwed state detachably by the assembly bolt (not shown) on the top (see Fig. 9).

In addition, the safety construction structure 51 surrounding the outer periphery of the steel structure is installed on the periphery of the roof structure (5), the safety construction structure 51 can safely perform all the work made in the outer structure of the steel structure. An outer upper working platform 52 is formed for the purpose.

In addition, the roof structure 5 includes a plurality of internal upper work platforms 54 for safely assembling the beam structure 3 connecting the upper layer columns 1b to be described later, including the ground layer color 1a previously installed. Is installed in a state of being suspended by a wire rope or a round bar or a pipe, and the upper upper working tables 54 are each ground layer column 1a and each upper column column that are installed to face each other at predetermined intervals. 1b) are located between them (see Fig. 11).

In addition, the outer upper working platform 52 and the plurality of inner upper working platforms 54 which are formed suspended from the roof structure 5 are lower than the height of the first floor downward from the roof structure 5 as shown in the drawing. Each beam connector formed at a position to protrude from the upper and lower portions of the body 11 of each of the ground layer color 1a and the upper column 1b installed above the outer and inner upper work benches 52 and 54 described above. It is possible to assemble the beam structure (3) in 2).

And each of the safety temporary structure 51, the outer upper working platform 52 and the plurality of inner upper working platform 54 is raised together with the roof structure 5 when the roof structure 5 is moved up by one floor height. Will move.

On the other hand, the roof structure (5) is provided with a hoist (6) is configured to safely and easily transport heavy objects, such as the upper column (1b), beam structure (3) made of I-shaped steel.

<Hydraulic Jack Rising Stage>

This step is a step of moving the roof structure 5 assembled on the upper end of the cylinder body 41 of the plurality of hydraulic jacks 4 installed upside down in the roof structure installation step by one level.

Simultaneously operating a plurality of hydraulic jacks 4 installed upside down in the upper flanges 14 of the ground column columns 1a of the first-layer steel structure will be present in the cylinder body 41 of each of the hydraulic jacks 4. The tip of the piston rods 42 are fixedly supported by the upper flange 14 of the ground column 1a, and the plurality of hydraulic jacks 4 have a force enough to lift the roof structure 5. .

Accordingly, when the hydraulic jacks 4 operate simultaneously and the piston rods 42 appear and operate, the cylinder bodies 41 of the hydraulic jacks 4 move upward, and the cylinder body 41 rises as described above. When the roof structure (5), which is installed on each top of them is also moved up, the length of the appearance of the piston rod 42 of each hydraulic jack (4) corresponds to the height of the first floor of the high-rise building. Therefore, when the piston rod 42 emergence operation of each of the hydraulic jacks 4 is completed, the roof structure 5 is moved up to the height of one floor, and also suspended from the roof structure 5. The safety temporary structure 51, the outer upper working platform 52, and the plurality of inner upper working platform 54, which are hypothesized in a state, are also moved up and down together with the roof structure 5. Thus, the roof structure 5 is raised by one floor. Statue When the outer, inner upper working platform 52, 54 is raised to a position higher than the ground column (1a), the outer, inner upper working table 52, 54, the upper column assembly step to be described later In the above, the assembly of the upper column 1b vertically installed on the ground column 1a cannot be performed.

Accordingly, the safety temporary structure 51 is operated in a state in which the hydraulic jacks 4 installed on the ground column 1a are operated to raise the outer and inner upper working tables 52 and 54 to one level together with the roof structure 5. By extending downward to install the external lower floor work platform 53, and additionally installing the internal lower floor work platform 55 under each of the plurality of internal upper floor work platforms 54, the workers can install the external upper and lower work benches 52 and 53. In the upper and lower working tables 54 and 55, the assembling work of the upper column 1b and the beam structure 3 can be safely performed (see FIG. 5).

<Upper column assembly step>

In this step, the hydraulic jacks 4 having the roof structure 5 raised to the first floor in the hydraulic jack ascending step are separated one by one from the upper flange 14 of each of the ground column 1a, and the upper column ( 1b) is assembled to the upper flange 14 of the ground column column 1a.

That is, as shown in FIG. 5, as the hydraulic jacks 4 simultaneously operate the piston rod 42, the cylinder bodies 41 which are moved upward raise the roof structure 5 to the first floor. In the present invention, even if one hydraulic jack 4 supporting the roof structure 5 is removed, the remaining hydraulic jacks 4 support the roof structure 5 safely.

Therefore, the operator disassembles the connecting flange 43 screwed to the upper flange 14 of the ground column 1a according to the order of the upper column assembly step by unscrewing, and then the piston rod 41 of the hydraulic jack 4. When the immersion operation is formed between the connecting flange 43 attached to the tip of the piston rod 41 and the upper flange 14 of the ground layer column (1a) is formed a space for inserting the upper column (1b) Accordingly, the lower flange 12 of the upper column 1b is inserted by inserting the lower fitting portion 18 of the upper column 1b into the insertion hole 15 formed at the center of the upper flange 14 of the ground column 1a. ) Is inserted into close contact with the upper surface of the upper flange 14 of the ground layer column 1a, while the upper flange of the upper column 1b into which the piston rod 42 is inserted below the hydraulic jack 4 into which it is immersed. 14 is a connecting plan attached to the tip of the piston rod 42 of the hydraulic jack (4) It will be inserted in a state in close contact with a bottom of 43.

In the above, the connecting flange 43 and the upper column column of the hydraulic jack 4 are inserted into the upper layer column 1b between the hydraulic jack 4 and the ground layer column 1a in which the piston rod 42 is immersed. When the upper flange 14 of 1b and the lower flange 12 of the upper column 1b and the upper flange 14 of the ground column 1a are screw-assembled with fastening bolts, the upper column 1b is the hydraulic jack 4 ) And firmly installed between the ground column (1a) is to securely support the roof structure (5).

As described above, the piston rod 42 of the upper flange 14 of the ground floor column 1a is based on the separation and assembly operation sequence among the hydraulic jacks 4 lifting the roof structure 5 to the first floor. After removing the connecting flange 43 attached to the tip, the piston rod 42 is immersed, and then the upper layer part 1b is inserted in the position (empty space by the immersion operation of the piston rod). The lower flange 12 of the column is connected to the upper flange 14 of the ground column 1a, and the upper flange 14 of the upper column 14 is repeatedly connected to the connecting flange 43 of the hydraulic jack 4 by repeating the operation. An upper column 1b is provided between each ground layer column 1a constituting the first-layer steel structure and each hydraulic jack 4 supporting the roof structure 5 (see FIG. 7).

On the other hand, the insertion and assembly work of the upper column (1b) between the ground layer column (1a) and the hydraulic jack (4) in which the piston rod 42 is immersed as described above between a plurality of internal upper and lower work tables (54, 55) Since it is made in the space formed between the operator can safely perform the assembly work of the upper column (1b) and the assembly of the beam structure (3) on each of the upper and lower workbench.

<Upper column stacking assembly step>

This step is the upper column (1b) by layer until the construction of the three-story steel structure after the construction of the two-story steel structure in the column assembly step of the upper layer to proceed to the construction of the steel structure of the highest layer It is a step of repeating the assembly step by step.

That is, as shown in FIG. 7, the coupling flange 43 of the hydraulic jack 4 is unscrewed and separated from the upper flange 14 of the upper column of the two-layer steel structure (denoted as “1b- ₁ ” for convenience). After the rod 42 is immersed in operation, a stack assembly is performed by inserting an upper column (denoted as "1b- ₂ " for convenience) between the upper column 1b _-1 and the hydraulic jack 4 of the two-layer steel structure. As described above, the upper column (1b- ₂ : typically "1b") that forms the three-layer steel structure on the upper column (1b- ₁ : typically "1b") of the two-layer steel structure is laminated and assembled. .

In addition, the upper layer columns (1b- ₂ ; typically "1b") to form a three-layer steel structure on all the upper column (1b- ₁ ) to form a two-layer steel structure as described above, three layers by stacking After the steel structure is constructed, all the upper column columns 1b that form the steel structure from the fourth floor to the lower layer below the top layer are stacked and assembled with the upper column columns 1b _-2 of the three-layer steel structure described above. It is to proceed repeatedly by layer to constitute the steel structure of each layer.

<Top Column Column Assembly Step>

In this step, the hydraulic jacks 4 supporting the roof structure 5 are separated in the state of moving up to the top layer in the upper column stacking assembly step, and the upper column 1b is assembled to assemble the steel structure up to the top floor of the high-rise building. This step is to complete the construction work.

That is, the hydraulic jack 4 of one of the plurality of hydraulic jacks 4 supporting the roof structure 5 as shown by an arrow in one side in FIG. 8 is separated and removed, and the upper column 1b in place. It is to build the upper column (1b) of the uppermost steel structure as a work to proceed by inserting the assembly in order in order.

As described above, the present invention simultaneously operates all hydraulic jacks 4 installed upside down on the respective ground layer columns 1a that form the one-story steel structure that is built on Kichon concrete 100, thereby making the roof structure 5 one. It is possible to build a steel frame structure of each layer in turn while increasing step by step height, in particular the present invention is a safety construction structure hypothesized around the roof structure (5) construction work of steel structure from the first floor to the highest floor Since the upper upper and lower work benches 52 and 53 formed in the 51 and the inner upper and lower work benches 54 and 55 installed in a state suspended between the columns, the upper column 1b and the beam structure are formed. In addition to being able to safely carry out the assembly work of (3), the roof structure (5) and the safety construction structure (51) is wrapped in the upper side of the steel structure, so in bad weather Since it prevents the rain and wind, the worker provides the advantages of safely proceeding to the construction of concrete, as well as the assembly of steel structures.

1 is a steel structure construction state diagram of a high-rise building for explaining the present invention.

2 is a partially separated perspective view of the ground bed column of the present invention.

Figure 3 is a perspective view of the upper column of the present invention.

Figure 4 to Figure 8 is a steel structure construction step of the high-rise building of the present invention.

9 is an enlarged view of a portion “A” of FIG. 4.

FIG. 10 is an enlarged cross-sectional view of part “B” of FIG. 6;

11 is a plan view showing an internal working table installation state of the present invention.

※ Explanation of code for main part of drawing

1a: ground column column 1b: upper column

11 body 12 lower flange

13: protrusion 14: upper flange

15: insertion hole 16, 19: reinforcing rib

17: flat portion 18: lower fitting portion

2: beam connector 3: beam structure

4: hydraulic jack 41: cylinder body

42: piston rod 43: connection flange

5: roof structure 51: safety construction structure

52,53: External upper and lower work bench 54,55: Internal upper and lower work bench

6: hoist 100: foundation concrete

Claims (5)

A body formed in a cylindrical shape, a lower flange formed at a lower end of the body and fixed to an anchor bolt on the bottom of the base concrete, a protrusion extending from an upper end of the body and having a smaller diameter than the body, and the protrusion An insertion hole formed at the center of the upper flange, an upper flange formed at the upper end of the protrusion, a plurality of flat parts formed at an equilateral angle on all sides of the upper end of the body and a plurality of fastening bolts respectively attached to the flat parts. A ground bed column having a plurality of beam connecting holes formed to protrude to a predetermined length toward each side; The lower body is formed in a cylindrical shape, the lower fitting portion protruding with a small diameter to the lower end of the body to be fitted into the insertion hole of the upper flange formed on the top of the protrusion of the ground layer column, fixedly attached to the upper end of the lower fitting portion A lower flange that is tightly assembled to the upper surface of the upper flange of the ground layer column, a protrusion extending from an upper end of the body and having a smaller diameter than the body, an insertion hole formed at the center of the protrusion, and an upper end of the protrusion. A plurality of beams formed to protrude in a predetermined length toward each of the upper flange to be formed, and a plurality of plane portions formed in an equilateral shape on all sides of the upper end of the body and a plurality of fastening bolts respectively attached to the plane portions. An upper column having a connection; Columns for supporting the beam structure of the high-rise building, characterized in that configured to build each layer steel structure of the high-rise building. The method of claim 1, A column for supporting the beam structure of the high-rise building, characterized in that a plurality of reinforcing ribs are formed on the outer periphery of the protrusion on the upper body of each of the ground column and the upper column. A ground layer column installation step of fixing ground layer columns vertically at a plurality of positions such that predetermined intervals are maintained on the foundation concrete built on the ground; In the above-mentioned ground column column installation step, a hydraulic jack configured to move the piston rod at one level corresponding to each of two or more floors of a high-rise building to be built on top of each of the above-ground columns is detachably attached to the upper flange of each of the above-ground columns. While assembling the bolts, the hydraulic flanges are bolted to the upper flange of the ground column so that the cylinder flange is attached to the end of the piston rod so that the cylinder body can be moved up to the first floor when the piston rod of the hydraulic jack appears. A hydraulic jack installation step of installing upside down; A roof structure installation step of pre-assembling and installing the roof structure at the upper end of the cylinder body so that the roof structure of the high-rise building to be built is placed on the upper ends of the cylinder bodies of the hydraulic jacks installed upside down in the hydraulic jack installation step; After the roof structure installation step is completed, each of the hydraulic jacks supporting the roof structure is operated simultaneously so that the tip of each piston rod appears in the state supported by the upper flange of each of the ground column columns. A hydraulic jack lifting step of moving the roof structure up and down by one level by the upward movement of the bodies; In the hydraulic jack ascending step, the coupling flanges assembled in the upper flanges are sequentially separated by one of the hydraulic jacks in which the roof structure is raised and moved to the first floor by the appearance of the piston rods, and then the piston rod is immersed in the ground layer column Insert and connect the upper column between the upper flange of the upper flange and the connecting flange attached to the piston rod end of the hydraulic jack, and repeat the operation of connecting the upper column between each ground layer column and each hydraulic jack in which the piston rod is immersed. An upper column column assembly step; After completing the upper column assembly step, as shown in the hydraulic jack ascending step, the piston rod emerges from the hydraulic jack and moves the roof structure to the first floor, and then the paston rod appears as in the upper column assembly step. The upper column stacking assembly step in which the connecting flanges attached to the end of the piston rod are separated from the upper assembly flanges of the upper column column one by one among the hydraulic jacks, the piston rod is immersed, and the new upper column is stacked and assembled. Wow; When the roof structure is moved up to the highest floor height of the high-rise building by the repetitive operation of the upper column stacking assembly step, the piston rods of the hydraulic jacks are immersed at the same time, and then one of the hydraulic jacks is sequentially turned on the upper column and Separating the roof structure, and inserting the uppermost column of the uppermost column in place to connect and assemble the uppermost column; Steel structure construction method using a column for supporting the beam structure of a high-rise building, characterized in that consisting of. The method of claim 3, wherein On the periphery of the roof structure which is pre-assembled and installed on the cylinder body upper end of each hydraulic jack is installed to surround the steel frame structure to prevent the wind is formed a safety construction structure to protect the worker, the safety construction structure is an external image, Steel structure construction method using a column for supporting the beam structure of a high-rise building characterized in that the lower floor work platform is provided. The method of claim 3, wherein The roof structure is a beam structure of a high-rise building, characterized in that the plurality of internal upper and lower floor workbench to be installed between the adjacent ground floor and the upper column in all directions so that workers can work safely Steel structure construction method using columns to support the.

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