KR20220037665A - Apparatus and methods for connecting steel beams inside core walls and steel beams in office building in steel reinforcement concrete structure - Google Patents

Abstract

The present invention relates to a construction method and an apparatus for avoiding interference and collisions between ducts passing through openings in core walls, pipes and outer circumferential steel beams, core steel columns, and core steel beams in the building construction of steel reinforced concrete structures. According to the present invention, a core steel column is installed along the core wall while avoiding openings, ducts, and piping, and is installed at any location, the core steel beam is installed at any location above and below, the outer circumferential steel beam is installed and connected to the core steel column or core steel beam.

Description

Method and apparatus for connecting steel beams inside core walls and outer periphery of steel beams in SRC structure {Apparatus and methods for connecting steel beams inside core walls and steel beams in office building in steel reinforcement concrete structure}

The present invention provides a method of connecting the outer peripheral part of the steel beam to the core wall after installing the steel column and the steel beam on the core wall in order to precede the steel frame and follow the core in a steel frame/reinforced concrete (SRC) structure such as an office,

It is about avoiding openings in the core wall of equipment, electricity, and architecture so that the core and the outer periphery steel member can be freely connected and installed in any part.

In an office building with a steel structure, there is a conventional core-preceding method. Core precedence is a method in which an ACS (auto-rising form) is installed on the core and then the core is raised first, followed by the outer peripheral slab. At this time, the core can be installed at least 5 to 6 layers after the outer periphery cheolgolbo. The process of installing the outer peripheral cheolgol beam on the core wall is as follows.

1) Core rebar assembly

2) Install the embed plate on the core reinforcing bar

3) Gang form installation and concrete pouring

4) ACS elevation and embed plate exposure

5) Installation of bracket (gusset plate) on embed plate (welding)

6) Installation of outer perimeter steel beams (welding, bolts)

At this time, the outer peripheral portion cheolgolbo is installed across both sides of the outer peripheral column and the core embedding plate on the outer peripheral part window side.

The embedding plate should be installed in advance at the point where Cheolgolbo is installed.

If the position of Cheolgolbo is changed, the position of the embedding plate must also be changed. That is, if the position of the embedding plate and the position of the Cheolgolbo do not match, construction becomes difficult.

Another construction method in an office building with a steel structure is the core follow-up method. For the trailing core, steel columns and steel beams are installed inside the core wall. The outer periphery cheolgolbo is connected and installed through a bracket attached to the core pole or core cheolgolbo.

The process of installing the outer perimeter steel beam on the core steel frame is as follows.

1) Welded brackets to core steel columns and core steel beams at a steel frame factory and transported them to the site (truck)

2) Core steel column installation

3) Core steel beam installation

4) Connecting and installing the outer peripheral cheolgolbeam to the core pole or the bracket of the core cheolgolbeam

On the other hand, the core wall has an opening (round or square hole, opening). This opening is an empty space in the wall for people or electrical equipment pipes (pipes) to move between the core and the outer periphery. It is like a door frame.

The parts that require an opening to pass between the outer office space and the inside of the core are the elevator platform (hall), toilet, stairway, and electrical equipment plumbing room (air conditioning room, air supply room).

In particular, the facility piping goes up from the basement to the inside of the core and enters the office space in the outer periphery of each floor. There are ducts that supply and exhaust cold and hot air, fire extinguishers that spray water in case of fire (sprinklers), and electrical piping. Because of their large volume, a part of the core wall has to be made into an opening.

Since ducts and pipes pass through the opening part, the position overlaps with the outer periphery cheolgolbo, so the outer perimeter cheolgolbo should be installed avoiding the opening.

However, when installing the outer peripheral cheolgolbo in the trailing core, there is no technology related to the method and device for how to install it avoiding the opening.

Korean Patent No. 10-0454478 (registration on Oct. 18, 2004), "Construction method of high-rise building structure with steel frame reinforced concrete structure"

The object of the present invention devised to solve the above problems is,

In connecting and installing the core steel column or core steel beam and the outer peripheral part steel beam, it is possible to freely change the position of the steel frame member and install it avoiding the opening, duct, and pipe of the core wall.

In addition, to avoid interference and collision between the opening part through which the duct and pipe pass and the core steel frame operation or the core steel frame beam.

In order to achieve the above object,

The core steel column enables installation at any position on the core wall. That is, the installation position can be freely determined along the core wall.

Core Cheolgolbo allows the installation height (level) to be freely moved up and down to determine it.

The outer periphery cheolgolbeam can be installed in connection with the core steel column or the core cheolgolbeam.

The method of freely changing the position of the steel column and the steel beam inside the core wall according to the present invention,

1) Core steel columns can be constructed at different positions in the lower, middle, and high floors. Accordingly, various openings can be designed and constructed, and ducts and pipes can be installed.

2) As the core Cheolgolbo moves up and down, its position (level) can be freely determined. Accordingly, an opening, a duct, and a pipe may be disposed.

3) Core steel columns, core steel beams, openings, ducts/pipes do not overlap each other, and the outer peripheral steel beams can be installed freely.

4) In addition, by constructing in this way, it is possible to reduce the ceiling height, which could not be solved by conventional methods, to minimize the space for installation of electricity, equipment materials, and equipment, thereby securing a predetermined ceiling height and ultimately reducing the floor height while maintaining the same performance. Also, the construction cost can be reduced and the construction period can be shortened due to the reduction in height.

5) The construction quality is improved and safe work can be done.

1 is a construction photo showing the core and the opening in the prior art core construction method
2 to 3 is a flow chart of the arrangement design of the steel member and the opening of the core according to the present invention
4 is a flow chart of construction (installation) of the steel frame member and the opening of the core according to the present invention;
5 is an elevation view of the configuration of a core steel column in a portion without an opening according to the present invention;
6 is an elevation view of the configuration of a core steel column installed in the vicinity of a portion having an opening according to the present invention;
7 is a plan view of the configuration of a core steel column according to the present invention;
8 is an embodiment showing the configuration of the core steel member inside the core wall according to the present invention;
9 is a plan view of an embodiment showing the configuration of a core steel member and an outer peripheral slab steel beam inside the core wall according to the present invention;

The present invention is to solve the problems as described above,

A method and apparatus for forming a structure in which the core steel column 10, the core steel beam 20, the opening 40, the duct, the pipe 41, and the outer peripheral portion steel beam 30 installed inside the core wall do not overlap each other. The purpose.

1 is a construction photograph showing a core and an opening in a prior art core construction method.

If you look at the construction photos, you can see that the core wall is up first and there is a hole in the core. This part is an opening.

The construction method in the core lead is as follows.

First, the reinforcement of the core wall is constructed.

An embedding plate is installed on the reinforcing bar.

In addition, a door frame (frame) is installed in the opening, and reinforcing bars are reinforced around the door frame.

After closing the mold, pour the concrete.

After raising the formwork, the embedding plate is exposed.

Attach a bracket to the exposed embedding plate.

Apply a few additional layers so that 2-3 layers of the embedding plate are exposed after the ACS has fully risen.

After that, connect and install the outer peripheral cheolgolbo to the bracket of the embedding plate.

At this time, the outer peripheral portion cheolgolbo can be installed only connected to the embedding plate. It is difficult to construct on the core wall surface without an embed plate.

Therefore, the location of the embedding plate should be carefully reviewed and designed in advance, changes should not occur after construction, and the construction location should also be accurate.

2 to 3 is a flow chart of the arrangement design of the steel member and the opening of the core according to the present invention.

In order to design piping for air conditioning, firefighting equipment, and electrical equipment in the office space, the capacity and load are calculated (S10).

The size of the duct (air passage) and the size of the electrical equipment pipe (pipe) are determined and the layout is designed (S20).

The size of the opening in the core wall is determined in consideration of the necessary sizes of ducts and pipes, and the layout is designed (S30).

In addition, the openings of the elevator hall (platform), the toilet, the stairwell, and the air conditioning room are arranged (S40).

When the opening design and arrangement is determined (S50),

Next, the layout design of the core steel column and the core steel beam (S60).

Check whether the core steel column and the core steel beam and the opening overlap (S70).

When a steel column is installed in the opening position, the steel frame is exposed, so do not install a steel frame in the opening. If the core steel beam overlaps with the opening, it overlaps with the duct and pipe, making it difficult to construct electrical equipment. Therefore, it is necessary to modify and change the position of the core steel column and core steel beam by avoiding the opening position.

Correct the position of the core steel column (S80).

Correct the installed height (level) of the core cheolgolbo so as not to overlap the opening (S90).

The core steel column or core steel beam and the outer peripheral portion of the steel beam are designed to be connected (S100).

A bracket is designed for connection between columns and beams and beams and beams (S110).

Structural calculation (role design) for the above process is performed (S120).

Complete the steel frame design inside the core.

4 is a flow chart of the construction (installation) of the steel frame member and the opening of the core according to the present invention.

Install the core steel column inside the core wall. According to the design drawings, the installation spacing of the pillars should be constructed avoiding the opening (T10).

If there is a steel column that interferes with the opening, the core steel column is distributed to the left and right steel columns of the opening.

In other words, install the pillars avoiding the electrical equipment duct, the opening of the pipe, the elevator hall entrance, the toilet entrance, the stairway entrance, and the entrance of the electrical equipment room (air conditioning room). At this time, in the core steel column, the core steel beam, the outer peripheral part steel beam and the bracket for installation are manufactured and attached (equipped) at the factory.

Next, the core steel beam is installed on the core steel frame column (T20).

Core steel beams are generally installed at the lower part of the slab. However, since the opening overlaps with the core cheolgolbo in the part where there are facilities and electrical openings, they are installed in the upper part of the opening and the lower part of the opening. The core cheolgolbo is fixed so that the core poles do not fall to the left or right, and the outer periphery cheolgolbo is connected to be installed.

The core cheolgolbo has a bracket that can be installed in connection with the outer peripheral cheolgolbo.

Next, install the outer peripheral cheolgol beam (T30).

The outer peripheral part of the steel beam is connected to the core steel column or the core steel beam. Connections are made by welding or bolting through brackets.

Through the above process, the steel structure was completed.

Next, the reinforcing bars and the formwork of the core wall are installed, and the reinforcing bars and the formwork are installed around and inside the opening (T40).

Since the opening is an empty space, do not allow rebar or concrete to enter, and reinforce (add more) rebar according to the structural calculation to prevent cracks around the opening.

At this time, it is checked whether the opening and the core steel column or the core steel beam overlap or whether interference occurs (T50).

If overlap occurs, the position of the core cheolgolbo is moved up and down to correct installation (T60).

That is, to avoid overlapping or interference with the opening, move the position of the core cheolgolbo to a position outside the opening.

Finally, concrete is poured (T70).

Concrete is poured in the core part and the outer peripheral slab part.

As described above, the structure was completed by pouring a core wall composed of an opening, a core steel column, and a core steel beam on the core wall.

5 is an elevation view of the configuration of the core steel column in the portion without the opening 40 according to the present invention.

The core steel pillar 10 is composed of a core pillar, a core connection top bracket (11a), and an outer peripheral portion connection bracket (12).

At this time, the core cheolgolbo connection bracket (11a) is located in the upper part.

6 is an elevation view of the configuration of the core steel column 10 installed in the vicinity of the portion with the opening 40 according to the present invention.

The core steel column is composed of a core column 10, a lower bracket connecting the core Cheolgolbo (11b), and a bracket connecting the outer peripheral portion Cheolgolbo (12).

The opening 40 is installed under the outer periphery of the cheolgolbo 12, and exists as an empty space inside the concrete surface 50 of the core wall. A duct and a pipe 41 pass into the opening 40 .

At this time, the core cheolgolbo connection bracket (11b) is located at the bottom of the slab. That is, since there is an opening 40 , it is located under the opening 40 .

7 is a plan view of the configuration of the core steel column 10 according to the present invention.

The core steel column 10 is composed of a core column, an upper bracket connecting the core Cheolgolbo (11a), a lower bracket connecting the core Cheolgolbo (11b), and a bracket connecting the outer circumference Cheolgolbo (12).

At this time, the core cheolgolbo connection brackets (11a, 11b) are arranged in the direction of the concrete wall 50, and the outer peripheral portion cheolgolbo connection bracket 12 is attached to the outer peripheral portion slab and the window side pillar direction.

8 is an embodiment showing the configuration of the core steel member inside the core wall according to the present invention.

The upper view is an elevation view looking down from the core wall, and the lower view is a plan view looking down from the top.

Four core steel columns 10 (10-1, 10-2, 10-3, 10-4) are installed. At this time, there are two equipment and electrical openings 40 in the central part. The core steel column 10 is installed avoiding the facility and the electrical opening 40 . If the core steel column 10 and the equipment and the electrical opening 40 overlap, construction is difficult, and the core steel column 10 is exposed in the equipment and the electric opening 40 to overlap the duct and the pipe 41 .

There are two core cheolgolbo connection brackets 11 attached to the second core cheolgolbo column 10-2 from the left, and the upper bracket for connecting the upper core cheolgolbo 20a is attached to the upper part ( 11a), and avoiding the opening 40, a lower bracket 11b is attached below the opening to connect the lower core cheolgolbo 20b.

A feature of the present invention is that the position of the core steel column 10 is moved left and right to avoid the opening 40 and is freely arranged and installed, and the core steel frame 20 avoids the opening 40 and moves up and down freely will be installed

9 is a plan view of an embodiment showing the configuration of the core steel member and the outer peripheral slab cheolgolbo 30 inside the core wall according to the present invention.

In the embodiment, the outer periphery cheolgolbo 30 is installed four, the outer periphery cheolgolbo (30a) type connected to the core cheolgolbo (10) and the outer periphery cheolgolbo (30b) type connected to the core cheolgolbo (20) There are two types .

The outer peripheral portion cheolgolbo (30a) is connected to the core steel column (10).

Another outer peripheral portion cheolgolbo (30b) is connected to the core cheolgolbo (20). At this time, the core cheolgolbo 20 is attached to the core cheolgolbo bracket 21 connected to the outer peripheral portion cheolgolbo (30b).

Since the lower core cheolgolbo (20b) is located at the bottom of the facility, the electrical opening (40) is difficult to connect the outer periphery cheolgolbo (30), so the outer periphery cheolgolbo (10), the upper core cheolgolbo (20a) 30) is connected.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and change the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the protection scope of the present invention as long as they are apparent to those of ordinary skill in the art.

The method and apparatus for connecting the cheolgol beam inside the core wall and the outer periphery cheolgol beam in the steel frame reinforced concrete (SRC) structure according to the present invention can be directly applied to the site under construction and the site that has not started construction.

Through the steel frame design, steel frame member factory production and manufacturing according to the present invention, it is possible to install and construct a steel frame on site. Accordingly, the contents of the present invention can be directly used in industry.

10: core steel column
11a : Core Cheolgolbo connection upper bracket
11b : Core cheolgolbo connection lower bracket
12 : Outer periphery Cheolgolbo connection bracket
20: core steel beam
20a: upper core steel beam
20b: lower core steel beam
21 : Core Cheolgolbo Bracket
30: outer periphery cheolgol beam
30a: Core steel column connection outer periphery steel beam
30b: Core cheolgolbeam connection outer periphery cheolgolbeam
40: opening
41: duct, plumbing
50: concrete wall

Claims (6)

In constructing a steel-framed reinforced concrete (SRC) structure building structure,
In order to lead the steel frame and follow the concrete pouring of the core and outer periphery,
After installing the steel columns and steel beams in the core wall,
In the method of connecting the outer periphery cheolgolbo here,
A connection method, characterized in that, in a steel column installed in the core wall, the size or position of the upper layer steel frame can be freely changed different from the size or position of the lower layer steel frame column, so that the installation of the opening in the core wall can be facilitated. According to claim 1,
Connection method, characterized in that it is possible to freely change the position of the cheolgolbo up and down in the cheolgolbo installed in the core wall, thereby securing an advantageous ceiling height and facilitating the installation of the opening in the core wall. According to claim 1,
The connecting method, characterized in that the steel column installed in the core wall can facilitate the installation of the opening in the core wall by enabling a plurality of steel frame columns to be arranged in one span. 3. The method of claim 2,
Cheolgolbo installed in the core wall is a method of arranging the upper and lower parts of the opening or the lower part of the opening or the upper part of the opening, so that it is possible to secure an advantageous ceiling height and to easily install the opening in the core wall. 5. The method of claim 4,
When the cheolgolbo installed in the core wall is disposed only under the opening, this cheolgolbo upper flange can be placed up to the maximum directly below the core wall opening, thereby securing an advantageous ceiling height and facilitating the installation of the core wall opening. Connection method, characterized in that. 5. The method of claim 4,
When the cheolgolbo installed in the core wall is arranged only in the upper part of the opening, the lower flange of the cheolgolbo can be placed down to the maximum of the outer peripheral part of the slab, so that it is possible to secure an advantageous ceiling height and facilitate the installation of the opening in the core wall. How to connect.

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