KR102424623B1 - Crossbeam connection structure of concrete filled column and method of connecting concrete filled column and crossbeam using the same - Google Patents

Abstract

According to the present invention, in the crossbeam connection structure of a concrete filling column comprising a permanent formwork 10 having an inner space 11 in which concrete is poured and a stringer 50 installed on the inner space 11, the A bracket 100 is formed on the stringer 50 and coupled to the steel frame embedded composite cross beam 200; including, wherein the steel frame embedded composite cross beam 200 is a cross beam concrete 210 and an I-type girder 220 is synthesized, and the end 211 of the I-shaped girder 220 and the upper flange 222 of the I-shaped girder 220 are exposed to the outside of the crossbeam concrete 210. Concrete filling pillar of the steel frame embedded composite crossbeam connection structure is provided.
According to the present invention, by presenting a crossbeam connection structure of a concrete filling column in which the formwork for pouring concrete to the connection part is integrated, the concrete is poured on the concrete filling column without a separate formwork installation work at the site, and the connection part is also poured at the same time. It has the effect of shortening the period and lowering the difficulty of on-site construction.

Description

The steel frame embedded composite crossbeam connection structure of the concrete filled column and the method of connecting the concrete filled column and the steel frame embedded composite cross beam using the same {Crossbeam connection structure of concrete filled column and method of connecting concrete filled column and crossbeam using the same}

The present invention relates to an improved concrete-filled column (including reinforced concrete columns), and more particularly, to a bracket formed on a concrete-filled column and a connection structure of a steel frame embedded crossbeam combined with a bracket and coupled with a concrete-filled column will be.

A concrete filling column is a composite column filled with concrete inside a formwork, and related prior art is "Korea Patent 10-1083762, Republic of Korea Patent 10-1194594, Republic of Korea Patent 10-0770023, Republic of Korea Patent 10-1457077", etc. has been disclosed.

1 is a view showing the configuration of a conventional concrete filling column. Referring to Figure 1, the conventional concrete filling column was taking the configuration of pouring concrete into the hollow of the column formed of iron and connecting the crossbeam to the bracket formed on the outside of the column.

However, after connecting the crossbeam to the bracket, there is a problem that the construction cost increases and the construction period is prolonged because the concrete pouring process for the connecting part is complicated.

In addition, there is a problem in that the difficulty of on-site construction increases and safety accidents occur due to insufficient work space for performing the connection work between the bracket and the crossbeam and the installation work of the formwork for pouring concrete.

- Republic of Korea Patent 10-1083762 - Republic of Korea Patent 10-1194594 - Republic of Korea Patent 10-0770023 - Republic of Korea Patent 10-1457077

The object of the present invention is derived to solve the problems of the above-described conventional method for connecting concrete filled columns and crossbeams, and the object of the present invention is a steel frame embedded type of a concrete filled column in which a form for pouring concrete to a connection part is integrated. By suggesting a composite crossbeam connection structure, the steel frame of the concrete filling column can shorten the construction period and lower the difficulty of on-site construction by pouring concrete on the concrete filling column without a separate formwork installation at the site and simultaneously pouring the connection part. To provide an embedded steel frame embedded composite crossbeam connection structure and a method for connecting a concrete filled column using the same and a steel frame embedded composite crossbeam.

Another object of the present invention is to provide a working space for performing a connection operation between a concrete filled column and a steel frame embedded composite crossbeam, and a concrete filled column and steel frame buried type using the same, and a steel frame embedded composite crossbeam connection structure of a concrete filled column The purpose is to provide a method for connecting synthetic crossbeams.

According to one aspect of the present invention, a steel frame-embedded composite of a concrete filling column including a permanent formwork 10 having an internal space 11 in which concrete is poured and a stringer 50 installed on the internal space 11 . In the crossbeam connection structure, the bracket 100 is formed on the stringer 50 and coupled to the steel frame embedded composite crossbeam 200; including, wherein the steel frame embedded composite crossbeam 200 is a crossbeam concrete 210 and I-type girder 220 are synthesized and formed, and the end 211 of the I-type girder 220 and the upper flange 222 of the I-type girder 220 are exposed to the outside of the crossbeam concrete 210 There is provided a composite crossbeam connection structure embedded in the steel frame of the concrete filling column, characterized in that.

In this case, the connecting part formwork 400 that closes the lower part and the side part of the connection space 60 formed from the end 211 of the crossbeam concrete 210 to the upper surface of the permanent formwork 10; characterized in that it further comprises It may be a steel frame embedded composite crossbeam connection structure of a concrete filling column.

In addition, the connection space 60 may be a steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it is connected to the inner space 11 .

In addition, the bracket 100 is formed in the shape of an I-shaped girder, and the bracket 100 extends from the lower flange 110 of the bracket 100 in the direction of the steel frame embedded composite crossbeam 200 and protrudes. It may be a composite crossbeam connection structure embedded in the steel frame of the concrete filling column, characterized in that it comprises a lower flange extension 111.

In addition, the I-shaped girder 220, the upper flange extension portion 2221 extending from the end 211 of the I-shaped girder 220 in the direction of the bracket 100 and protruding; characterized in that it comprises a It may be a steel frame embedded composite crossbeam connection structure of a concrete filling column.

In addition, the lower flange 223 of the I-shaped girder 220 is mounted on the upper surface of the lower flange extension 111 , and the upper flange extension 2221 is the upper flange 120 of the bracket 100 . It may be a steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it is mounted on the upper surface.

In addition, the connecting part formwork 400 may be a steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it is combined with the permanent formwork 10 and the bracket 100 .

In addition, the upper part of the connecting part formwork 400 may be a steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it is open.

In addition, the inner end of the connecting part formwork 400 is coupled to the upper end of the permanent formwork 10, and a lower connecting part 410 connecting the connecting part formwork 400 and the bracket 100; It may be a composite crossbeam connection structure embedded in a steel frame of a concrete filling column characterized in that it is.

In addition, the lower connection part 410 is a T-shaped plate 411 formed on the connection part formwork (400); and a connection plate 412 for coupling the T-type plate and the lower surface of the bracket 100;

In addition, the bracket 100 and the coupling plate 300 for coupling the end 211; may be a steel frame embedded composite crossbeam connection structure of the concrete filling column, characterized in that it further comprises.

According to another aspect of the present invention, in a method for connecting a concrete filling column and a crossbeam using a steel frame embedded composite crossbeam connection structure, the lower flange 223 of the I-shaped girder 221 is attached to the lower flange extension part ( A first step (S100) of mounting the upper flange extension part 2221 on the upper surface of the upper flange 120 of the bracket 100 as well as mounting on the upper surface of the 111); a second step (S200) of coupling the bracket 100 and the end portion 211 using the coupling plate 300; and a third step (S300) of pouring concrete into the connecting part formwork 400; a method for connecting a concrete filling column and a steel frame embedded composite crossbeam comprising a.

According to the present invention, by presenting a steel frame-embedded composite crossbeam connection structure of a concrete filling column with an integrated formwork for pouring concrete into a connection part, pouring concrete on a concrete filling column without a separate formwork installation work on site while simultaneously pouring the connection part This has the effect of shortening the construction period and lowering the difficulty of on-site construction.

According to the present invention, there is an effect that can provide a work space for performing the connection work between the concrete filling column and the steel frame embedded composite crossbeam to secure the workability and reduce the risk of safety accidents.

1 is a view showing a method of connecting a bracket formed in a conventional concrete filling column and a steel frame embedded composite crossbeam.
2 to 6 are views showing a method of connecting a concrete filling column and a steel frame embedded composite crossbeam using the crossbeam connection structure of the concrete filling column according to an embodiment of the present invention.
7 is a view showing the structure of a bracket according to an embodiment of the present invention.
8 is a view showing the coupling structure of the bracket and the end of the steel embedded composite crossbeam according to an embodiment of the present invention.
9 is a view showing the connection state of the bracket and the steel frame embedded composite crossbeam according to an embodiment of the present invention.

An embodiment of the steel frame embedded composite cross beam connection structure of a concrete filled column according to the present invention and a method of connecting a concrete filled column and a steel frame embedded composite cross beam using the same will be described in detail with reference to the accompanying drawings, with reference to the accompanying drawings In the following description, the same or corresponding components are given the same reference numerals, and overlapping descriptions thereof will be omitted.

In addition, terms such as first, second, etc. used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first, second, etc. not.

In addition, in the contact relationship between each component, the term "coupling" does not mean only when there is direct physical contact between each component, but another component is interposed between each component, so that the component is in the other component It should be used as a concept that encompasses even the cases in which each is in contact.

The concrete filling column according to the present invention includes a permanent formwork 10 having an internal space 11 in which concrete is poured and a stringer 50 installed on the internal space 11 ( FIG. 2 ).

The steel frame embedded composite crossbeam connection structure of the concrete filling column according to an embodiment of the present invention includes a bracket 100 formed on the stringer 50 and coupled to the steel frame embedded composite crossbeam 200, but the steel frame embedded type The composite crossbeam 200 is formed by combining the crossbeam concrete 210 and the I-type girder 220, and the end 211 of the I-type girder 220 and the upper flange 222 of the I-type girder 220 are the crossbeams. There is a characteristic formed by being exposed to the outside of the concrete 210 (FIG. 8).

In comparison with the conventional steel frame embedded composite girder in which the steel girder is generally embedded in concrete, the steel frame embedded composite crossbeam 200 according to the present invention has an end 211 and The upper flange 222 is characterized in that it is formed.

In this case, the bracket 100 is formed in the shape of an I-shaped girder, and the bracket 100 extends from the lower flange 110 of the bracket 100 to the steel frame-embedded composite crossbeam 200 in the direction of the protruding lower flange extension part. (111) may be included (FIG. 6). Accordingly, in the coupling process of the bracket 100 and the steel frame embedded composite cross beam 200, the end 211 of the I-shaped girder 220 exposed at the end of the steel frame embedded composite cross beam 200 can be temporarily mounted. A storage space is provided.

In addition, the I-shaped girder 220 may include an upper flange extension 2221 protruding from the end 211 of the I-shaped girder 220 in the direction of the bracket 100 ( FIG. 8 ).

The lower flange 223 of the I-shaped girder 221 may be mounted on the upper surface of the lower flange extension 111 , and the upper flange extension 2221 may be mounted on the upper surface of the upper flange 120 of the bracket 100 . .

By mounting the upper flange extension 2221 of the I-type girder 221 on the upper surface of the upper flange 120 of the bracket 100, the safety of mounting is increased, and the coupling surface of the I-type girder 221 and the bracket 100 is removed. There is an achievable effect.

The crossbeam connection structure of the concrete filling column according to an embodiment of the present invention is a connecting part that closes the lower and side portions of the connection space 60 formed from the end 211 of the crossbeam concrete 210 to the upper surface of the permanent form 10 . It may further include a formwork 400 (FIG. 2).

The connection formwork 400 may be formed in an open top surface for pouring concrete.

In addition, the connecting part formwork 400 is installed integrally with the permanent formwork 10 and the bracket 100 in a combined state.

Specifically, the inner end of the connecting part formwork 400 is combined with the upper end of the permanent formwork 10 to close the lower part of the connecting space 60, and the connecting part formwork 400 and the bracket 100 are connected by the lower connecting part 410. They are connected to each other (FIG. 2).

In this case, the lower connection part 410 may include a T-type plate 411 formed on the connection part form 400 and a connection plate 412 for coupling the T-type plate and the lower surface of the bracket 100 .

That is, since the permanent formwork 10 and the bracket 100 of the concrete filling pole are installed in the state in which the connecting part formwork 400 is formed, there is no need to install a separate formwork for connecting the steel frame embedded composite crossbeam 200 at the site. .

In this case, since the connection space 60 is connected to the internal space 11 , when concrete is poured into the internal space 11 , the concrete is also poured into the connection space 60 , so that a separate additional pouring operation is also not required.

In addition, since the lower and side surfaces of the connecting part formwork 400 are closed, a work space for the worker performing the connection work of the bracket 100 and the steel frame embedded composite crossbeam 200 can be provided.

The crossbeam connection structure of the concrete filling column according to an embodiment of the present invention may further include a coupling plate 300 for coupling the bracket 100 and the end 211 ( FIG. 8 ).

Hereinafter, a method for connecting a concrete filling column and a crossbeam using a crossbeam connection structure according to an embodiment of the present invention will be described.

The method of connecting the concrete filling column and the crossbeam is to mount the lower flange 223 of the I-shaped girder 221 on the upper surface of the lower flange extension 111, and the upper flange extension 2221 to the bracket 100. In the first step (S100) of mounting on the upper surface of the upper flange 120 of It may include a third step (S300) of pouring concrete.

Advantages of the present invention are summarized as follows.

First, according to the present invention, the installation of a separate formwork or concrete pouring process for connecting the bracket and the crossbeam is not required. The construction period can be shortened and the ease of construction can be secured because the concrete is poured into the inner space of the concrete filling column while the concrete is also poured for the connection part.

Second, according to the present invention, a safe work space for the operator performing the bracket and crossbeam connection process can be provided. In the work space with the lower part and the side closed, the operator can safely perform the connection work, thereby remarkably lowering the risk of safety accident invention.

Third, it has a unique structure of the I-type girder for the connection part of the bracket and the crossbeam, so temporary installation and connection can be made easily. In addition, structural safety after bonding can be secured.

Fourth, since the connecting formwork is assembled and constructed in an integrated state with other components, it is possible to secure the convenience of construction.

Fifth, by filling the work space with concrete, the synthesis effect can be increased and economic efficiency can be secured.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention as noted above should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

10: permanent formwork
50: string
60: connection space
100: bracket
200: cross beam
300: bonding plate

Claims (12)

In the steel frame embedded composite crossbeam connection structure of a concrete filling column comprising a permanent form 10 having an internal space 11 in which concrete is poured and a stringer 50 installed on the internal space 11,
A bracket 100 formed on the stringer 50 and coupled to the steel frame embedded composite crossbeam 200; including,
The steel frame embedded composite crossbeam 200 is formed by synthesizing the crossbeam concrete 210 and the I-type girder 220,
The end 211 of the I-type girder 220 and the upper flange 222 of the I-type girder 220 are exposed to the outside of the crossbeam concrete 210. connection structure.
According to claim 1,
The connecting part formwork 400 for closing the lower part and the side part of the connecting space 60 formed from the end 211 of the crossbeam concrete 210 to the upper surface of the permanent formwork 10;
Steel frame embedded composite crossbeam connection structure of the concrete filling column, characterized in that it further comprises.
3. The method of claim 2,
The connection space (60) is a composite crossbeam connection structure of a concrete filling column, characterized in that it is connected to the inner space (11).
4. The method of claim 3,
The bracket 100 is formed in the shape of an I-shaped girder,
The bracket 100 is
The lower flange extension 111 protruding from the lower flange 110 of the bracket 100 in the direction of the steel frame embedded composite crossbeam 200;
Steel frame embedded composite crossbeam connection structure of the concrete filling column, characterized in that it comprises.
5. The method of claim 4,
The I-shaped girder 220 is,
The upper flange extension portion 2221 protruding from the end 211 of the I-shaped girder 220 in the direction of the bracket 100;
Steel frame embedded composite crossbeam connection structure of the concrete filling column, characterized in that it comprises.
6. The method of claim 5,
The lower flange 223 of the I-shaped girder 221 is mounted on the upper surface of the lower flange extension 111,
The upper flange extension 2221 is a steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it is mounted on the upper surface of the upper flange 120 of the bracket 100 .
7. The method of claim 6,
The connecting part formwork 400 is a steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it is combined with the permanent formwork 10 and the bracket 100.
8. The method of claim 7,
The upper part of the connection formwork 400 is a steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it is open.
9. The method of claim 8,
The inner end of the connecting part formwork 400 is combined with the upper end of the permanent formwork 10,
The lower connection part 410 for connecting the connection part formwork 400 and the bracket 100;
Steel frame embedded composite crossbeam connection structure of the concrete filling column, characterized in that it further comprises.
10. The method of claim 9,
The lower connection part 410 includes a T-shaped plate 411 formed on the connection part formwork 400; and
A connection plate 412 for coupling the T-shaped plate and the lower surface of the bracket 100;
Steel frame embedded composite crossbeam connection structure of the concrete filling column, characterized in that it comprises.
11. The method of claim 10,
A steel frame embedded composite crossbeam connection structure of a concrete filling column, characterized in that it further comprises; a coupling plate (300) for coupling the bracket (100) and the end (211).
In the method of connecting the concrete filling column and the steel frame embedded composite crossbeam using the crossbeam connection structure of claim 11,
The lower flange 223 of the I-shaped girder 221 is mounted on the upper surface of the lower flange extension 111 , and the upper flange extension 2221 is attached to the upper flange 120 of the bracket 100 . A first step of mounting on the upper surface (S100);
a second step (S200) of coupling the bracket 100 and the end portion 211 using the coupling plate 300; and
A third step (S300) of pouring concrete into the connecting part formwork 400;
A method of connecting a concrete filling column and a steel frame embedded composite crossbeam, characterized in that it comprises.

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