KR20210111586A - Connecting structure for columns having connection reinforcing member - Google Patents

Abstract

The present invention relates to a steel pipe column connection structure. The steel pipe column connection structure of the present invention comprises: an inner reinforcement member disposed on an inner surface of a connection portion of an upper column and a lower column connected in the longitudinal direction to reinforce the upper column and the lower column, but provided with a plurality of nuts on the inner surface; and a joint reinforcement member connected to a corresponding column along the circumference of any one of the upper column and the lower column. An object of the present invention is to provide a steel pipe column connection structure capable of easily and efficiently connecting adjacent steel pipe columns through a screw assembly method, deviating from a conventional simple welding joining method.

Description

Steel pipe column connection structure with joint reinforcement {CONNECTING STRUCTURE FOR COLUMNS HAVING CONNECTION REINFORCING MEMBER}

The present invention relates to a steel pipe column connecting structure, and more particularly, to a steel pipe column connecting structure capable of easily and efficiently connecting adjacent steel pipe columns by a screw assembly method instead of the conventional simple welding joining method.

Many columns and beams are required in the construction of a building. Columns and beams are usually made of metal. For example, the pillar may be in the form of a rectangular metal pipe with an empty interior, and the beam may be an H-shaped steel pipe.

After these columns and beams are connected to each other to form the framework of the building, the building can be constructed through it.

As such, many columns and beams are used in the construction of a building, and various technologies for so-called cores for connecting them are known because they must be connected, and some technologies have been applied and registered by the present applicant.

On the other hand, before connecting the beams in the construction of a building, first, the columns, especially several closed-section steel pipe columns with a closed cross-section, should be connected to each other.

For efficiency of construction, when connecting two steel pipe columns, for example, an upper column and a lower column, a column joint is inevitably generated. At this time, considering that the connection between the steel pipe columns is limited to the welding joint method due to the structural characteristics of the upper and lower columns having a closed section, there is a problem in that the connection work of the steel tube columns is not efficient and thus uneconomical.

Korean Intellectual Property Office Application No. 10-2016-0169734

SUMMARY OF THE INVENTION It is an object of the present invention to provide a steel pipe column connection structure capable of easily and efficiently connecting adjacent steel pipe columns through a screw assembly method, away from the conventional simple welding and joining method.

For the above purpose, the present invention provides a steel pipe column connection structure having the following configuration.

an inner reinforcing material disposed on the inner surface of the connecting portion of the upper column and the lower column connected in the longitudinal direction to reinforce the upper column and the lower column, but provided with a plurality of nuts on the inner surface; and

A steel pipe column connecting structure comprising a joint reinforcement connected to the corresponding column along the circumference of any one of the upper column and the lower column.

a plurality of lower joint reinforcements connected to the lower column along the circumference of the lower column; and a plurality of upper joint reinforcements connected to the upper column along the circumference of the upper column and connected to the lower joint reinforcement by bolts.

The internal reinforcement may have a linear structure.

The upper pillar is disposed between the inner reinforcement and the upper joint reinforcement, and may be fixed to a corresponding position by a bolt.

A diaphragm disposed in the upper column or the lower column to prevent bending deformation of the upper column or the lower column may be further included.

The diaphragm may include a body portion in which a through hole is formed; and a plurality of corner arrangement portions formed at the corners of the body portion and disposed at the corners of the joint reinforcement.

The diaphragm may include a body portion in which a through hole is formed; and an insertion slot formed in the body portion and inserted into the inner reinforcement member.

For the above purpose, the present invention provides a steel pipe column connection structure having the following configuration.

an inner reinforcing material disposed on the inner surface of the connecting portion of the upper column and the lower column connected in the longitudinal direction to reinforce the upper column and the lower column, but provided with a plurality of nuts on the inner surface; and

and a joint reinforcement connected to the corresponding column along the circumference of any one of the upper column and the lower column,

The steel pipe column connecting structure, characterized in that the connecting portion of the joint reinforcing material forms a bent portion that is bent to cross the connecting direction of any one of the upper column and the lower column.

The inner reinforcing member may have a non-linear structure and may include a connecting flange connected together between the bent portions of the joint reinforcing member.

According to the present invention, it is possible to easily and efficiently connect the neighboring steel pipe columns by a screw assembly method, away from the conventional simple welding method. Therefore, the connection operation of the column can be economical because it is efficient, and furthermore, it can contribute to shortening the construction period.

1 is an exploded perspective view of a steel pipe column connection structure according to a first embodiment of the present invention.
FIG. 2 is a partially assembled view of FIG. 1 ;
3 is an enlarged view of the main part of FIG. 1 .
4 is an exploded perspective view of a steel pipe column connection structure according to a second embodiment of the present invention.
FIG. 5 is a partially assembled view of FIG. 4 .
6 is an exploded perspective view of a steel pipe column connection structure according to a third embodiment of the present invention.
FIG. 7 is a partially assembled view of FIG. 6 .
8 is an exploded perspective view of a steel pipe column connection structure according to a fourth embodiment of the present invention.
9 is a partially assembled view of FIG. 8 .

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

1 is an exploded perspective view of a steel pipe column connection structure according to a first embodiment of the present invention, FIG. 2 is a partial assembly view of FIG. 1 , and FIG. 3 is an enlarged view of the main part of FIG. 1 .

Referring to these drawings, the steel pipe column connection structure according to the present embodiment is designed to easily and efficiently connect adjacent steel pipe columns, for example, the upper and lower columns 110 and 120, by a screw assembly method, away from the conventional simple welding and joining method. As one, it includes an inner reinforcement 130 , a lower joint reinforcement 140 and an upper joint reinforcement 150 .

The internal reinforcement 130 is disposed on the inner surface of the connection portion of the upper column 110 and the lower column 120 connected in the longitudinal direction, and serves to reinforce the upper column 110 and the lower column (120).

A plurality of nuts 162 are provided on the inner surface of the internal reinforcement 130 . The nut 162 forms an integral structure with the internal reinforcement 130 .

Since the nut 162 is provided on the inner surface of the inner reinforcement 130, the lower joint reinforcement 140, the lower pillar 120, and the internal reinforcement 130 can be fixed at once by inserting the bolt 161 from the outside. have. Similarly, by inserting the bolt 161 from the outside, the upper joint reinforcement 150, the upper pillar 110, and the internal reinforcement 130 can be fixed at once.

For reference, it is difficult to perform a nut tightening operation on the inside of the upper column 110 and the lower column 120 . Therefore, if the nut 162 is integrally formed with the internal reinforcement 130 in advance as in the present embodiment, only the bolt 161 is fastened from the outside, so that the assembly workability between the parts can be very high. Although the drawing schematically shows the bolt 161, the bolt 161 is a bolt that provides sufficient fastening force while being tightened in only one direction from the outside.

The lower joint reinforcement 140 is a structure connected to the lower column 120 along the circumference of the lower column 120 .

And the upper joint reinforcement 150 is a structure connected to the upper column 110 along the circumference of the upper column 110 and is connected to the lower joint reinforcement 140 and the bolt (B). The upper column 110 is disposed between the inner reinforcement 130 and the upper joint reinforcement 150 , and is fixed at the corresponding position by a bolt 161 .

In this embodiment, the lower joint reinforcing material 140 and the upper joint reinforcing material 150 are provided in the same number and have the same shape as those corresponding to each other. In addition, the lower joint reinforcing material 140 and the upper joint reinforcing material 150 are surface-arranged and coupled to the side regions of the lower column 120 and the upper column 110, respectively.

The lower joint reinforcement 140 and the upper joint reinforcement 150 are provided in side regions of the lower column 120 and the upper column 110, respectively.

At this time, the connecting portions of the lower joint reinforcement 140 and the upper joint reinforcement 150 are bent to cross the connection direction of the upper column 110 and the lower column 120 to form bent portions 141 and 151 .

On the other hand, in the present embodiment, the internal reinforcement 130 has a non-linear structure, and a connection flange 131 connected together between the bent portions 141 and 151 of the lower joint reinforcement 140 and the upper joint reinforcement 150 is provided. .

As a result, in the area of the connecting flange 131 , the three plates are assembled together by the bolts (B). Therefore, the rigidity becomes very excellent.

A diaphragm 170 is further applied to the steel pipe column connection structure according to the present embodiment. The diaphragm 170 is disposed in the upper column 110 and the lower column 120 , and serves to prevent bending deformation of the upper column 110 and the lower column 120 . That is, when the concrete is filled into the upper column 110 and the lower column 120 , the diaphragm 170 serves as a reinforcement so that it does not bend.

In this embodiment, the diaphragm 70 is formed at the corner of the body portion 172 and the body portion 172 in which the through hole 171 is formed, and the corner of the lower joint reinforcement 140 and the upper joint reinforcement 150 . It may include a plurality of corner arrangement units 173 disposed in the.

Accordingly, after assembling the lower joint reinforcement 140 to the lower column 120 , the connection flange 131 of the inner reinforcement 130 and the upper joint reinforcement 150 in the bent portion 141 of the lower joint reinforcement 140 ) After the bent portion 151 of the is assembled with the bolt (B), the upper column 110 is sandwiched between the internal reinforcement 130 and the upper joint reinforcement 150, and the corresponding ones are fixed with the bolt 161. Do it. That is, by fixing the upper joint reinforcement 150, the upper column 110, and the internal reinforcement 130 with the bolt 161 at once, the upper and lower columns 110 and 120 made of steel pipe columns can be easily connected and assembled without welding.

According to the present embodiment, which operates in the structure as described above, it is possible to easily and efficiently connect adjacent steel pipe columns, for example, the upper and lower columns 110 and 120, without welding by a screw assembly method, out of the conventional simple welding and joining method.

4 is an exploded perspective view of a steel pipe column connection structure according to a second embodiment of the present invention, and FIG. 5 is a partial assembly view of FIG. 4 .

Referring to these drawings, even in this embodiment, the upper and lower columns 110 and 120 made of steel pipe columns can be easily and efficiently connected, and the inner reinforcement 230, the lower joint reinforcement 240 and the upper joint reinforcement 250) includes

In the case of this embodiment, the diaphragm 170 of the above-described embodiment is not used. Instead, the inner reinforcement 230, the lower joint reinforcement 240, and the upper joint reinforcement 250 are all arranged in a shape surrounding the upper and lower columns 110 and 120, including the corner regions of the upper and lower columns 110 and 120. . Accordingly, excellent rigidity can be secured even without using the diaphragm 170 .

The inner reinforcement 230 , the lower joint reinforcement 240 , and the upper joint reinforcement 250 are provided with the connection flange 131 and the bent portions 241,251 as described above. The connection flange 131 of the inner reinforcement 230 is disposed between, and the bent portions 241,251 of the lower joint reinforcement 240 and the upper joint reinforcement 250 are disposed on both sides thereof, and are assembled by bolts (B). Accordingly, the convenience of assembly may be increased while providing structural rigidity as it is.

According to this embodiment, it is possible to easily and efficiently connect adjacent steel pipe columns, for example, the upper and lower columns 110 and 120, without welding by a screw assembly method, away from the conventional simple welding joint method, and furthermore, the lower joint reinforcement 240 and the upper joint reinforcement Since all of the 250 are disposed in a form surrounding the upper and lower posts 110 and 120 including the corner regions of the upper and lower posts 110 and 120, the stability of the coupling is further improved.

6 is an exploded perspective view of a steel pipe column connection structure according to a third embodiment of the present invention, and FIG. 7 is a partial assembly view of FIG. 6 .

Referring to these drawings, even in the present embodiment, the upper and lower columns 110 and 120 made of steel pipe columns can be easily and efficiently connected, and the inner reinforcement 330, the lower joint reinforcement 140, and the upper joint reinforcement 150) and a diaphragm 370 .

The same as those of the first embodiment described above are applied to the lower joint reinforcement 140 and the upper joint reinforcement 150 . That is, the lower joint reinforcement 140 and the upper joint reinforcement 150 are provided in the same number and have the same shape as the corresponding ones. In addition, the lower joint reinforcing material 140 and the upper joint reinforcing material 150 are surface-arranged and coupled to the side regions of the lower column 120 and the upper column 110, respectively.

On the other hand, the internal reinforcement 330 applied to the present embodiment has a straight, that is, a straight structure. As such, since the internal reinforcement 330 is manufactured in a straight structure, there is no connection flange 131 formed in the internal reinforcement 130 of the first embodiment, and the role of the connection flange 131 is replaced by the diaphragm 370 .

In this embodiment, the diaphragm 370 includes a body portion 372 in which a through hole 371 is formed, and an insertion slot 373 formed around the body portion 372 and inserted into the inner reinforcement member 330 . do.

Since the internal reinforcement 330 having a straight structure is inserted into the insertion slot 373 of the diaphragm 370, the outer portion of the insertion slot 373 protrudes outward. The bent portions 141 and 151 of the lower joint reinforcement 140 and the upper joint reinforcement 150 face to face with respect to the protruding portion of the bolt (B), thereby providing the same effect as the above-described embodiment.

According to this embodiment, it is possible to easily and efficiently connect adjacent steel pipe columns, for example, the upper and lower columns 110 and 120 without welding, by a screw assembly method, away from the conventional simple welding bonding method, while simplifying the shape of the internal reinforcement 330 Also, since the diaphragm 370 serves as a connecting flange, the coupling becomes more stable.

8 is an exploded perspective view of a steel pipe column connection structure according to a fourth embodiment of the present invention, and FIG. 9 is a partial assembly view of FIG. 8 .

Referring to these drawings, even in this embodiment, the upper and lower columns 110 and 120 made of steel pipe columns can be easily and efficiently connected, and the inner reinforcement 430, the lower joint reinforcement 240, the upper joint reinforcement 250) and a diaphragm 470 .

In the present embodiment, the lower joint reinforcement 240 and the upper joint reinforcement 250 of the above-described second embodiment are applied, and the inner reinforcement 430 forms a straight straight structure. Accordingly, it provides the same structure and function as the third embodiment, except that the diaphragm 470 having a different shape from that of the third embodiment is applied to the insertion slot 373 .

According to this embodiment of the structure, it is possible to easily and efficiently connect adjacent steel pipe columns, for example, the upper and lower columns 110 and 120 without welding, by a screw assembly method, out of the conventional simple welding joint method, as well as the lower joint reinforcement 240 ), the upper joint reinforcement 250 is disposed in a form surrounding the upper and lower pillars 110 and 120 and at the same time the diaphragm 470 serves as a flange, so the stability of the coupling is further improved.

Although the present invention has been described through various embodiments, it is common knowledge in the art that the present invention is not limited to the described embodiments, and various modifications and variations can be made without departing from the spirit and scope of the present invention. self-evident to those who have Accordingly, it should be said that such modifications or variations fall within the scope of the claims of the present invention.

110: upper column 120: lower column
130: inner reinforcement 131: connecting flange
140: lower joint reinforcement 141: bent part
150: upper joint reinforcement 151: bent part
161: bolt 162: nut
170: diaphragm 171: through hole
172: body portion 173: corner arrangement portion

Claims (9)

an inner reinforcing material disposed on the inner surface of the connecting portion of the upper column and the lower column connected in the longitudinal direction to reinforce the upper column and the lower column, but provided with a plurality of nuts on the inner surface; and
A steel pipe column connecting structure comprising a joint reinforcement connected to the corresponding column along the circumference of any one of the upper column and the lower column.
According to claim 1,
The joint reinforcement is
a plurality of lower joint reinforcements connected to the lower column along the circumference of the lower column; and
The steel pipe column connecting structure comprising a plurality of upper joint reinforcements connected to the upper columns along the circumference of the upper columns and connected to the lower joint reinforcements by bolts.
According to claim 1,
The steel pipe column connection structure, characterized in that the internal reinforcement has a straight structure.
3. The method of claim 2,
The upper column is disposed between the inner reinforcing member and the upper joint reinforcing member, and the steel pipe column connecting structure is characterized in that it is fixed to the corresponding position by a bolt.
According to claim 1,
The steel pipe column connecting structure, which is disposed in the upper column or the lower column, and further comprises a diaphragm for preventing bending deformation of the upper column or the lower column.
6. The method of claim 5,
The diaphragm is
a body portion in which a through hole is formed; and
A steel pipe column connecting structure formed at a corner of the body portion and comprising a plurality of corner arrangement portions disposed at the corners of the joint reinforcement.
6. The method of claim 5,
The diaphragm is
a body portion in which a through hole is formed; and
A steel pipe column connecting structure formed in the body portion and comprising an insertion slot inserted into the inner reinforcing material.
an inner reinforcing material disposed on the inner surface of the connecting portion of the upper column and the lower column connected in the longitudinal direction to reinforce the upper column and the lower column, but provided with a plurality of nuts on the inner surface; and
and a joint reinforcement connected to the corresponding column along the circumference of any one of the upper column and the lower column,
A steel pipe column connecting structure, characterized in that the connecting portion of the joint reinforcing material forms a bent portion that is bent to cross the connecting direction of any one of the upper column and the lower column.
9. The method of claim 8,
The inner reinforcing member has a non-linear structure and a connecting flange connected together between the bent portions of the joint reinforcing member.

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