KR20180050903A - Connection System of Progressive Collapse-Resistant Steel Moment Beam-Column - Google Patents

Abstract

The present invention relates to a joining system of a progressive collision-resistance type steel moment beam-column. According to one embodiment of the present invention, the present invention comprises: a column supporting load of a building; a steel beam connected to a side of the column; and a collapse reinforcing member provided on both side surfaces of the steel beam, and having one end thereof joined to the side of the column to prevent a progressive collapse of the steel beam when the steel beam is broken at the side of the column due to the extreme abnormal load.

Description

{Connection System of Progressive Collapse-Resistant Steel Moment Beam-Column}

More particularly, the present invention relates to a system for joining a collapse-resistant steel moment moment beam to a column, and more particularly, to an apparatus and method for preventing collapse of a building due to an extreme abnormal load such as an earthquake or an explosion, And to a joining system of a chain collapse-resistant steel moment beam-column.

In general, chain collapse is a collapse phenomenon in which the local damage of a structural member caused by an extreme abnormal load, which is not included in the current design load such as an impact load or an explosion load, leads to the destruction of the entire structure.

The steel moment - resisting frame, in which such a chain collapse occurs, has a structural feature that forms a plastic hinge at the end of the steel beam joined to the steel column to dissipate the energy input by an external load such as an earthquake. The steel moment resisting frame is widely used in areas with high seismic risk because it is recognized that the seismic performance is superior to other structural types due to its excellent ductility of steel.

However, brittle fracture phenomena of beam - column joints confirmed in the 1994 Northridge earthquake have necessitated the reestablishment of seismic performance of steel moment - resisting frames. Domestic earthquake damage cases and the successive collapse of Ronan Point apartment in London in 1968 Alfred P. Murrah Building in 1995 and the collapse of the World Trade Center in 2001, the interest in the collapse of the building is increasing again.

In addition, the possibility of attack by terrorists is increasing in Korea due to recent North Korea bombing of Yeonpyeong Island and al Qaeda terrorist threat.

In order to prepare for human disasters not only for public buildings but also for private buildings, the government has formulated "National Civil Defense Facility Protective Design Standards (2011)" and "Special Laws on High-rise Buildings and Underground Connections (2011)".

In this regard, it is considered that the design of the collapse resistance is considered as an essential factor in the public works building in the foreign country, while the domestic law emphasizes the necessity of the technology through the enactment of laws.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a collapse-resistant resisting steel moment capable of delaying the collapse of a building when a beam is broken at a column due to an extreme abnormal load such as an earthquake, And a beam-column joining system.

According to an aspect of the present invention, there is provided a joining system for a collapse-resistant steel moment moment beam-column according to an aspect of the present invention, including a column supporting a load of a building, a steel beam connected to a side of the column, And a collapse reinforcing member provided on both sides of the column to prevent a collapse of the steel beam when the steel beam is broken at a side of the column due to an extreme abnormal load when one end is joined to the side of the column.

The column is made of H-shaped steel and welded and bolted to join the steel beam of the H-shaped steel to the side of the column, and the inner side of the column is connected to each other to improve the collapse resistance performance of the joint portion At least one reinforcing plate may be provided.

The steel frame may be provided with a reinforcing hole provided at one end of the steel frame so as to rotate at a predetermined angle by the collapse reinforcing member when the steel frame is broken due to an extreme abnormal load.

Wherein the collapse reinforcing member comprises a collapse reinforcing plate coupled to a side surface of the column and provided on both sides of the steel beam, a through hole provided at one end of the collapse reinforcing plate at the same position as the reinforcing hole, And a hinge that passes through the reinforcing hole and connects the collapse reinforcing plate to the steel beam.

The hinge includes a fixing hole formed at both ends of the hinge so as to penetrate through the fixing hole perpendicularly to the hinge, a separation preventing bar for preventing the hinge from passing through the through hole and passing through the fixing hole, And a fixed metal member that is spirally coupled to an end of the separation preventing member to prevent the separation preventing member from being released to the outside.

According to the joining system of the collapse-resistant steel moment moment beam-columns according to the present invention, the beam is broken by the collapse reinforcement provided on the side of the column, thereby delaying the collapse of the building, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a joining system of a chain collapse-resistant steel moment beam-column according to an embodiment of the present invention; FIG.
Fig. 2 is a plan view showing the joining system of the chain collapse-resistant type steel moment beam-column shown in Fig. 1. Fig.
3 is an exploded perspective view showing a joining system of a chain collapse-resistant steel moment beam-column according to an embodiment of the present invention.
FIG. 4 is a side view showing a state in which a steel beam is broken according to an embodiment of the present invention; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a collapse-resistant steel moment moment beam-column joint according to an embodiment of the present invention; FIG.

FIG. 1 is a perspective view showing a joining system of a collapse-resistant steel moment moment beam-column according to an embodiment of the present invention, and FIG. 2 is a view showing a joining system of a chain collapse-resistant steel moment beam- FIG.

As shown in FIGS. 1 and 2, according to an embodiment of the present invention, a system for joining a chain collapse-resistant steel moment moment beam-column includes a column 100 supporting a load of a building, And one end of the steel beam 200 is connected to a side of the column 100 and is connected to the side of the column 100 by a chain collapse, And a collapse reinforcing member 400 for preventing collapse of the steel beam 200 when it is broken.

The joining system of the collapse-resistant steel moment moment beam-columns of the chain collapse-resistant type reinforces and improves the joining portion with the steel beam 200 coupled to the side of the column 100, and the steel beam 200 is subjected to a shear force and a bending moment generated in the steel beam 200 200 to prevent the brittle fracture of the welded joint and the brittle fracture of the welded joint to prevent the collapse of the steel beam 200 to allow time for the residents of the building to be evacuated .

For example, when the steel beam 200 connected to the column 100 is broken by an external impact such as an earthquake or a fire, the steel beam 200 can be prevented from being broken by the breakage and the collapse of the building can be delayed, will be.

The column 100 may be formed in various forms such as an H-shaped steel pipe and a square pipe. The steel pipe 200 of the H-shaped steel is joined to the side of the column 100 by welding and bolts, At least one reinforcing plate 110 may be provided to connect both side surfaces of the reinforcing plate 200 to each other to increase the strength of the joint portions where the steel brackets 200 contact.

The reinforcing plate 110 may be installed at the same position as the upper plate and the lower plate of the steel beam 200 formed of H-shaped steel. The reinforcing plate 110 is provided between both side plates of the column 100 formed of the H- It is possible to improve the collapse resistance performance at the position where the steel bar 100 and the steel bar 200 contact each other.

3, the steel frame 200 may be welded to be joined to the side of the column 100 or a separate shear plate may be coupled to the column 100, 200 can be welded and bolted together.

As shown in FIG. 4, the steel beam 200 is rotated by a predetermined angle by the collapse reinforcement 400 when the steel beam 200 is broken due to an ultimate load, A reinforcing hole 300 provided at one end of the steel frame 200 may be provided.

The reinforcing hole 300 is provided at a predetermined distance from one end of the steel beam 200 contacting with the column 100 so that load and impact are generated on the steel beam 200, The reinforcing hole 300 may be broken by the load of the steel bar 200 when the steel bar 200 is broken, thereby preventing the steel bar 200 from falling downward.

For example, when the reinforcing hole 300 is positioned close to the column 100, when the steel beam 200 is suddenly broken on the column 100 due to an impact on the steel beam 200, The reinforcing hole 300 is torn to the end portion of the steel beam 200 by the load of the steel frame 200 so that the steel beam 200 can be lowered.

Therefore, the reinforcing hole 300 may be positioned at a predetermined distance from the column 100 to withstand the load of the steel beam 200.

The reinforcing hole 300 may be circular or elliptical and smoothly rotate when it is rotated by the collapse reinforcing member 400.

The collapse reinforcing member 400 includes a collapse reinforcing plate 410 coupled to a side surface of the column 100 and provided on both sides of the steel frame 200, A through hole 420 provided at the same position as the reinforcing hole 300 and a through hole 420 extending through the through hole 420 and the reinforcing hole 300 to connect the reinforcing plate 410 to the steel beam 200 A hinge 430 may be provided.

The collapse reinforcing plate 410 may be coupled to the side of the column 100 and may be formed of the collapse reinforcing plate 410 and the pillars 100 A bracing 411 may be provided.

The steel bracket 200 can be rotated at a predetermined angle while supporting the weight of the steel bracket 200 when the steel bracket 200 breaks due to the breakage of the column 100 by the brace 411 .

The through hole 420 may be provided at one end of the collapse reinforcing plate 410 at the same position as the reinforcing hole 300. At this time, one end of the through hole 420 and the end of the collapse reinforcing plate 410 may be maintained at a predetermined distance to prevent the collapse reinforcing plate 410 from being damaged when the steel frame 200 is supported.

The hinge 430 simultaneously passes through the through hole 420 and the reinforcing hole 300 of the collapse reinforcing plate 410 provided on both sides of the steel beam 200 and is supported by the hinge 430, The steel beam 200 can be held without falling down when the column 200 is broken at the column 100.

The hinge 430 includes a fixing hole 431 formed at both ends of the hinge 430 so as to penetrate the hinge 430 in a direction perpendicular to the hinge 430 and a through hole 420 penetrating the fixing hole 431, And the release preventing bar 432 is spirally engaged with the end of the release preventing bar 432 passing through the fixing hole 431 so that the release preventing bar 432 is released to the outside The fixing hardware 433 may be provided.

The fixing hole 431 may be provided at both ends of the hinge 430. The hinge 430 may penetrate the through hole 420 and the reinforcing hole 300 and then be inserted into the through hole 420. [ As shown in Fig.

In addition, the release hole 432 may be formed in the fixing hole 431 or may be formed as a spiral groove, so that the release prevention bar 432 may be inserted spirally.

The release preventing bar 432 may be provided with a head at an upper portion thereof so as to be able to engage without passing through the fixing hole 431. The body of the escape preventing bar 432 may be formed in a spiral shape, So that the fixed hardware 433 can be coupled.

The fixed metal piece 433 is spirally engaged with the end of the release preventing bar 432 exposed through the fixing hole 431 so that the hinge 430 is inserted into the reinforcing hole 300 and the through hole 420, As shown in Fig.

When the steel bar 200 is broken at the column 100 due to an impact such as an earthquake or a fire due to the hinge 430 and the upper load, the steel bar 200 is not immediately lowered, It is possible to delay the collapse of the building by rotating at a predetermined angle.

As a result, residents and pedestrians residing in the lower part can evacuate, thereby minimizing the damage to persons.

Although the present invention has been described in connection with a collapse-resistant steel moment moment beam-column joining system according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiments disclosed herein. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, I would say.

100: column 110: reinforcing plate
200: steel frame 300: reinforcing hole 400: collapse reinforcing body 410: collapse reinforcing plate
420: through hole 430: hinge
431: Fixing hole 432:
433: Fixed hardware

Claims (5)

A column supporting the load of the building,
A steel beam connected to a side surface of the column,
And a collapse reinforcement body provided on both side surfaces of the steel beam to prevent a collapse of the steel beam when the steel beam is broken at a side of the column due to an ultimate abnormal load when one end thereof is joined to a side surface of the column, Type Steel Moment Beam - Column Joining System.
The method according to claim 1,
The column is made of H-shaped steel, and the steel beam of the H-shaped steel is joined to the side of the column by welding and bolt,
Wherein the column includes at least one reinforcing plate for connecting the inner sides of the column to each other to improve the collapse resistance performance of the joint portion where the steel beam is contacted.
The method according to claim 1,
Characterized in that the steel frame is provided with a reinforcing hole provided at one end of the steel frame so as to rotate at a predetermined angle by the collapse reinforcing member when the steel frame is broken due to an extreme abnormal load. - Column joining system.
The method of claim 3,
Wherein the collapse reinforcing member is a collapse reinforcing plate coupled to side surfaces of the column and provided on both side surfaces of the steel beam,
A through hole provided at one end of the collapse reinforcing plate at the same position as the reinforcing hole,
And a hinge connecting the collapse reinforcing plate and the steel beam through the through hole and the reinforcing hole.
5. The method of claim 4,
The hinge includes fixing holes formed at both ends thereof so as to penetrate perpendicularly to the hinge,
A fixing hole penetrating through the fixing hole to prevent the hinge from passing through the through hole,
And a fixed metal member which is spirally coupled to an end portion of the separation preventing bar passing through the fixing hole to prevent the separation preventing member from being released to the outside.

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