KR101521825B1 - Structure for connecting rc column and steel belt truss using plate - Google Patents

Abstract

The present invention is an RC column and a steel belt truss joint structure, wherein the RC column uses a plate having an improved structure that, when a plurality of outer columns positioned outside a core and belt trusses are welded with each other, each available space is formed between each outer column and the belt trusses, in order to prevent deformation or damage to the outer column caused by heat generating when welding. The present invention includes the outer columns arranged outside the core, connection blocks coupled to cover a portion of an outer circumference of each outer column, belt trusses welded with both sides of each connection block, available spaces with a recess shape, which are formed between upper and lower sides of a front surface of each connection block and each outer column, upper and lower finishing plates, which are rotatably positioned at the upper and lower sides of the front surface of each connection block, respectively, to selectively make close contact toward the available spaces, and fixing means for fixing the front surfaces of the upper and lower finishing plates to be positioned on a surface equal to one side surface of each connection block.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a RC column and a steel belt truss joint structure using a plate,

The present invention relates to a RC column and a steel belt truss joint structure using a plate, and more particularly, to a space between a plurality of outer columns provided on the outer side of a core and an outer column and a connecting block To an RC column and a steel belt truss joint structure using a plate whose structure is improved so as to prevent deformation or breakage of an external column caused by heat generated during a welding operation.

In general, a core is installed in a building structure to support lateral forces and other vertical loads caused by wind and earthquake loads.

1 to 3, in the case of a building structure such as a high-rise building or an apartment, an external pillar 20 is installed around the core 10 and an outrigger 40 is used to connect the core 10 and the external pillar And a belt truss 30 connecting the outer pillars 20 to each other and connecting the outer pillars 20 to each other.

For example, the Outrigger System is one of the horizontal load-resisting systems currently applied to domestic and foreign high-rise buildings. The Outrigger System connects the core and outer pillars of the building to the steel outrigger truss (or RC outrigger wall). To improve the overall lateral stiffness of the building by controlling the pure cantilever behavior of the core.

Therefore, the existing outrigger system can prevent the excessive lateral displacement of the building structure by allowing the external pillars to bear the lateral load caused by the wind load as well as the vertical load acting on the building structure.

Korean Patent Registration No. 10-1220763 entitled "Structure connecting apparatus and outrigger structure using the same" (Registered on Mar. 31, 2013) is connected to a first coupling unit and other structures connected to a structure, And a second coupling unit configured to cooperate with the first coupling unit to compensate the applied load by the first coupling unit.

Thus, not only is it economically and efficiently compensated by automatically compensating for the difference in the amount of shrinkage caused by the connection between structures having different materials, but also secures the joint between the structures against the horizontal load such as seismic load or wind load acting on the building, And the resistance performance to the above is also expected to be excellent.

As another example of the prior art, there has been proposed a structure in which a horizontal (horizontal) line is formed around an outrigger layer of an architectural structure, as disclosed in Korean Patent Application Publication No. 10-2009-0067925 entitled " Outrigger Reinforcing Structure Using Horizontal Steel Wire " And a plurality of supports that support the steel wires and are fixed to the outer periphery of the outrigger layer of the building structure.

In this case, the support force of the building structure is induced by applying a tension force using a steel wire to the belt truss structure layer.

The work of connecting the belt truss to the conventional external pillar is performed by connecting the belt truss to the connection block which is disposed around the outer periphery of a part of the external pillar and is made of a metal material in a block shape.

 The step of forming the existing external column has a step of arranging the reinforcing bars in the formwork, filling the concrete in the form of the reinforcing bars, and stacking the reinforcing bars in a stepwise manner.

Since the process of connecting the belt truss in the process of forming the external column is integrated with the belt truss by welding using the connecting block as described above, deformation of the connecting block may occur due to heat generated during the welding operation, There is a possibility that the joint portion of the outer column coupled with the connection block is broken due to expansion of the block.

Korean Patent Registration No. 10-1220763 entitled "Structural Connecting Device and Outrigger Structure Using the Same" (Registered Date: 2013.01.03) Korean Patent Laid-Open No. 10-2009-0067925 "Outrigger reinforcing structure using horizontal steel wire" (Published date: November 3, 2011)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and it is an object of the present invention to increase rigidity at a connection portion between an outer column and a belt truss, And a steel truss joint structure using the plate having improved structure.

According to an aspect of the present invention, there is provided a connector comprising: a plurality of outer pillars disposed on an outer side of a core; a connection block coupled to surround a part of the outer periphery of the outer pillars; A truss,

A clearance space formed between the lower side of the front surface of the connection block and the outer side of the connection block,
An upper and a lower finishing plate rotatably provided on a front surface and a lower surface of the connecting block,

And fixing means for fixing the front surface of the upper and lower finishing plates so as to be located on the same plane as one side of the connection block.

The fixing means includes a first and a second fitting members respectively provided on the front surface of the upper finishing plate and one side lower portion of the connecting block,

A second fitting member provided on the front surface of the lower finishing plate and one side surface of the connecting block, respectively,

And first and second fixing rods fitted into the first and second fitting members to be respectively inserted into the first and second fitting members so as to be received and supported by the second and fourth fitting members.

The connecting block further includes a reinforcing member which is integrally connected to the inside and arranged in a direction intersecting with each other.

The connecting block may further include a reinforcing plate integrally connected to the inside of the connecting block and having a plurality of reinforcing bars through which reinforcing bars are inserted, the reinforcing plate having a plurality of filling holes filled with concrete.

The connection block is further provided with a stud bolt integrally extending inward.

Another characteristic element of the present invention includes a plurality of external pillars disposed on the outside of the core, a connection block coupled to surround a part of the outer periphery of the external pillars, and a belt truss welded to both left and right sides of the connection block. Respectively,

A clearance space formed between the lower side of the front surface of the connection block and the outer side of the connection block,

An upper and a lower finishing plate sandwiched between the upper and lower clearance spaces,

And fixing means for fixing the front surface of the upper and lower finishing plates so as to be located on the same plane as one side of the connection block.

In the welding operation for connecting the connecting block and the belt truss, the upper and lower finishing plates are rotated forward about the hinge, or the upper and lower finishing plates are separated from the connecting block to form a clearance space, It is possible to minimize the deformation of the connection portion due to heat generated when the welding operation is completed. After the welding operation is completed, the upper and lower finishing plates are disposed in the original position so as to be in close contact with the inside of the coupling groove, It has an advantage that it can support an axial load.

Further, according to the present invention, reinforcing means (stiffener, stud bolt) is further provided on the inside of the connecting block, so that the connecting force between the connecting block and the outside pillar can be reinforced.

In the present invention, when a reinforcing plate is applied, when the concrete is poured through a reinforcing plate through a reinforcing plate after the reinforcing bars are vertically passed through a reinforcing steel through hole, the concrete is filled up and down with respect to the reinforcing plate In addition, since the reinforcing plate is integrated with the external column when the concrete is filled in the filling hole, the bonding force between the external column and the connecting block can be firmly maintained.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a general structure of a building; Fig.
FIG. 2 is a perspective view showing a coupling structure of an outer column and a belt truss in FIG. 1; FIG.
3 is a sectional view of Fig. 2;
FIG. 4 is a perspective view showing a first embodiment of a RC column and a steel belt truss joint structure using a plate according to the present invention. FIG.
Fig. 5 is a side sectional view of Fig. 4; Fig.
FIG. 6 is a front view showing the combined state of FIG. 4;
7 is a perspective view showing an example of the reinforcing means of the present invention.
8 is a perspective view showing another example of the reinforcing means of the present invention.
9 is a perspective view showing still another example of the reinforcing means of the present invention.
10 is a cross-sectional view showing the use state in which the reinforcing means of the present invention is applied together.
FIG. 11 and FIG. 12 are views showing disassembly and assembled state of the RC column and the steel belt truss joint structure using the plate according to the second embodiment of the present invention. FIG.

The present invention provides a clearance space between the outer pillars and the belt truss when welding a plurality of outer pillars provided on the outer side of the core to the belt truss to prevent deformation or breakage of the outer pillars due to heat generated during the welding operation .

1, an outer pillar 20 is provided around a core 10, and the core 10 and an outer pillar 20 are connected to each other by using an outrigger 40. In addition, And a belt truss (30) connecting the stator (20) to each other.

Referring to FIGS. 4 to 10, a first embodiment of a RC column and a steel belt truss joint structure using a plate according to the present invention will be described with reference to FIG. 1, And a belt truss 30 welded to both left and right sides of the connection block 100. The connecting block 100 is connected to the outer pillar 20 of the connecting block 100 so as to surround a part of the outer periphery of the plurality of outer pylons 20, A free space 25 formed in a shape of a groove between the lower side of the connection block 100 and the lower side of the external pillar 20 and the lower side of the connection block 100, Upper and lower finishing plates 200A and 200B are provided on the same side of the connecting block 100 as the upper and lower finishing plates 200A and 200B, And fixing means (300) for fixing it to the position.

4 and 5, the outer pillar 20 is formed with an engaging groove portion 22 to which a block-shaped connecting block 100 is coupled to an outer circumferential surface of a part of the outer pillar 20.

The connection block 100 is a metal material for welding and is formed in a block shape having an open top and a bottom and is coupled so as to surround the outer circumferential surface of the outer column 20 when the outer column 20 is formed.

The connection block 100 is provided with upper and lower finishing plates 200A and 200B which are rotatable forward and outward at upper and lower portions of one side corresponding to the front portion.

The upper and lower finishing plates 200A and 200B have a structure that is connected to the lower side portion of the connection block 100 welded to the belt truss 30 by the hinge 205 and is rotatable forward.

This is to minimize the deformation of the connecting block 100 between the connection block 100 and the external column 20 due to heat generated during the welding operation.

The fixing means 300 includes a first fitting member 310 formed on the front surface of the upper finishing plate 200A so as to communicate with the upper and lower portions of the upper finishing plate 200A, And a third bottom member 330 formed on the upper surface of the lower finishing plate 200B and the upper surface of the connecting block 100, And first and second fasteners (320, 340) inserted through the first and third fastening members (310, 330) and fitted and held in the second and fourth fastening members (320, 340) And rods 350A and 350B.

Referring to FIG. 6, the first fixing rod 350A is coupled with the upper end finishing plate 200A so that the upper end thereof is coupled to the first fitting member 310 and the lower portion thereof is fitted to the second fitting member 320, The upper finishing plate 200A is tightly fixed to the inner surface of the engaging groove 22 so that the front portion of the block 100 is positioned on the same surface.

The upper end of the second fixing bar 350B is inserted into the third fitting member 330 and the lower end of the second fixing bar 350B is inserted into the fourth fitting member 340 so that the lower finishing plate 200B and the connecting block 100, The lower finishing plate 200B is fixed to the inner surface of the engaging groove 22 so as to be positioned on the same surface.

The connecting block 100 of the present invention may further include reinforcing means for doubling the coupling force with the external column 20. [

As shown in FIG. 7, the reinforcing means of the present invention is provided with a reinforcing member 410 which is integrally connected to the inside of the connection block 100 and crosses each other and has a "+" shape.

As the reinforcing material 410 is integrated when the concrete of the external pillar 20 using the form is poured, it becomes possible to increase the coupling force between the external pillar 20 and the connecting block 100.
7 shows a side portion of the connection block 100 where welding with the belt truss 30 is performed.

As another example of the reinforcing means of the present invention, as shown in FIG. 8, a plurality of reinforcing bars 422 are integrally connected to the inside of the connecting block 100 in the lateral direction, And a reinforcing plate 420 having a plurality of filling holes 425 so that the concrete is filled up and down when the concrete is poured.

The reinforcing plate 420 is integrally connected to the inner surface of the connection block 100 and has a fill hole 425 for reinforcing the concrete constituting the external column 20, (422) are formed.

Therefore, when the concrete is poured using the form after the reinforcing plate 420 is vertically passed through the reinforcing steel through hole 422, the concrete passes through the filling hole 425, and the reinforcing plate 420 The reinforcing plate 420 is integrated with the external pillar 20 when the concrete is cured as the concrete is filled in the filling hole 425 and the external pillar 20 and the connecting block 100) can be increased.

As another example of the reinforcing means of the present invention, as shown in FIG. 9, a plurality of stud bolts 430 formed to extend inside the connection block 100 and integrated with the inside of the concrete-filled outer column 20 Respectively.

The stud bolts 430 are integrally cured when the concrete of the external column 20 is poured to perform the function of increasing the coupling force between the external pillar 20 and the connection block 100.

10 is a cross-sectional view showing a state in which the reinforcing means of the present invention is applied as well. A reinforcing plate 410, a reinforcing plate 420 and a stud bolt 430 are applied to the inside of the connecting block 100, .

In the first embodiment of the present invention having such a configuration, the connecting block 100 is disposed around the engaging groove portion 22 of the external column 20 during the construction of the external column 20 in which the reinforcing bars are laid and the concrete is laid using the form So that the connection block 100 is integrally coupled to the outer circumferential surface of the outer column 20. [

The connecting operation between the connecting block 100 and the belt truss 30 is connected by a welding operation and the upper and lower finishing plates 200A and 200B provided on the upper and lower sides of the connecting block 100 The welding operation is performed after rotating the hinge 205 to the front side relative to the hinge 205 to provide a clearance space 25 as a clearance space between one side of the connecting block 100 and the engaging groove 22.
At this time, the welding with the belt truss 30 is performed on the left and right sides of the connecting block 100, which is not interfered with the upper and lower finishing plates 200A and 200B.

The space space 25 is deformed at the connection portion between the connection block 100 and the belt truss 30 by the heat generated during the welding operation of the connection block 100 and the belt truss 30, It is possible to prevent deformation or breakage of cracks or the like generated at the edge of the joint groove 22 of the outer column 20 which is concrete.

The fixing means 300 of the present invention rotates the upper and lower finishing plates 200A and 200B back to their original positions after welding of the connecting block 100 and the belt truss 30 is completed, The first finishing rod 350A is inserted into and supported by the first and second fitting members 310 and 320 to fix the upper finishing plate 200A and the second fixing rod 350B is fitted into the third and fourth fitting members 330 and 340, So that the lower finishing plate 200B can be fixed.

The upper and lower finishing plates 200A and 200B are rotated about the hinge 205 in the forward direction during the welding operation for connecting the connecting block 100 and the belt truss 30 to the free space portion 25 After finishing the welding operation, the upper and lower finishing plates 200A and 200B are rotated to the original position so as to be in close contact with the inside of the engaging groove 22, and then the fixing unit 300 is rotated, So as to support an axial load transmitted to the external column 20. [

The present invention further includes reinforcing means 410 (reinforcing plate 420, stud bolt 430) on the inner side of the connecting block 100 so that the distance between the connecting block 100 and the outer column 20 It has an advantage that it can reinforce the bonding force.

11 and 12 illustrate a second embodiment of the present invention. Unlike the first embodiment described above, the upper and lower finishing plates 200A and 200B are not rotationally coupled by the hinge 205, The upper and lower finishing plates 200A and 200B are configured to be detachable from one side of the connection block 100 and fixed by the fixing means 300. [

To this end, the second embodiment of the present invention includes a space 25 formed as a groove between the lower side of the connection block 100 and the outer column 20, Upper and lower finishing plates 200A and 200B and the upper and lower finishing plates 200A and 200B are fixed on the same plane as one side of the connecting block 100, (300).

The fixing means 300 is configured in the same manner as the fixing means 300 of the first embodiment described above, so that a duplicate description will be omitted.

The space 25 is formed in a space formed in a groove on one side of the outer column 20 as the connection block 100 is coupled to the coupling groove 22 formed in a part of the outer circumference of the outer column 20. [ 25).

That is, in the first embodiment, the free space portion 25 is formed only when the upper and lower finishing plates 200A and 200B rotate, but in the second embodiment, the free space portion 25 is formed in the outer column 20, The coupling block 100 is coupled to the coupling groove 22 of the outer cylinder 20.

Therefore, in the second embodiment of the present invention, the connection block 100 is coupled to the external column 20 to form the clearance space 25, and the connection block 100 and the belt truss 30 are welded together The upper and lower finishing plates 200A and 200B are connected to the connecting block 100 by using the fixing means 300 after the upper and lower finishing plates 200A and 200B are fitted and fitted in the free space portion 25. [ As shown in Fig.

10: Core 20: Outer column
22: engaging groove portion 25: clearance portion
3O: Belt Truss 40: Outrigger
100: connection block 200A, 200B: upper and lower finishing plate
205: Hinge 300: Fixing means
310, 320, 330, 340: first, second,
350A, 350B: first and second fixing rods 410: stiffeners
420: reinforcing plate 422: reinforcing plate
425: Fill hole 430: Stud bolt

Claims (6)

A plurality of external pillars 20 disposed on the outer side of the core 10 and a connection block 100 to surround a part of the outer periphery of the external pillars 20; And a belt truss (30) welded to both sides,
A clearance space 25 formed in the shape of a groove between the lower side of the front surface and the lower side of the connection block 100 and the outer column 20,
Upper and lower finishing plates 200A and 200B rotatably provided on the front and the lower sides of the connection block 100 and selectively in contact with the space 25,
And fixing means (300) for fixing the front surfaces of the upper and lower finishing plates (200A, 200B) so as to be positioned on the same plane as one side of the connecting block (100). Belt truss joint structure. The method according to claim 1,
The fixing means 300 includes a first and a second fitting members 310 and 330 provided on the front surface of the upper finishing plate 200A and one side lower portion of the connecting block 100, respectively,
A second and a fourth fitting members 320 and 340 provided on the front surface of the lower finishing plate 200B and one side surface of the connecting block 100, respectively,
The first and second fastening rods 350A and 350B are inserted into the first and second fastening members 310 and 330 so as to respectively receive and support the end portions of the first and second fastening members 320 and 340, Wherein the steel plate is a steel plate. The method according to claim 1,
The connecting block (100) according to claim 1, further comprising a reinforcing member (410) integrally connected to the inside and arranged in a direction crossing each other. The method according to claim 1,
The connecting block 100 is integrally connected to the inside and includes a plurality of reinforcing bars 422 through which a reinforcing bar for reinforcing the reinforcing bars is inserted and a plurality of reinforcing holes 425 filled with concrete are formed, And a plate (420). ≪ RTI ID = 0.0 > A < / RTI > The method according to claim 1,
Wherein the connecting block (100) is further provided with a stud bolt (430) extending integrally therewith. ≪ RTI ID = 0.0 > 31. < / RTI > A plurality of external pillars 20 disposed on the outer side of the core 10 and a connection block 100 to surround a part of the outer periphery of the external pillars 20; And a belt truss (30) welded to both sides,
A clearance space 25 formed in the shape of a groove between the lower side of the front surface and the lower side of the connection block 100 and the outer column 20,
Upper and lower finishing plates 200A and 200B respectively fitted in the upper and lower space spaces 25,
And fixing means (300) for fixing the front surfaces of the upper and lower finishing plates (200A, 200B) so as to be positioned on the same plane as one side of the connecting block (100). Belt truss joint structure.

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