KR20140080399A - Composite Beam and Joint thereof - Google Patents

Abstract

The present invention relates to a composite beam for buildings and bridges and a joint thereof. The composite beam has at least one through-hole at the bottom of the end of both webs facing each other; a cylindrical sleeve joined to a space between both webs; and a joint plate having a joint hole in a position corresponding to the through-hole in order to insert a long bolt into the joint hole of the joint plate, the trough-hole and the sleeve of the webs and to engage them together using a nut. Therefore, the present invention provides a composite beam and a joint thereof, which enable workers to simply carry out bolting without putting their hands into the composite beam; eliminate cross-sectional loss caused by the formation a working hole on the webs; and eliminate inconvenience caused by the closing of a working hole for the placement of concrete.

Description

Composite Beam and Joint < RTI ID = 0.0 >

The present invention relates to a joint of a composite beam and a composite beam used for a building or a bridge, and more particularly, to a bolt fastening operation of a composite beam joint, there is no need to drill a work hole in the lower portion of the web, The present invention relates to a joint of a composite beam and a composite beam that does not suffer from a cross-sectional loss due to the formation of holes or troubles in blocking work holes.

In a building or bridge, a composite beam structure refers to a structure in which a concrete slab and a steel beam are connected to each other by a shear connection member to integrate the behavior of the structure with respect to external force.

Unlike the conventional steel composite bellows described above, the TSC composite sheet (Patent No. 10-043017), which can fill the inside of the steel plate with the upper portion and is integrated with the slab to reduce tensile strength and relatively reduce the steel billet, Have been developed and used (Fig. 1).

However, in the case of a composite beam having a narrow width and a large dance, such as a steel plate forming composite beam as shown in FIG. 1, a combination of a composite beam and a composite beam, or a combination of a composite beam and a column, It was difficult to fasten bolts. As a result, the worker often omits the bolt fastening operation of the lower portion of the web 12, as shown in the dotted line in Fig. 1, so that the rigidity of the joint portion is lowered.

Therefore, conventionally, in order to solve such a problem, a method of piercing a work hole in a web 12 and then inserting a hand into the work hole from the outside to fasten the bolt has been mainly used.

However, there is a risk of a cross-sectional loss of the beam in the above-described working process, and after the bolt fastening operation is completed, it is troublesome to close the work hole formed in the web 12 in order to pour concrete into the composite web.

2, in which the web 12 is divided into the upper web 12a and the lower web 12b, the lower webs 12a and the lower webs 12b are separated from each other by the interference of the lower horizontal board 122a or the upper horizontal board 122b. It is difficult to fasten the bolts to the bolts 12a and 12b. Therefore, as in the portion indicated by the dotted line in Fig. 2, the operation for fastening the bolts to the lower web 12b may be omitted, and this may cause the lowering of the strength of the joined portion. In addition, in the composite beam 10 shown in FIG. 2, the height of the lower web 12b is low and it is practically impossible to drill a work hole in the lower web 12b.

In order to solve the above-mentioned problems, the present invention is to provide a composite bow of a narrow width and a large dance, in which a work hole is drilled in a lower portion of a web for a bolt fastening operation of a composite joining portion, As shown in Fig.

Another object of the present invention is to provide a joining portion of a composite beam and a composite beam which are free from the problems of cross-sectional loss caused by forming a work hole in a web at a joint portion of a conventional composite beam,

According to a preferred embodiment of the present invention, there is provided a webbing comprising a lower flange, a pair of webs vertically coupled to both ends of the lower flange, and an upper flange bent inward or outward of the web at the upper end of the web, And at least one through hole is formed at a position corresponding to a lower side of both side web ends facing each other of the composite beams, A cylindrical sleeve is coupled such that both ends of the through holes are aligned with each other, and a coupling plate having a coupling hole at a position corresponding to the through hole is formed on the outer side of the coupling web, Insert the bolt through the coupling ball, through-hole and sleeve of the web. It provides a composite beam joints, characterized in that for fastening with the nuts.

According to another preferred embodiment of the present invention, the joining plate is a side plate of a U-shaped bracket composed of a lower plate and a pair of side plates vertically upwardly joined at both ends of the lower plate. do.

According to another preferred embodiment of the present invention, the web is divided into an upper web and a lower web, wherein the lower web is formed by bending vertically upward at both ends of the lower flange, and an upper horizontal flat plate is formed at the upper end of the lower web, Wherein the upper and lower horizontal plates are coupled to each other such that the upper horizontal plate and the lower horizontal plate are in contact with each other, wherein the through hole is formed in the lower web so that the sleeve is sandwiched between the pair of lower webs To the joining portion of the composite beam.

According to another preferred embodiment of the present invention, there is provided a method of making a webbing comprising a lower flange, a pair of webs joined vertically upwards at both ends of the lower flange, and an upper flange bent inward or outwardly of the web at the top of the web, At least one through hole formed at a position corresponding to each other on a lower side of both side web ends facing each other of the above-mentioned composite beams, and a cylindrical sleeve is provided between the both side webs, And both ends of the sleeve are welded to the inside of the web, respectively.

According to another preferred embodiment of the present invention, the web is formed by being divided into an upper web and a lower web, the lower web being formed by bending vertically upward at both ends of a lower flange, And the lower horizontal plate is provided with a lower horizontal plate bent inwardly, and the upper horizontal plate and the lower horizontal plate are brought into contact with each other so that the through holes are formed in the lower web, And the first and second plates are coupled to each other.

According to the present invention as described above, the following effects can be obtained.

First, the joining portion of the composite beam can be formed only by a process of joining the sleeve to penetrate between the webs on both sides of the composite beam and inserting the long bolts into the sleeve from the outside. Therefore, the bolt fastening operation can be performed simply without putting the hand into the inside of the composite bolt.

Second, since the sleeve coupled between the webs on both sides of the composite beam serves as a guide when inserting the bolts, the insertion of the bolts is very simple.

Third, it is easy to work because the nut tightening work is performed only outside the composite beam.

Fourth, there is no sectional loss due to formation of the work hole in the web at the joint portion of the composite beam, so that deterioration of the strength of the joint portion can be prevented, and there is no inconvenience that the work hole is blocked with a slab or the like.

Fifth, in the case of a composite beam in which the web is divided into upper and lower webs, the bolt can be fastened to the lower web without interfering with the lower horizontal plate or the upper horizontal plate, and there is no need to drill the work hole in the lower web portion.

Sixth, since joints of both webs are operated at the same time at one time, it is possible to simplify construction of joints of composite beams and to reduce air and construction cost.

1 is a cross-sectional view showing an embodiment of a conventional TSC composite sheet.
2 is a cross-sectional view showing an embodiment of a composite web in which a conventional web is divided vertically.
3 is a cross-sectional view showing an embodiment of a joining portion of a composite beam according to the present invention.
4 is an enlarged view of the portion 'A' in FIG.
5 is a cross-sectional view showing another embodiment of the joint of the composite beam of the present invention.
6 is a perspective view showing an embodiment of the composite bow of the present invention.
Fig. 7 is an exploded perspective view showing a joining state of neighboring composite beams according to the present invention. Fig.
8 is an exploded perspective view showing a state of joining a composite bracket and a column bracket according to the present invention.

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

3 is a cross-sectional view showing an embodiment of a joining portion of the composite brace 10 of the present invention, and Fig. 4 is an enlarged view of a portion "A" of Fig.

The present invention relates to a webbing comprising a lower flange (11), a pair of webs (12) joined vertically above both ends of the lower flange (11) The present invention relates to a joining portion of a composite beam 10 for joining a composite beam 10 composed of a flange 13 and filled with concrete to other members.

The composite beam 10 is composed of a lower flange 11 serving as a bottom plate of the composite beam 10, a pair of webs 12 serving as side plates of the composite beam 10, and an upper flange 13.

In particular, the web 12 of the composite beam 10 may be configured such that a lower end portion thereof is bent inward as in the embodiment of FIG. The lower flange 11 may be formed of a flat plate and joined to the lower portion of the bent portion of the web 12 by welding.

The present invention is characterized in that at least one through hole 121 is formed at a position corresponding to the lower side of the opposite ends of the opposite side webs 12 of the composite web 10 and between both side webs 12 And a cylindrical sleeve 14 is coupled to the outer side of the web 12 to be coupled with the through hole 121 at a position corresponding to the through hole 121 And the elongated bolts 30 are inserted into the through holes 121 and the sleeve 14 of the web 12 through the engaging holes 221 of the engaging plate 22 And fastened with a nut (N).

The through hole 121 is formed on the lower side of the end of the web 12 and is formed at a position corresponding to the pair of facing webs 12.

In the embodiment of FIG. 3, the through-holes 121 are formed in a plurality of rows along the height of each of the webs 12.

The sleeve 14 has a hollow cylindrical cross-section so that the body of the long bolt 30 can be inserted therein. The sleeve 14 has a through-hole 121 formed at a position corresponding to the facing web 12, Respectively.

Both ends of the sleeve 14 can be welded to the inner side of the web 12, as can be seen in the enlarged view of Fig. At this time, the sleeve 14 may be inserted into the through hole 121, but the inner diameter of the sleeve 14 may be set to the width of the web 12 in order to minimize the increase in the cross- It is preferable that the sleeve 14 is engaged with the inner surface of the web 12 in conformity with the inner diameter of the through hole 121 formed in the sleeve 12.

Since the sleeve 14 can be factory-assembled at the time of factory production of the synthetic bobbin 10, the position and accuracy of coupling is high.

A coupling plate 22 having a coupling hole 221 formed at a position corresponding to the through hole 121 is provided on the outside of the web 12 of the other composite bow 10 or the composite bow 10 to be joined to the column And joins the composite member 10 with the neighboring member.

At this time, the other composite beams 10 or columns adjacent to the composite beam 10 are inserted into the coupling holes 221 of the coupling plate 22, the through holes 121 of the composite web 10 and the sleeve 14, And the nut (N) is fastened to each other.

Of course, the lower flange 11 of the composite beam 10 also engages with the neighboring member by means of the coupling plate 21.

That is, only by inserting the long bolts 30 into the sleeve 14 coupled between the both side webs 12 of the composite web 10 and performing a nut tightening operation outside the composite web 10, It is possible to join with neighboring members.

Therefore, even if the height of the beam exceeds a certain length, it is not necessary to insert the hand into the synthetic beam 10 through the upper flange 13 to perform the bolt fastening operation. In addition, since the sleeve 14 serves as a guide when inserting the long bolt 30, the operation of inserting the long bolt 30 is very simple. In the prior art, both side webs 12 must be fastened. In the present invention, however, since the two side webs 12 are fastened together with one long bolt 30, the working time is saved. In addition, unlike the prior art, there is no cross-sectional loss due to the formation of the work hole in the web 12, and thus the strength of the joint portion can be prevented from lowering, and the work hole must be closed with a slab or the like There is no hassle.

The long bolt 30 may be a general bolt, but a TS bolt having a tip at the tip may be used for securing a uniform tightening force.

Meanwhile, in the present invention, the coupling plate 22 may be a side plate of a U-shaped bracket 20 composed of a bottom plate and a pair of side plates vertically upwardly coupled at both ends of the bottom plate.

In this case, as shown in FIG. 8 to be described later, the composite beam 10 can be mounted on the upper surface of the lower plate of the U-shaped bracket 20, and the U-shaped bracket 20 and the composite beam 10 can be joined.

5 is a cross-sectional view showing another embodiment of the joining portion of the composite brace 10 of the present invention.

5, the web 12 is divided into an upper web 12a and a lower web 12b and the lower web 12b is joined to the lower flange 12b And an upper horizontal plate 122b bent inward is provided at an upper end of the lower web 12b and a lower horizontal plate 122a formed by bending inward is formed at a lower end of the upper web 12a. And the through hole 121 is formed in the lower web 12b so that the sleeve 14 is connected to the lower side of the pair of lower plates 122a, And is coupled between the webs 12b.

When the web 12 is divided into the upper and lower webs 12a and 12b as shown in FIG. 5, the bolts are fastened to the lower web 12b by interference of the lower horizontal plate 122a or the upper horizontal plate 122b Not only that, it is also difficult to drill a work hole in the lower-height lower web 12b.

However, in the present invention, the through hole 121 is formed in the lower web 12b facing the sleeve, the sleeve 14 is positioned, and the sleeve 14 is passed through the long bolt 30 The joining portion of the composite beam 10 can be formed only by the process.

6 is a perspective view showing an embodiment of the composite beam 10 of the present invention.

The composite brace 10 of the present invention comprises a lower flange 11, a pair of webs 12 vertically coupled to both ends of the lower flange 11, Wherein at least one of the composite beams is formed at a position corresponding to a lower portion of an end portion of an end portion of each of the opposing side webs of the composite beam, the composite flange being composed of an upper flange A through hole 121 is formed between the two webs 12 and a cylindrical sleeve 14 is provided between the two webs 12. The sleeve 14 is positioned between the positions of the through holes 121 of the opposite side webs 12 And both ends of the sleeve (14) are welded to the inside of the web (12), respectively.

6 shows the composite beam 10 constituting the joint of the composite beam 10 of the present invention and includes a composite beam 10 composed of a lower flange 11, a pair of webs 12 and an upper flange 13, The structure of the through-hole 121 and the sleeve 14 formed in the web 12 is the same as described above for the joining portion of the composite web 10.

The composite web 10 of the present invention is formed such that the web 12 is divided into an upper web 12a and a lower web 12b so that the lower web 12b is vertically upwardly disposed at both ends of the lower flange 11 And an upper horizontal plate 122b is formed at the upper end of the lower web 12b and a lower horizontal plate 122a bent at the lower end of the upper web 12a is provided, The through hole 121 is formed in the lower web 12b so that the sleeve 14 is coupled between the pair of lower webs 12b .

This is about the composite web 10 where the web 12 is divided into the upper web 12a and the lower web 12b and is the same as the content of the composite web 10 mentioned in the joining portion of the composite web 10 in Fig.

FIG. 7 is an exploded perspective view showing a joint state of neighboring composite beams according to the present invention, and FIG. 8 is an exploded perspective view showing a joint state of a composite bracket and a column bracket according to the present invention.

7 shows the joining of the composite beam 10 and the neighboring composite beams 10 and the joining holes 221 of the coupling plate 22, the through holes 121 of the composite web 10 web 12, 14 of the coupling plate 22 and the through holes 121 of the web 12 of the other composite bracket 10 while inserting the bolts 30 through the bolts 30 to fasten the nuts N, And the other bolts 30 are inserted into the sleeves 14 of the other composite beams 10 to fasten the nuts N to connect the composite beams 10 and the adjacent composite beams 10 to each other.

8 shows the joining of the composite beam 10 and the neighboring column C. The U-shaped bracket 20 is joined to the column C and the composite beam 10 is formed on the U- The bolts 30 are inserted into the through holes 121 and the sleeve 14 of the web 12 of the composite web 10 and the engaging holes 221 of the coupling plate 22 and the nuts N So that the composite beam 10 and the neighboring column C are coupled to each other.

7, the coupling plate 22 has a plurality of coupling holes 221 formed in two rows along the height of the web 12 of the composite beam 10, and in FIG. 8, 10) A plurality of elongated coupling holes 221 are formed in one row along the height of the web 12.

10: Composite beam 11: Lower flange
12: web 12a: upper web
12b: lower web 121: through-hole
122a: Lower horizontal board 122b: Upper horizontal board
13: upper flange 14: sleeve
20: U-shaped bracket 21, 22: engaging plate
221: Coupling ball 30: Long bolt
B: Bolt C: Column
N: Nut W: Weld

Claims (5)

A pair of webs 12 joined vertically upwards at both ends of the lower flange 11 and an upper flange 13 which is bent inwardly or outwardly of the web 12 at the upper end of the web 12, The present invention relates to a joining portion of a composite beam 10 for joining a composite beam 10 filled with concrete to another member,
At least one through hole (121) is formed at a position corresponding to the lower side of the ends of the opposite side webs (12) facing each other of the composite beam (10)
A cylindrical sleeve 14 is coupled between the both side webs 12 so that the opposite ends of the through holes 121 of the both side webs 12 are aligned with each other,
A coupling plate 22 having a coupling hole 221 at a position corresponding to the through hole 121 is formed on the outer side of the web 12,
Is inserted into the through hole (121) of the web (12) and the sleeve (14) through the coupling hole (221) of the coupling plate (22) and is fastened with the nut (N) Lt; / RTI >
The method according to claim 1,
Wherein the coupling plate (22) is a side plate of a U-shaped bracket (20) comprising a bottom plate and a pair of side plates vertically upwardly coupled at both ends of the bottom plate.
The method according to claim 1,
The web 12 is segmented into an upper web 12a and a lower web 12b,
The lower web 12b is vertically bent upward at both ends of the lower flange 11 and the upper horizontal plate 122b is bent at the upper end of the lower web 12b,
A lower horizontal plate 122a bent inward is provided at a lower end of the upper web 12a so as to be in contact with the upper horizontal plate 122b and the lower horizontal plate 122a,
Wherein said through hole (121) is formed in a lower web (12b) such that said sleeve (14) is coupled between a pair of lower webs (12b).
A pair of webs 12 joined vertically upwards at both ends of the bottom flange 11 and an upper flange 13 bent inwardly or outwardly of the web 12 at the top of the web 12, (10), which is filled with concrete,
At least one through hole (121) formed at a position corresponding to each other on the lower side of the end portions of the opposite side webs (12) facing each other of the composite beam (10)
A cylindrical sleeve 14 is provided between the both webs 12 and the sleeve 14 is positioned so that its opposite ends coincide with the positions of the through holes 121 of the opposite side webs 12, ) Are welded to the inside of the web (12), respectively.
5. The method of claim 4,
The web 12 is formed by being segmented into an upper web 12a and a lower web 12b,
The lower web 12b is vertically bent upward at both ends of the lower flange 11 and the upper horizontal plate 122b is bent at the upper end of the lower web 12b,
A lower horizontal plate 122a bent inward is provided at the lower end of the upper web 12a so that the upper horizontal plate 122b and the lower horizontal plate 122a are brought into contact with each other,
Wherein the through hole (121) is formed in the lower web (12b) so that the sleeve (14) is coupled between the pair of lower webs (12b).

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