KR101016453B1 - Bonding structure of diagonal brace - Google Patents

Abstract

The present invention relates to a joint structure of a diagonal brace, the main plate is formed on each of the left and right sides of the upper and lower sides, the vertical gusset plate cross-cut up and down at each inclined portion on the front of the main plate, and the main plate A junction having a horizontal gusset plate formed horizontally on the front and rear of the; A first joining plate coupled to each inclined portion and having a diagonal brace bonded thereto; And second bonding plates respectively coupled to the centers of both side ends of the main plate, and to which the beams are bonded. therefore. As the cross section structure of bolt joint is easy to be connected with the joint connecting the diagonal brace and the diagonal brace, it has the effect of improving productivity, price competitiveness, workability and workability by having a cross sectional structure with excellent cross stiffness.

Diagonal Brace, Beam, Splicing, Plate

Description

Bonding structure of diagonal brace}

The present invention relates to a joint structure of a diagonal brace, and more particularly, to a joint structure of a diagonal brace that supports and supports a diagonal brace used in a steel structure.

Braced frame is a vertical element that resists lateral loads through tension and compression braces, and there are various braces such as diagonal braces, chevron braces, K-type braces, and eccentric braces.

These bracing members are designed to resist tensile and compressive forces, but the ability of the brace to compressive stress is less than the tensile stress because it is limited by potential buckling.

In general, the design of the system is based on the compression load of the brace, and the additional load can reduce the length of the unsupported brace by installing a second brace to preserve the proper load or to reinforce the additional load. Will support.

In particular, the structural form of the building has taken various structural forms such as twisting or tilting the building rather than the traditional structural form consisting of the column-beam. Among these various structural forms, the large-size diagonal braces support vertical and horizontal forces instead of columns and beams.

This diagonal brace structure requires very sophisticated workability in its structural system. This elaborate workability has a problem in that it takes a very high production cost and increases production time when producing a diagonal brace and a joint.

In addition, even when constructing a diagonal brace structure in the field, if the joint between the diagonal brace and the joint is not sophisticated, there is a difficulty in processing the diagonal brace or the joint again.

The present invention has been made in order to solve the conventional problems as described above, by connecting a diagonal brace to the joint portion is formed a structure in which the load of the upper portion is transferred from the diagonal brace to the joint portion, the amount of steel required for manufacturing compared to the column-beam structure Can be reduced, the joint is also formed of bolted joint structure improves the workability in the field, and can facilitate the precise construction, and by forming the joint between the joint and the beam in a simple structure, the productivity and workability of the steel structure The object of the present invention is to provide a joint structure of a diagonal brace that can be improved and also has a diagonal cross shape to facilitate the welding joint between the diagonal brace and the joint, and the workability of the steel mill is improved.

The present invention for achieving the above object, the main plate is formed on each of the left and right sides of the upper and lower sides, the vertical gusset plate cross-cut up and down at the respective inclined portion on the front of the main plate, and the main A joint having a horizontal gusset plate formed horizontally on the front and rear surfaces of the plate; A first joining plate coupled to each of the inclined portions and to which a diagonal brace is joined; And second bonding plates respectively coupled to the centers of both side ends of the main plate and to which beams are bonded.

A first reinforcing plate is formed in the rear junction region of the main plate and the first joining plate of the present invention.

A rear face of the main plate of the present invention is formed with a junction gusset plate having the same shape as the vertical gusset plate, and a rear face of the first junction plate is formed with a reinforcement gusset plate formed to be connected to one end of the junction gusset plate. A second reinforcing plate is formed in the junction region of the joining gusset plate and the reinforcing gusset plate.

The support plate is formed in the lower end of the junction part area | region of the main plate and the said 2nd junction plate of this invention.

The diagonal brace of the present invention is a crosswise brace in which a gusset plate for joining is placed on the front surface of the main plate for braces, and a gusset plate for reinforcement is placed on the rear surface.

In the second joining plate of the present invention, a vertical plate is formed between the upper flange and the lower flange so that a cross section is formed in an “H” shape, and a groove portion into which the main plate is fitted to an end of the upper flange and the lower flange is fitted. Each is formed.

The horizontal gusset plate is inserted between the upper flange and the lower flange of the present invention, and a third reinforcement plate is installed between the upper flange and the horizontal gusset plate and between the lower flange and the horizontal gusset plate, respectively.

As described above, in the present invention, a structure in which a load of the upper portion is transferred from the diagonal brace to the joint is formed by joining the diagonal brace to the joint, thereby reducing the amount of steel required for fabrication compared to the column-beam structure. It is formed of a bolted joint structure, which improves workability in the field and facilitates precise construction.

By joining the joint with the beam in a simple structure, the productivity and construction of the steel structure can be improved.

In addition, by forming the diagonal brace cross-shaped to facilitate the welding joint between the diagonal brace and the joint, and provides the effect of improving the workability in the steel plant.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a front view showing a joint structure of the diagonal brace according to an embodiment of the present invention, Figure 2 is a side view showing a joint structure of the diagonal brace according to an embodiment of the present invention, Figure 3 is a cutting line of FIG. 4 is a cross-sectional view of the diagonal structure according to an embodiment of the present invention, Figure 4 is a rear view.

As shown in Figures 1 to 4, the joint structure of the diagonal brace according to the present embodiment is a joint portion 10, the first bonding plate 20 is coupled to the upper and lower ends of the joint portion 10, the diagonal brace 40 is bonded And a second joining plate 30 coupled to both sides of the joining part 10 and to which the beam 50 is joined.

The joint 10 has a main plate 11, a vertical gusset plate 12, a horizontal gusset plate 13 and a joining gusset plate 14.

The main plate 11 is a plate-shaped plate, and inclination portions inclined at predetermined angles are formed on both the left and right sides of the upper and lower ends, respectively.

The vertical gusset plate 12 is formed on the front surface of the main plate 11 as a plate in the vertical longitudinal direction, and is formed to intersect a predetermined angle α up and down at each inclined portion. In addition, a plurality of coupling holes 12a are drilled in both side surfaces of the upper and lower portions of the vertical gusset plate 12.

The horizontal gusset plate 13 is horizontally formed on the front and rear surfaces of the main plate 11 as a horizontal plate.

The joining gusset plate 14 is a plate in the longitudinal direction, and is formed on the rear surface of the main plate 11 so as to intersect a predetermined angle α up and down at each inclined portion similarly to the vertical gusset plate 12.

The first joining plate 20 is composed of a brace joint plate 21 and a reinforcement gusset plate 22 placed on the rear surface of the brace joint plate 21.

The brace joint plate 21 is a flat plate, which is welded to each inclined portion of the joint 10 and a plurality of joint holes 21a through which the diagonal brace 40 is bolted-joined.

The reinforcement gusset plate 22 is placed in the rear surface of the brace bonding plate 21 as a longitudinal plate to reinforce the brace bonding plate 21. In addition, the reinforcing gusset plate 22 is formed to be connected to one end of the bonding gusset plate 14.

In addition, the first reinforcing plate 23 is formed at both sides in the back joint region between the main plate 11 and the first joining plate 20. A second reinforcing plate 24 is formed on the connecting line between the joining gusset plate 14 and the reinforcing gusset plate 22.

Therefore, the joining of the junction part 10 and the 1st junction plate 20 becomes more firm by the 1st reinforcement plate 23 and the 2nd reinforcement plate 24, and can improve the holding force with respect to the diagonal brace 40. FIG. Will be.

The second joining plate 30 is a horizontal plate, and the upper flange 32 and the lower flange 33, which are parallel to each other, are disposed through the vertical plate 31 formed between the upper flange 32 and the lower flange 33. Spacing is formed so that the cross section is formed in the "H" shape.

In addition, one end of the upper flange 32 is formed with a "c" shaped groove 32a in which the main plate 11 is fitted, and one end of the lower flange 33 is fitted with the main plate 11. A groove portion 33a having a shape of “c” is fitted.

A horizontal gusset plate 13 is inserted between one end of the upper flange 32 and the lower flange 33, between the upper flange 32 and the horizontal gusset plate 13, and the lower flange 33 and the horizontal gusset plate. A third reinforcement plate 35 is provided between the 13 elements.

In addition, a support plate 36 is formed at the lower end of the junction portion region of the main plate 11 and the second junction plate 30 of the junction portion 10.

Therefore, the joining of the joining portion 10 and the second joining plate 30 is further strengthened by the third reinforcing plate 35 and the support plate 36, and it is possible to improve the bearing force on the beam 50.

In addition, it is preferable to use the same H-type beam as the cross-sectional shape of the second joining plate 30 as the beam 50 to be joined to the second joining plate 30. Of course, it can be combined.

Hereinafter, the diagonal brace of the present embodiment will be described in more detail with reference to the accompanying drawings.

5 is a front view showing a diagonal brace according to an embodiment of the present invention, Figure 6 is a rear view showing a diagonal brace according to an embodiment of the present invention, Figure 7 is a diagonal brace according to an embodiment of the present invention 8 is a side view illustrating a diagonal brace according to an embodiment of the present invention.

As shown in Figs. 5 to 8, the diagonal brace 40 of this embodiment includes a brace main plate 41, a joint gusset plate 42, a reinforcement gusset plate 43 and a reinforcement stiffener 44 ).

The brace main plate 41 is a plate in the longitudinal direction, and a plurality of joining holes 41a are drilled in the upper and lower surfaces, respectively. The perforated arrangement pattern of the bonding holes 41a is formed in the same manner as the arrangement pattern in which the bonding holes 21a of the brace bonding plate 21 of the first bonding plate 20 are perforated.

Joining gusset plate 42 is a longitudinal plate in the front of the brace main plate 41, a plurality of coupling holes (42a) are perforated on the upper and lower sides.

The reinforcement gusset plate 43 is placed in the rear of the brace main plate 41 as a longitudinal plate. Reinforcing stiffeners 44 are respectively placed in the front and rear of the brace main plate 41 perpendicular to the longitudinal direction to resist the lateral force.

In particular, such a diagonal brace, a joint gusset plate 42 is placed on the front of the brace main plate 41, and a reinforcement gusset plate 43 is placed on the rear to use a crosswise diagonal brace.

The cross-shaped diagonal braces improve the bearing capacity of the diagonal braces 40 by distributing the supporting load of the structure to the brace main plate 41, the bonding gusset plate 42, and the reinforcing gusset plate 43, respectively.

In addition, when the diagonal braces 40 are manufactured in a cross shape, the productivity in the steel frame factory can be greatly improved, the amount of steel can be reduced, and the bearing capacity of the diagonal braces 40 is concentrated on the joint 10 so that there is no dispersion of the bearing force. All the supporting force is transmitted to the joint 10 by the joining and reinforcing gusset plates 42 and 43 capable of withstanding the supporting force.

Hereinafter, with reference to the accompanying drawings will be described in more detail the bonding state of the joint structure of the diagonal brace of this embodiment.

Figure 9 is a block diagram showing a bonding state of the joint structure of the diagonal joint and the second bonding plate according to an embodiment of the present invention, Figure 10 is a joint portion of the joint structure of the diagonal brace according to an embodiment of the present invention 11 is a configuration diagram showing a bonding state of the diagonal brace, Figure 11 is a front view showing the bonding state of the joint structure and the diagonal brace of the diagonal structure according to an embodiment of the present invention, Figure 12 is an embodiment of the present invention It is a block diagram which shows the joint state of the structure to which the joint structure of the diagonal brace by an example was applied.

(A) to (e) of FIG. 9 sequentially show the bonding state of the bonding portion 10 and the second bonding plate 30. First, as shown in FIG. 9 (a), the horizontal gusset of the bonding portion 10 is shown. The second bonding plate 30 is brought close to the intermediate portion where the plate 13 is formed. Next, as shown in FIG. 9B, the grooves 32a and 33a are fitted to the side surfaces of the main plate 11 of the joining portion 10 to be welded together. As shown in FIG. 9C, the stiffeners 34 are welded to each other so as to resist lateral forces between the upper flange 32 and the lower flange 33.

As shown in FIG. 9D, a third reinforcing plate 35 is fitted and welded between the upper flange 32 and the horizontal gusset plate 13 and between the lower flange 33 and the horizontal gusset plate 13. To combine. As shown in FIG. 9E, a substantially triangular support plate 36 is welded to the junction lower region of the junction 10 and the second junction plate 30. Thus, the joining portion 10 and the second joining plate 30 are joined and reinforced by each plate, and the supporting force is improved.

As shown in FIGS. 10 and 11, one end of the brace main plate 41 of the diagonal brace 40 is bolted to the brace junction plate 21 of the first junction plate 20 coupled to the junction 10. Are bonded. One end portion of the vertical gusset plate 12 of the joint portion 10 is extended by joining the gusset plate 42 of the diagonal brace 40 in contact with each other, and the vertical gusset plate 12 and the joint gusset plate 42 of the joint portion 42 are extended. Splice plates 12 are bolted to both sides of the joint. Therefore, the joint portion 10 and the diagonal brace 40 are bolted and the bearing force of the diagonal brace 40 is concentrated in the joint portion 10, thereby improving the bearing force of the joint structure of the joint brace.

As shown in FIG. 12, in the bonded structure to which the bonded structure of the bonded bracing of the present embodiment is applied, the supporting force of the bonded bracing 10 and the beam 50 is concentrated on the bonded portion 10, so that the supporting force of the entire bonded structure is improved. Therefore, the joint structure to which the joint structure of the joint brace is applied can be manufactured without the beams and columns.

In addition, it is preferable to apply the most suitable welding for each site | part by combining the full penetration welding and the partial penetration welding for the welding of the member by each site | part of the 1st joining plate 20, the 2nd plate 30, and the joining part 10. .

The present invention described above can be embodied in many other forms without departing from the spirit or main features thereof. Therefore, the above embodiments are merely examples in all respects and should not be interpreted limitedly.

1 is a front view showing a joint structure of the diagonal brace according to an embodiment of the present invention.

Figure 2 is a side view showing the junction structure of the diagonal brace according to an embodiment of the present invention.

3 is a cross-sectional view taken along the line A-A of FIG. 1.

Figure 4 is a rear view showing the junction structure of the diagonal brace according to an embodiment of the present invention.

5 is a front view showing a diagonal brace according to an embodiment of the present invention.

Figure 6 is a rear view showing a diagonal brace according to an embodiment of the present invention.

Figure 7 is a side view showing a diagonal brace according to an embodiment of the present invention.

8 is a top view showing a diagonal brace according to an embodiment of the present invention.

9 is a block diagram showing a bonding state of the joint portion and the second bonding plate of the joint structure of the diagonal brace according to an embodiment of the present invention.

10 is a block diagram showing a bonding state of the joint and the diagonal brace of the joint structure of the diagonal brace according to an embodiment of the present invention.

Figure 11 is a front view showing a bonding state of the joint and the diagonal brace of the joint structure of the diagonal brace according to an embodiment of the present invention.

12 is a block diagram showing a bonding state of the structure to which the joint structure of the diagonal brace according to an embodiment of the present invention is applied.

<Description of the symbols for the main parts of the drawings>

10: joining portion 20: first joining plate

30: second bonding plate 40: diagonal brace

50: beam

Claims (7)

Main plates each having an inclined portion formed on both the left and right sides of the top and the bottom thereof, a vertical gusset plate formed on the front surface of the main plate by cross-sectioning up and down at each inclined portion, and horizontal gusset plates formed horizontally on the front and rear surfaces of the main plate. Joining portion having; A first joining plate coupled to each of the inclined portions and to which a diagonal brace is joined; And And a second bonding plate coupled to the center of both side ends of the main plate and to which a beam is joined. The method of claim 1, The joint structure of the diagonal brace, characterized in that the first reinforcing plate is formed in the rear junction region of the main plate and the first bonding plate. The method of claim 1, A rear face of the main plate is formed with a junction gusset plate having the same shape as the vertical gusset plate, a rear face of the first junction plate is formed with a reinforcement gusset plate formed to be connected to one end of the junction gusset plate, And a second reinforcing plate is formed in the junction region of the joining gusset plate and the reinforcing gusset plate. The method of claim 1, The support structure of the diagonal brace, characterized in that the support plate is formed at the lower end of the junction region of the main plate and the second bonding plate. The method of claim 1, The diagonal brace is a joint structure of the diagonal brace, characterized in that the gusset plate for joining in the front of the main plate for braces, cross-shaped diagonal brace in which the gusset plate for reinforcement is placed in the rear. The method of claim 1, The second joining plate has a vertical plate formed between the upper flange and the lower flange to form an H-shaped cross section, and groove portions to which the main plate is fitted are formed at ends of the upper flange and the lower flange, respectively. Diagonal brace joint structure, characterized in that. The method of claim 6, The horizontal gusset plate is inserted between the upper flange and the lower flange, and a third reinforcement plate is installed between the upper flange and the horizontal gusset plate and between the lower flange and the horizontal gusset plate, respectively. Bird's joint structure.

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