KR200362177Y1 - Reinforcement structure for H-beam column - Google Patents

Abstract

This design is to reinforce the knee brace on the H-beam steel column to reinforce the allowable axial load when constructing the underground structure of the reverse drilling method. It relates to the reinforcing structure of the steel column.

The present invention reduces the buckling length in the weak axis direction by installing a brace brace in the weak axis direction of the column, thereby improving the allowable shaft load of the column by about 50 to 70%. H-shaped steel frame enables economical and efficient construction by reducing steel materials and enabling economical design of columns and by using removable braces that are easy to install and dismantle. Provide the reinforcement structure of the column.

Description

Reinforcement structure for H-beam column

This design is to reinforce the knee brace on the H-beam steel column to reinforce the allowable axial load when constructing the underground structure of the reverse drilling method. It relates to the reinforcing structure of the steel column.

In general, when building buildings such as urban buildings and high-rise complexes, many top / down or downward methods are applied.

Here, the top / down method is a method of constructing the ground floor and the basement at the same time, and proceeds as it is while building the skeleton in the case of the ground floor. It is a construction method.

In addition, unlike the top / down method, the downward method is a method in which only the basement part is reversed.

When constructing the reverse structure underground structure, most of the inverted columns are H-steel steel columns, and the cross-sections of the H-beams are asymmetrical in cross-section so that the direction of the axis is parallel to the flange and parallel to the web. Is present and the cross-sectional efficiency is lowered.

The proper size of the column is selected according to the buckling length for the congratulations. The longer the column buckling length, the smaller the allowable shaft load is. Therefore, a column with a large allowable shaft load should be selected and applied.

In the reverse drilling method, the column buckling length is carried out up to one and a half or two floors except for the uppermost basement adjacent to the ground.

In most cases, the basement floor has a high basement floor as it is used for mechanical rooms, electrical rooms, etc., and the bottom floor is also the largest congratulatory acting on the pillars during construction, making the cross-sectional design of the columns disadvantageous.

In other words, in the case of the current reverse construction, the basement floor or the upper floor is designed as a pillar of a large standard to cope with high celebration.

Therefore, the present invention has been devised in view of such a point, and by installing a brace brace in the weak axis direction of the column to reduce the buckling length in the weak axis direction by a certain portion, the allowable shaft load of the column 50 ~ 70 It can be improved by about%, and therefore, a large amount of steel can be saved, and economical design of the column is possible, and by using a removable brace that is easy to install and dismantle, it can be easily reused and rebuilt. The purpose of the present invention is to provide a reinforcement structure of the H-beam steel column which enables economic and efficient construction.

1 is an exploded perspective view showing the reinforcing structure of the H-shaped steel column pillar according to the present invention

2 is a perspective view showing the reinforcing structure of the H-shaped steel column pillar according to the present invention

3 is a plan view showing the installation state of the brace in the reinforcement structure of the H-shaped steel column pillar according to the present invention

4 is a front view showing an initial gulting state in the bracing reinforcement structure according to the present invention

Figure 5 is a front view showing the final state of the excavation in the bracing reinforcement structure according to the present invention

Figure 6 is a front view showing a state after the lowest-level foundation concrete in the bracing reinforcement structure according to the present invention

Figure 7 is a front view showing a state after placing the lowest pillar concrete in the bracing reinforcement structure according to the present invention

<Explanation of symbols for main parts of drawing>

10: H-beam steel column 11: girder

12: Knee brace 13: Tightening bolt

14a, 14b: Connection bracket 15: Column side support plate

16 clamp 17 girder side support plate

18: Bracing member 19: Rib

In order to achieve the above object, the present invention has a H-beam steel frame and a girder as a framework for the construction of a reverse perforation method of underground structure, and the detachable brace is installed in an inclined posture between the H-steel frame and the girder. -It is characterized by consisting of a structure to reduce the buckling length of the steel frame pillar.

In addition, the brace is characterized in that each is installed on both sides in the weak axis direction of the H-beam steel column.

In addition, the brace brace is arranged to face each other on both sides of the H-beam steel pillars are integrally coupled to the pillar by at least four fastening bolts, the outer side is a pair of column side support that is attached to the upward inclined connection bracket A pair of girder side support plates, which are integrally coupled to the girder by at least four clamps and are arranged in close contact with the bottom of the plate and the girder, and are attached with a downwardly inclined connection bracket at the bottom thereof, and the pillar side support plates and the girder. It is characterized in that it is configured to include a brace member which is disposed inclined between the side support plates, both ends are connected to each other by a connection bracket.

In addition, the pillar-side support plate is formed on the inner surface characterized in that it further comprises a rib of both sides insertable to fit the inner space of the flange of the pillar.

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

1 and 2 are perspective views showing the reinforcing structure of the H-shaped steel frame pillar according to the present invention.

As shown in Fig. 1 and 2, the brace bracing 12 is connected between the girder 11 in order to reduce the celebration received by the H-steel column 10, that is to reduce the buckling length do.

Here, the girder 11 may be applied to all H-beam steel girders or RC girders.

When the brace bracing 12 is installed between the H-beam steel column 10 and the girder 11, the H-beam steel column 10 at this time is a predetermined length of the upper part covered by the brace bracing 12. Buckling length can be reduced.

That is, because the constant length of the upper portion through the braces 12 can be integrally included on the side of the girder 11, only the remaining length can be designed to be considered as the buckling length (length receiving a pure celebration).

The brace 12 has a structure in which three members are combined, and is installed at an inclined angle of about 45 ° in the corner region where the H-beam steel column 10 and the girder 11 meet.

In addition, although the brace 12 can be installed in both directions that are crossed with respect to one H-beam steel column 10, it is preferable to be installed in the weak axis direction vulnerable to buckling during celebration, in terms of efficiency, so Brace (12) is installed as is to be able to achieve a symmetrical structure on both sides centering the H-beam steel column (10).

These braces (12) is a pair of pillar-side support plate (15) installed on the H-beam steel column (10) side, a pair of girder-side support plate (17) installed on the girder 11 side, up and down support plate Consists of a combination of brace member 18 to connect between, and after the slab construction has the advantage that can be reused because the detachable through the bolt dismantling work.

The pillar-side support plate 15 is disposed to face each other on both sides of the H-shaped steel column 10, and is integrally coupled to the column by four tightening bolts 13 fastened to the corner portion.

In addition, on the inner surface of the pillar-side support plate 15, two ribs 19 are arranged side by side up and down at regular intervals, and the ribs 19 at this time are H-shaped steel column 10 Inserted in accordance with the gap inside the flange to hold the coupling position of the support plate, and serves to maintain a secure coupling state.

In the case of ordinary H-beam steel pillars, that is, H-beams, even if the specifications are different, all the gaps inside the flange are constant, which can provide an advantage that can be applied to H-beams of various specifications.

In addition, the outer side of the pillar-side support plate 15 is formed with a connecting bracket 14a for connecting the brace member 18, wherein the connecting bracket 14a is at an angle, for example, upwards. It is inclined at an angle of about 45 ° so that a natural connection with the brace member 18 is possible.

The girder side support plate 17 is integrally coupled to the girder by at least four clamps 16 while being placed in close contact with the flange bottom of the girder 11.

At this time, the clamp 16 is of a bolt type that inquires together the inner surface of the flange and the bottom of the support plate, and the girder side support plate 17 can be removed by dismantling only the bolt.

In addition, a connecting bracket 14b is attached to the bottom of the girder side support plate 17, and the connecting bracket 14b is also inclined at an angle of about 45 ° downwards so as to be naturally connected to the support member 18. The connection is possible.

In addition, as another embodiment of the present invention, the girder side support plate has a form that can be applied to both the case of the width of the flange 200mm and 300mm when applying the H-beam steel frame girder, that is, H-beam .

For example, by removing a certain length from the four corners of the plate and reducing the width, when applying an H-beam with a flange width of 200 mm, clamps are used at both ends and a 300 mm flange When applying a wide H-beam, clamping the clamps using the more inward lengths at both ends can provide compatibility for both types of H-beams.

In addition, as another embodiment of the present invention, when the girder is applied to the girder side support plate is intact in concrete, at this time, a plurality of vertical studs are attached to the surface in contact with the girder side to bond with the girder side It can be secured.

The brace member 18 is a portion for receiving the congratulations applied to the H-beam steel column 10, the inclined posture of about 45 ° between the column side support plate 15 and the girder side support plate 17 It is arranged to be installed in a structure in which both ends are fastened to the connecting brackets (14a), (14b), respectively.

The support member 18 can be applied to both angles and pipes, but it is preferable to apply the pipes in terms of anti-buckling effect and economical aspects.

On the other hand, in another embodiment of the present invention can provide a buried brace in addition to the detachable brace.

For example, it is possible to provide a structure for embedding a part of the length of the pillar-side connection portion of the brace member when the H-shaped steel column is poured together, wherein the brace member can be divided into a half of the length ( Girder side portion of the brace member including the girder side support plate is preferably reusable after being manufactured in a form that can be connected or separated through a bolted structure.

The buried braces used in this type are good to be used in terms of workability and economy in terms of two angles.

Figure 3 is a plan view showing the installation state of the brace in the reinforcement structure of the H-shaped steel column pillar according to the present invention.

As shown in FIG. 3, the girder 11 is disposed in the horizontal and vertical directions about the H-beam steel column 10, and the support brace 12 is connected between the pillar and the girder.

Here, the brace 12 is installed in the weak axis direction (horizontal direction) vulnerable to buckling.

4 to 7 is a front view showing the state of the oyster, foundation concrete pouring, column concrete placing, etc. to which the brace brace reinforcement structure according to the present invention is applied.

As shown in Figures 4 to 7, here shows an example in which the braces are applied to the lowermost basement and the immediately above ground except for two floors adjacent to the ground.

After the excavation, after the ground clearance, after the foundation concrete pouring, and after the concrete is partially poured, the buckling length (Hy) of the column will be smaller than the buckling length (Hx) of the column when there is no brace.

Table 1 below shows the comparison table during the celebration of the weak axial column buckling length.

Where the column allowable shaft load (tonf)

P (Hy = H): Permissible shaft load value when the weak buckling length is Hy = 10m

Pr (Hy = H-3m): Allowable shaft load value when the weak buckling length is Hy = 7m

As can be seen in Table 1 above, even if the axial buckling length of the steel column is reduced by only 3m using braces, the increase rate during the celebration is increased by about 50 ~ 77%, which can save a lot of steel.

In other words, if the load condition is the same, a small member can be used.

As described above, the present invention provides a reinforcement structure of the H-beam steel frame that is reinforced with a knee brace on the H-beam steel column during the construction of the reverse structure underground structure, so that a large amount of steel can be saved and the bracing It is possible to reuse and reconstruct the structure, which has the advantage of performing the design and construction of columns economically and efficiently.

Claims (4)

Removable braces (12) detachable in an inclined position between the H-beam steel column (10) and the girder (11) when constructing a reverse structure method using the H-steel steel column (10) and the girder (11) as a skeleton ) Is connected to the reinforcement structure of the H-beam steel column, characterized in that made of a structure that can reduce the buckling length of the H-beam steel column (10). The reinforcing structure of the H-beam steel pillars, characterized in that the braces (12) are respectively installed on both sides in the weak axis direction of the H-steel steel pillars (10). The method according to claim 1 or 2, wherein the brace 12 is arranged opposite to each other on both sides of the H-beam steel column 10 is integrally coupled to the column by at least four fastening bolts 13 and the outer surface A pair of pillar-side support plates 15 to which the upwardly inclined connection bracket 14a is attached, and are integrally coupled to the girder by at least four clamps 16 while being closely attached to the bottom of the girder 11. Both ends are connected to the bottom side while being inclined between the pair of girder side support plates 17 to which the downwardly inclined connection bracket 14b is attached, and the pillar side support plates 15 and the girder side support plates 17, respectively. Reinforcing structure of the H-shaped steel pillars, characterized in that it comprises a support member (18) which is fastened to each of the brackets (14a), (14b) for installation. 4. The reinforcement structure of claim 3, wherein the pillar-side support plate 15 further includes ribs 19 formed on an inner surface of the pillar-side supporting plate 15 so as to be inserted into the flange inner space of the pillar. .