KR101193796B1 - Seismic Reinforcing Method of Column & Girder Frame - Google Patents

Abstract

The earthquake damage situation of most buildings consisting of columns and beams is that the columns and joints are damaged under the panel zone and at the bottom of the beams. Therefore, it is a method that concentrates and reinforces this part so that the earthquake movement entering through one beam can be smoothly transmitted to the other beam through the column. This is a reinforcement method that focuses on the fact that damage is not large at the top of the beam at the bottom plate in a building damaged by an earthquake. In other words, the diaphragm is added to the lower part of the beam like the bottom plate, and the specific method will be described by dividing it into a composite structure such as existing reinforced concrete structure, steel structure and TSC beam. It also suggests how to reinforce the head of the lower part of the panel zone. These seismic reinforcement methods have the advantages of short construction period, low construction cost, less damage to finishes, and no significant damage after reinforcement.

Description

Seismic Reinforcing Method of Column & Girder Frame

In Korea, the seismic structural design criteria started in 1987, but it was restricted to residential buildings with more than 11 stories. Therefore, most existing buildings including elementary, middle and high schools are irrelevant to seismic design.

According to the foreign media, the recent damage caused by the massive earthquake has been highlighted. The reason is that if the school is affected by the earthquake in class, many students will be injured. It is also convenient to use as a refugee camp. Based on this, each school district is interested in seismic reinforcement of school buildings, but there is no simple and effective reinforcement method. With this in mind, the present inventor proposes the following pillar and beam frame seismic reinforcing method.

Columns and beam frames are the standard construction of all buildings, not just school buildings. However, if you look at the earthquake damaged buildings, you can find that most of the damage occurs at the bottom of the joint between the column and beam (Panel Zone = Panel Zone). Conventional reinforcement methods to reduce the earthquake damage, such as the reinforcement of the joint portion of each beam and column separately, or use a lot of methods to add an X, or K-type bracing in the column and beam frame as shown in Figure 8 and sometimes use a damper It is also attached to the earthquake damping effect. Column and beam frames can be roughly divided into reinforced structures such as reinforced concrete, steel frame and "TSC beam". TSC beam is steel concrete composite beam which is poured concrete into permanent formwork of steel sheet. Therefore, the present invention proposes a seismic reinforcement method for composite beams, such as reinforced concrete structures, steel structures, TSC beams, and seismic design of new reinforced concrete buildings will be filed separately.

Most damage to buildings with earthquake damage to columns and beam frames occurs under panel zones, which are the joints between columns and beams. The reason is that when the structure is repeated violent lateral displacement due to the earthquake, the bottom plate acts as a diaphragm (Diaphragm = 剛 床 效果) on the panel zone as shown in Figure 1 to reduce the occurrence of damage. However, there is no bottom plate, and most beam ends are reinforced with upper end to endure main stress = tensile force, so that the weaker lower end is concentrated and the column and beam joints are loosened and the column directly below the joint is broken. will be. Therefore, the core technology of the present invention is to reinforce the lower portion of the panel zone, which is the joint between the pillar and the beam, like the bottom plate of the upper portion.

In order to ensure smooth transfer of earthquake movement from one beam to the "opposite beam" when the beams are joined to columns with different heights, measures must be taken to ensure that the beam bottom flanges are in the same plane. In addition, by reinforcing the pillar portion directly below the panel zone to be the "steel pillar weakening" that is the basis of the seismic structure.
The opposite beam is a beam in the east, south, west, or north directions attached to a column, for example, a west beam that is opposite the east beam or a north beam that is opposite the south. Steel column weakening means limiting the steel column weakening in design because the risk of large accidents is small when the column stiffness is larger than reinforcement during earthquake damage.

The earthquake dong has a direction connecting the epicenter and the building, so it is impossible to predict in which direction the earthquake will come depending on the layout of the building. Therefore, the earthquake motion reaching a beam closest to the epicenter is effective if the medium passing through the column to the opposite beam can form a diaphragm like the top plate.

형강(6)을 보 하부플랜지에 용접하거나 볼트로 접합할 수 있으나, 철근콘크리트 보는 ㅛ형 강판을 활용하여 볼트로 형강을 부착한다. 철근콘크리트 보의 하단면에는 일반적으로 철근 배근이 조밀하여 이들 철근을 피하여 구멍을 뚫고 "팽창볼트"를 박아 강판을 견고하게 부착하는 것이 어렵기 때문이다. 철근콘크리트 보 측면에는 일반적으로 스티럽만 배근되어 있어 볼트구멍을 뚫기가 쉽다. 팽창볼트란 기존 콘크리트에 구멍을 뚫고 볼트를 타입한 다음 인발하는 과정에서 볼트 단부에 조성한 혹이 쐐기를 팽창시켜 견고히 정착되는 익스팬션 볼트(Expansion Bolt)이다.Specific method is to add a steel plate to the bottom surface or the bottom flange of the beam as shown in Fig. 2, 4, 5 to be one of the bottom flange bonded to the same column, such as steel cheolgolbo and TSC composite beam exposed steel beams silver

The steel (6) can be welded or bolted to the lower flange of the beam, but the reinforced concrete beam is attached to the steel beam using bolts using a steel sheet. The bottom surface of the reinforced concrete beam is generally because the reinforcing bar is dense so that it is difficult to drill a hole to avoid these reinforcing bars, and to attach the steel plate firmly by embedding the "expansion bolt". On the side of the reinforced concrete beams, only the stylus is usually placed on the side, making it easy to drill bolt holes. An expansion bolt is an expansion bolt that is firmly settled by inflating a lump formed at the end of a bolt in the process of drilling a hole in a conventional concrete and then drawing a bolt.

Column part of the bottom of the panel zone, reinforcement of the head is used for the reinforced concrete belt method using the c-beam (11), and in the case of steel pillars, the conventional method of additional welding or addition of steel sheet.

It is not possible to predict when and how big an earthquake will invade. However, the reason why the earthquake of the same magnitude is less in advanced countries than in backward countries is because the earthquake-resistant design or seismic reinforcement is performed in advance. If the seismic reinforcement by the method proposed in the present invention is easy to remove and reinforce the finishing material, the cost is low and the appearance damage during reinforcement is relatively small. Seismic reinforcement of the school building is convenient to use the vacation period, and this reinforcement has a merit that it is possible because the construction period is short.

Unexpected large seismic loads can cause damage due to seismic loads at the column and beam connections or at the top of the column. The top of the beam is greatly reduced in deformation due to the increase in rigidity due to the diaphragm behavior of the slab, but the stress and deformation are concentrated in the lower flange of the beam. Therefore, by reinforcing the top of the column or the lower flange portion of the beam (2), it is possible to minimize the column beam connection and column breakage. Reinforcement method is applied to the reinforcement using the welding or high-strength bolt (9) to the lower position of the beam, the specific structure type details are as follows.

형강을 고력볼트로 조립한다.2 is a seismic reinforcement method of reinforced concrete columns and beams. ㅑ section steel (4) is made of steel plate to cover both sides of the 1/2 ~ 3/4 position of the reinforced concrete beam abdomen and the bottom of the beam. The X-shaped steel is installed by inserting a plate upwards from the lower end surface of the beam end contacting the column 1 as shown in FIG. 3, and the flange of the X-shaped steel extends longer than the width of the beam. The extended length is to be joined to the other section steel, and the side and the bottom of each of the bolt holes are drilled by using the reinforced concrete beam and expansion bolt (8). The bottom of the reinforced concrete beam is difficult to drill holes for expansion bolts for attaching the steel plate, so the steel plate is made into a ㅑ (or ㅛ) and fixed to the side of the reinforced concrete beam through the bolt hole drilled in the web plate. If possible, reinforce the bottom of the beam to find an empty space, and add an expansion bolt by drilling a hole in the bottom of the reinforced concrete beam. The horizontal width of the 플랜지 steel flange is matched to the column width, and the bolt holes drilled in the horizontal

Assemble the section steel with high strength bolts.

2, a, b, and c are reinforcement methods when four, three, and two beams are attached to the column, respectively. If the column is at a corner or outside, two or three beams are joined to the column. At this time, the beam is removed on one side of both sides of the beam joined to the column, so the steel beam becomes asymmetric. Therefore, the X-shaped steel 4 becomes a shape obtained by cutting the lower plate in the non-beaming direction on the outer surface of the vertical material to be fixed to the restoration part, which becomes the F-shaped steel 5.

Figure 3 is the shape of the beam used according to the beam position and the type of column beam structure. Plates used as horizontal members are called flanges, and vertical plates are referred to as webs.

형강으로 제작한다. 양 단부에는 볼트접합이 가능하도록 볼트구멍을 뚫고, 보 하부플랜지는 현장에서 볼트구멍을 뚫어 기둥과 직각방향으로 만나는 보 하부플랜지 편측에

형강을 고력볼트로 조립한다. 조립이 완료된 후 필요에 따라 강판용접 등 재래식 방법으로 주두를 보강한다.Figure 4 is a case in which the H-beams are joined to the column 4 direction by a method of seismic reinforcement of the steel column and beam joint. The plate connecting the lower flange half of the beam and the edge of the column (1) is made according to the shape of the column and the beam, and the shape connecting the beam and the column is

Made of section steel. Drill bolt holes at both ends to enable bolted joints, and the lower beam flange drills the bolt holes at the site and is located on one side of the lower flange flange that meets at right angles to the column.

Assemble the section steel with high strength bolts. After the assembly is completed, reinforce the head pit by conventional methods such as welding the steel sheet as necessary.

형강을 현장용접하고, 강판용접 등 재래식 방법으로 주두를 보강한다.5 is a seismic reinforcement method for composite beams and steel concrete beams, such as TSC beams between the lower flange of the beam meeting at right angles

The spot steel is welded on site and reinforcement of the head by conventional methods such as steel plate welding.

형강을 사용한다.FIG. 6 shows that when the heights of the beams joined to the pillars are different, the height difference of the beams is corrected by welding a steel plate between the left and right web plates of the steel beam as a means for unifying the height of the lower flange of the beam.

Use the section steel.

FIG. 7 is an indirect reinforcement by cutting the ridge of the c-beam to 45 ° by welding the reinforcement method, welding the ridge plate 12, and integrating the high-strength bolt with other c-beams 11 adjacent to each other around the column to induce a compressive force in the column cross-section. That's how. The c-beam reinforcing the four sides in this way becomes a c-beam, and the upper and lower intervals between these c-beams should be about 20 cm and the number of two to three should be installed at the bottom of the beam. Pillar failure pattern due to earthquake, as the steel strip surrenders as shown in Figure 1, the concrete is bursting out as the column root is bent in the outward direction. In addition, by fixing the angle member 13 to the upper or lower flange of the c-beams with a bolt (10) can be utilized as a base material fixing support for installing a gypsum board.

1 shows the most earthquake damage of the column and beam frame

2 is a plan view and a cross-sectional view of a panel zone seismic reinforcement of reinforced concrete columns and beam frames

3 is a detailed view of the panel zone seismic reinforcement accessories of reinforced concrete columns and beam frame

4 is a plan view and cross-sectional view of the panel zone seismic reinforcement of the steel column and beam frame

5 is a plan view and cross-sectional view of the panel zone seismic reinforcement of TSC composite beam and column frame

Figure 6 is a panel zone seismic reinforcement cross-sectional view of the reinforced concrete column and beam frame when the height of the beam bonded to the column is different

7 is an elevational elevation view of the head of reinforced concrete columns.

<Brief description of the symbols in the drawings>

1. pillar 2. beam

3. Slab 4. Round Steel

형강5.F section steel 6.

Section steel

형강 8. 팽창볼트7.

Section steel 8. Expansion bolt

9. High bolt 10 volts

11. Steel beam 12. Copper plate

13. Sawwood

Claims (6)

In a column beam joint consisting of a rectangular reinforced concrete column (1) and a beam (2); A ㅑ -shaped ㅑ -shaped steel (4) made by welding two webs and one flange with a steel plate to cover both sides and the lower part of the abdomen where the reinforced concrete beam meets the column; The ㅑ section steel is installed by inserting the left and right web upward from the bottom of the beam in contact with the pillar, the flange of the ㅑ section steel extends by the width of the pillar, and each of the side and the bottom drills a bolt hole and uses the bolt hole on the side Fixed with expansion bolt (8); And If the column width is larger than the beam width and the difference between the beam width and the column width occurs, the edge shape is suitable to connect the steel flange to the column edge.

Mold-shaped

Attaching the shaped steel 6; remind

The section steel has a bolt hole at the end

Column and beam frame seismic reinforcement method characterized by superposing the flange of the section steel and ㅑ section steel and joining with high-strength bolt (9) The method of claim 1; The main head of the column beam joint consisting of a column and a beam is provided with a c-beam (11) on the slope of the column; The c-shaped steel is provided with a copper plate (12) at the c-shaped steel joint of the column edge, the copper plate is bonded to the high-strength bolt to form a c-shaped steel band; The c-shaped steel band maintains the proper spacing and the number, the top and bottom of the c-beam between the c-shaped steel 13, the base material can be fixed to the c-shaped flange with bolts (10) to install the finishing material Seismic reinforcement method for columns and beam frames, characterized in that it is used as a fixing support point delete delete delete delete

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