KR20240052401A - Steel column using bending steel plate And Connecting Structure of steel column - Google Patents

Abstract

The present invention relates to a column joint structure at a joint where a column using a bending member and a steel beam using the same are joined. More specifically, the present invention relates to a structure for forming a square column using a bending member made of a vertical portion and a rib bent at the end of the vertical portion. By making it easy to manufacture and form, it is possible to simplify the production and increase economic efficiency. By using a bent diaphragm member consisting of an internal vertical part and a back plate bent at right angles at both ends, it is possible to connect pillars to pillars at the steel beam joint. It relates to a column joint structure at the joint where a column using a bending member and a steel beam using the same are joined, which allows easy installation of the vertically adjacent column end.
A preferred embodiment of a column using a bending member of the present invention includes a vertical portion in the shape of a vertical plate and two or more bending members made of ribs bent in a right angle direction at one or both ends of the width direction of the vertical portion to form a square cross-section. It is composed.

Description

Column joint structure at the joint where a column using a bending member and a steel beam using the same are joined {Steel column using bending steel plate And Connecting Structure of steel column}

The present invention relates to a column joint structure at the joint where a column using a bending member and a steel beam using the same are joined. More specifically, the present invention relates to a structure for forming a square column using a bending member made of a vertical portion and a rib bent at the end of the vertical portion. By making it easy to manufacture and form, it is possible to simplify production and increase economic efficiency. When joining pillars to pillars at the steel beam joint using a bent diaphragm member consisting of an internal vertical part and a back plate bent at right angles at both ends, It relates to a column joint structure at the joint where a column using a bending member and a steel beam using the same are joined, which allows easy installation of the vertically adjacent column end.

Composite members are structural members made up of steel and concrete that behave structurally together. They can be said to be structural members that compensate for the shortcomings of each and maximize the advantages of the steel and concrete by acting as one unit.

A representative composite member of a column is a CFT (concrete filled tube) column, which is manufactured in a box-shaped manner and is filled with concrete inside the column. It is a column that is very rational in terms of structural mechanics, with the outer steel plate serving as both a reinforcing bar and a formwork.

CFT pillars are difficult to manufacture due to their closed nature, resulting in excessive manufacturing costs, and joining between pillars is difficult.

In general, in the construction of steel structures in architecture or civil engineering, hollow steel pipe columns with excellent cross-sectional performance, such as square steel pipes and ㅍ-shaped steel pipes, are used as columns. When connecting columns, fastening holes are drilled and reinforcement plates are installed. Add it and fasten it with bolts.

However, when joining such columns, steel beams are connected to the connection between columns. However, in order to join the steel beams, separate brackets must be installed on the columns and pads, etc. must be added to join them. In addition, square steel pipes, ㅍ-shaped steel pipes, etc. must be used in closed type. A diaphragm is formed in a cross-section and must be installed to connect the steel beam. However, the internal horizontal diaphragm requires precision to be installed at the same position as the joint of the steel beam. Therefore, if the steel beam is changed or a construction error occurs, the already installed internal horizontal diaphragm must be installed. There was a problem in which the diaphragm did not act as a reinforcing material for connecting steel beams.

The technology behind the present invention is Patent Publication No. 1998-0021969, “Unit column and connection for steel structures” (Patent Document 1). In the above background technology, 'in constructing the column body (1) of a steel structure made of round steel pipes or square steel pipes, high-strength steel plates are formed orthogonally in a + shape, and a plurality of fastening holes (4) are drilled at the ends of the four sides of the steel plates. A +-shaped connection part (3) is formed, and the symmetrical parts are cut and processed to form a cut part (5) so that the ''+-shaped connection part (3) can be inserted into the upper and lower sides of the unit pillar (2). We propose a unit column and connection section for steel structures, which is characterized by inserting a +-shaped connecting section (3) into the incision section (5) and welding the inner and outer ground planes to form the column body (1). , By connecting pillars and crossbeams precisely and quickly at the steel structure site, it reduces the assembly man-hours on site and prevents safety accidents during assembly work, as well as bringing about effects such as shortening the construction period and reducing construction costs.

However, in the above background technology, it is difficult to reinforce the joint between columns, and it is difficult to control the out-of-plane deformation at the joint due to the pouring pressure when pouring concrete inside the column. In addition, in the case of a column with a cross section where the strong and weak axes are formed, there is a problem in that it is difficult to reinforce the weak axis. there was.

Patent Publication No. 1998-0021969 “Unit columns and connections for steel structures”

The present invention is intended to solve the problems described above. By easily forming the cross-section using members of the same shape, it is easy to manufacture and form, thereby increasing the simplification and economic efficiency of manufacturing. It also provides structural protection in a square column with a closed cross-section. This not only increases the cross-sectional performance, but also reinforces the corners of the cross-section to provide a pillar that increases safety against the wire pressure due to internal concrete filling.

In addition, another object of the present invention is to serve as a vertical internal diaphragm inside the pillar while simultaneously joining vertically adjacent pillar ends when joining pillars at a steel beam joint, without forming a separate bracket, etc. on the pillar. The purpose is to provide a column joint structure that provides a joint surface where steel beams are joined.

The present invention is a column using a bent member, characterized in that it is configured to form a square cross-section by including a vertical part in the shape of a vertical plate and two or more bent members made of ribs bent in a right angle direction at one or both ends of the width direction of the vertical part. We would like to provide.

In addition, a pair of bending members in which ribs are formed by bending a vertical part in the form of a vertical plate at a right angle are arranged in parallel with the ribs facing inward, and the other side is placed on both sides of the pair of bending members arranged in parallel. An object is to provide a column using a bent member, characterized in that the member is joined to a rib to have a square cross section.

In addition, the other side member is intended to provide a pillar using a bent member, characterized in that a vertical part in the shape of a vertical plate and both ends of the vertical part are bent at right angles to form ribs.

In addition, the bending member consists of a vertical portion in the shape of a vertical plate and a rib that is bent and extended in a right angle direction from one end of the vertical portion, and each of the four bending members is connected so that the inner surface of the other side of the vertical portion is joined to the rib of the adjacent bending member. An object is to provide a pillar using a bent member, which is configured to have a square cross-section.

In addition, the bending member consists of a vertical portion in the shape of a vertical plate, a rib bent and extended at a right angle from one end of the vertical portion, and the other side portion bent at a right angle and extended in the other direction of the vertical portion, and a pair of bending members. An object is to provide a column using a bent member, which is configured to form a square cross-section by connecting the other inner surface of each vertical portion to the rib of an adjacent bent member.

In addition, in the structure of a vertically connected pillar and pillar joint at the joint where steel beams are joined, a slit is formed by cutting a certain length in the vertical direction on the inside of the longitudinal direction at the longitudinal end of the pillar, and the internal vertical of the vertical plate shape is formed. A bent diaphragm member consisting of a portion and a pair of back plates that are bent at both ends of the inner vertical portion respectively, protrudes outward with the inner side of the back plate in contact with the outer side of the column, and the upper and lower portions of the inner vertical portion are respectively The purpose is to provide a column joint structure at the joint where a column using a bending member that is inserted into a slit of a vertically adjacent column and a steel beam using the same are joined.

In addition, slits of the column are formed on each side, and four bent diaphragm members are configured so that the internal vertical portions of the two bent diaphragm members are inserted into one slit. A column using a bent member and a column using the same The purpose is to provide a column joint structure at the joint where steel beams are joined.

In addition, the purpose of the present invention is to provide a column joint structure at a joint where a column using a bent member and a steel beam using the same are joined, wherein the internal vertical portion of the bent diaphragm member is configured to connect the pads on both sides diagonally.

In addition, the aim is to provide a pillar joint structure at a joint where a pillar using a bent member and a steel beam using the same are joined, wherein the slits of the pillar are formed in pairs at a certain distance from the center in the width direction on each side.

In addition, a column using a bent member, characterized in that a reinforcing plate is formed between the back plate of the bent diaphragm member each inserted into a pair of slits, and a column joint structure at the joint where the steel beam using the same are joined, provide a structure of the column joint structure. I want to do it.

In addition, the inner vertical portion of the bent diaphragm member is composed of an L-shaped cross section, and a column using a bent member and a steel beam using the same are configured to contact each of the inner vertical portions of the four bent diaphragm members within the cross section of the column. The purpose is to provide a column joint structure at the joint to be joined.

In addition, the inner vertical part of the bent diaphragm member is connected to the inner vertical part of the bent diaphragm member that is interviewed by a bolt, respectively, and provides a pillar joint structure at the joint where the column using the bent member and the steel beam using the same are joined. I want to do it.

In addition, one slit of the column is formed in the center of the width direction of the opposite side of one side of the column, and the back plate is bent at right angles at both ends of the inner vertical portion to form a U-shaped cross section, and a pair of bent diaphragm members is formed at the inner vertical portion. To provide a column joint structure at a joint where a column using a bending member and a steel beam using the same are configured so that both ends of the overlapping internal vertical portions are respectively inserted into the opposing slits while the outer surfaces of the parts are in contact and overlapped. do.

In addition, one slit of the column is formed in the center in the width direction of the opposite side of one side of the column, and the opposite side of the other side of the column is formed in a pair at a certain distance from the center in the width direction, and the bent diaphragm member is reinforced. It consists of a plate part, an internal vertical part formed diagonally to spread outward from the reinforcing overlay part, and an overlay bent at the outer end of the internal vertical part and formed in a direction perpendicular to the reinforcing overlay part, and is located in the widthwise central part of the opposite side of one side of the column. One end of the inner vertical part of the two bent diaphragm members is inserted into one slot, and the other end of the inner vertical part is inserted into a pair of slots on the opposite sides of the other side of the column, so that the reinforcing plate part is inserted into the pair of slots. The aim is to provide a pillar joint structure at the joint where a pillar using a bending member and a steel beam using the same are joined, which is exposed between the pillars and is in contact with the outer surface of the pillar.

In addition, the aim is to provide a column using a bent member, characterized in that a steel beam is joined to an overlay, and a pillar joint structure at the joint where the steel beam using the same is joined.

In addition, the aim is to provide a pillar joint structure at a joint where a pillar using a bending member and a steel beam using the same are joined, wherein the top plate is formed to be a certain size larger than the cross-sectional size of the steel beam.

In addition, it is intended to provide a column joint structure at a joint where a column using a bending member and a steel beam using the same are joined, wherein the height of the internal vertical portion is the same as the height of the overlay.

In addition, the internal vertical portion of the bent diaphragm member and the plate thickness of the back plate are formed to be a certain thickness thicker than the plate thickness of the column, providing a column joint structure at the joint where a column using a bent member and a steel beam using the same are joined. I want to.

In addition, it is intended to provide a column joint structure at the joint where a column using a bending member and a steel beam using the same are joined, wherein the interior of the column is filled with concrete.

The pillar using the bending member of the present invention is easy to manufacture and form by forming a square pillar using a bending member made of a vertical part and a rib bent at the end of the vertical part, thereby easily forming a cross section with a member of the same shape. Simplification and economic efficiency can be increased, and by arranging the ribs at the corners in a closed cross-sectional square column, they are spaced as much as possible from the center of the composite member, which not only increases structural cross-sectional performance, but also strengthens the corners of the cross-section to provide internal concrete filling. It has the effect of increasing safety against the pressure of the batting line.

In addition, the column joint structure at the joint where the steel beam using the column using the bending member of the present invention is joined is to vertically penetrate the ends of the vertically adjacent columns at the same time when joining the column at the steel beam joint. It can serve as an internal diaphragm, and by having the back plate protrude to the outside of the column, it provides an additional joint surface between columns and at the same time reinforces the joint. When pouring concrete inside the column, out-of-plane deformation at the joint due to the pouring pressure is prevented. It has the effect of playing a role in controlling .

In addition, by matching the vertical joint between columns and the joint between columns and beams, it provides a joint surface where steel beams are joined without forming separate brackets, etc., and uses a bent diaphragm member to create an economical yet separate internal diaphragm. Since no members are installed, it also has the effect of making it easier to insert tremie pipes for pouring concrete inside the column or to place reinforcing bars.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention along with the detailed description of the invention. Therefore, the present invention is limited to the matters described in the attached drawings. It should not be interpreted as limited.
1 to 2 are cross-sectional views showing various embodiments of a pillar using a bending member of the present invention.
Figure 3 is a perspective view showing the column joint structure at the joint where the steel beam of the present invention is joined.
Figure 4 is an exploded perspective view of the column joint structure at the joint where the steel beam of the present invention is joined.
Figure 5 is a perspective view of the bent diaphragm member in the present invention.
Figure 6 is a cross-sectional view of the column joint structure at the joint where the steel beam of the present invention is joined.
FIG. 7 is a cross-sectional view showing another embodiment of the bent diaphragm member shown in FIG. 6.
8 to 10 are cross-sectional views showing various embodiments of the bent diaphragm member of the present invention applied.

Below, the present invention will be described in detail with reference to embodiments shown in the attached drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to preferred embodiments.

1 to 2 are cross-sectional views showing various embodiments of a pillar using a bending member of the present invention.

The pillar 10 using the bending member of the present invention includes two or more bending members 120 to form a closed square cross-section.

The bending member 120 consists of a vertical portion 121 in the shape of a vertical plate, and ribs 123 bent in a right angle direction at one or both ends of the vertical portion 121 in the width direction.

As shown in FIG. 1, the first embodiment of the column 10 of the present invention is a pair of vertical plate-shaped vertical portions 121 and ribs 123 formed by bending both ends of the vertical portions 121 at right angles. The bent members 120 are arranged in parallel with the ribs 123 inward, and the other side members 130 are joined to the ribs 120 on both sides of the pair of bent members 120 arranged in parallel. It should form a square cross section.

The other side member 130 may be made of various forms of members that close the open portions of a pair of spaced apart bent members 120. As shown in FIG. 1A, the other side member 130 has a vertical plate shape. It is made of a plate and can be connected and joined between the ribs 123 of a pair of bent members 120 that are spaced a certain distance apart.

In addition, as shown in Figure 1b, the other side member 130 is also bent at a right angle so that the vertical plate-shaped vertical portion 131 and both ends of the vertical portion 131 are formed in the same shape as the bending member 120, thereby forming a rib ( 133) can be formed.

In this way, both the other side member 130 and the bending member 120 can be made to have the same shape and standard, thereby simplifying manufacturing and enabling easy assembly.

In particular, the ribs 123 of the pair of bending members 120 are brought into contact with the inner surface of the vertical portion 131 of the other side member 130, thereby forming the bending members 120 at the corners of the pillar 10. It serves to strengthen the edge by positioning the rib 123 and the rib 133 of the other side member 130.

In addition, as shown in Figure 2a, in the second embodiment of the pillar 10 of the present invention, the bending member 120 has a vertical plate-shaped vertical portion 121 and a right angle direction at one end of the vertical portion 121. It is made up of ribs 123 that are bent and extended, and each of the four bending members 120 is configured so that the other inner surface of the vertical portion 121 is joined to the rib 123 of the adjacent bending member 120 to form a square cross-section. You can do it as well.

In this way, the four bent members 120 manufactured in the shape of A are formed with a square cross-section by attaching each rib 123 to the inner surface of the vertical portion 121 of the adjacent bent member 120.

In other words, since a square cross-section can be formed with only one bent member 120 manufactured in the shape of L, it can be made of the same shape and standard, thereby simplifying manufacturing and making it easy to assemble.

In addition, as shown in Figure 2b, in the third embodiment of the present invention, the bending member 120 includes a vertical plate-shaped vertical portion 121 and a rib bent in a right angle direction and extending from one end of the vertical portion 121. It consists of (123) and the other side part 122 that is bent and extended at a right angle in the direction of the other side of the vertical part 121, and a pair of bending members 120 are each bent members with the other inner surface of the other side part 122 adjacent to the other side part 122. It may be configured to be joined to the rib 123 of (120) to form a square cross-section.

In this way, the bent member 120 can be formed in a configuration in which the ribs 123 are further formed in an L-shaped cross section, so that a square cross section can be formed as a pair.

In the present invention described above, the structure of the column joint at the joint where the steel beam using the column 10 using the bending member is joined is as follows. For convenience, the shape of the column 10 is changed to the first embodiment. It is shown limitedly.

Figure 3 is a perspective view showing the column joint structure at the joint where the steel beam of the present invention is joined, and Figure 4 is an exploded perspective view of the column joint structure at the joint where the steel beam of the present invention is joined.

As shown in Figures 3 and 4, when joining the pillars 10 to the pillars 10 at the joint of the steel beam 30, the upper and lower parts of the bent diaphragm member 20 are formed at the ends of the vertically adjacent pillars 10. Each is inserted into the inside of the connection between the columns (10), so that it acts as a vertical internal diaphragm inside the column, and the vertical joint of the column and the joint of the column and the beam are aligned to form a steel beam without forming a separate bracket, etc. Provide a joint surface to which are joined.

In particular, the back plate 220 of the bent diaphragm member 20 is located outside the vertical joint between the pillars 10 and the steel beam 30 to the back plate 220, so that the internal vertical part The position of the inner diaphragm formed by (210) and the position of the joint of the steel beam 30 can be precisely constructed at the same position.

Figure 5 is a perspective view of the bent diaphragm member in the present invention, Figure 6 is a cross-sectional view of the pillar joint structure at the joint where the pillar using the bent member of the present invention and the steel beam using the same are joined, and Figure 7 is a cross-sectional view of the pillar joint structure in Figure 6. This is a cross-sectional view showing another embodiment of a bent diaphragm member.

The bent diaphragm member 20 in the present invention consists of an internal vertical part 210 in the shape of a vertical plate, and a back plate 220 that is bent at both ends of the internal vertical part 210 to form a pair, A slit 110 is formed in the pillar 10 so that the internal vertical portion 210 of the bent diaphragm member 20 is inserted.

This slit 110 may be formed on all four sides of the column 10 or may be formed only on a pair of opposite sides, and may be formed in one slit in the center of the width direction of the side, or may be formed at a certain distance apart from the center in the width direction of the side. A pair may be formed, and the width of the slit 110 may vary, such as a width that allows one inner vertical portion 210 or two inner vertical portions 210 to pass through, or a thicker width.

As shown in FIGS. 4 to 6, such a bent diaphragm member 20 has one slit 110 on each side of the column 10, and includes a pair of back plates spaced at a certain distance and formed at right angles. 220) is configured to have a shape in which the internal vertical portions 210 are diagonally connected, so that the internal vertical portions 210 of the four bent diaphragm members 20 within the cross section of the pillar 10 may be configured to form a square cross section. 7, one slit 110 of the pillar 10 is formed on each side, and the internal vertical portion 210 of the bent diaphragm member 20 is made of an L-shaped cross section, forming a pillar ( 10) The inner vertical portions 210 of the four bent diaphragm members 20 are configured to contact each other inside the cross section, so that the inner vertical portions of the four bent diaphragm members 20 are formed inside the cross section of the pillar 10. (210) can also form a + shape.

As shown in FIG. 7, when the inner vertical portion 210 of the bent diaphragm member 20 is made of an L-shaped cross section, four inner vertical portions of the bent diaphragm member 20 are formed inside the cross section of the column 10 ( 210) are configured to contact each other, and at this time, the inner vertical portion 210 of the bent diaphragm member 20 is connected to the inner vertical portion 210 of the bent diaphragm member 20 by the bolt 290, respectively. By combining them, the four members can act as one member without welding.

In the above-described embodiment, the pillar 10 has vertical inner vertical portions in the width direction of each side of both longitudinal ends of the pillar 10 so that the internal vertical portion 210 of the bent diaphragm member 20 can be inserted. A certain length is cut in one direction to form a slit 110.

As shown in FIG. 4, a certain length is cut in the inner vertical direction from the longitudinal end at a corresponding position so that the inner vertical portion 210 of the bent diaphragm member 20 is inserted into both longitudinal ends of the column 10. A slit 110 is formed, and the internal vertical portion 210 is inserted into the slit 110.

The bent diaphragm member 20 is integrally formed by bending a plate to form an internal vertical portion 210 and a back plate 220, and is formed in a group of four to be placed at the vertical joint between pillars 10 and pillars 10. It is installed.

Accordingly, one slit 110 of the pillar 10 is formed on each side, and the inner surface of the top plate 220 protrudes outward in a state in contact with the outer surface of the pillar 10 and the inner vertical part 210. The upper and lower parts are each inserted into the slit 110 of the vertically adjacent column 10, and four bends are made so that the inner vertical portions 210 of the two bent diaphragm members 20 are inserted into one slit 110. Since the diaphragm member 20 is configured, a pair of back plates 220 protrude through slits 110 on the outer surface of each side of the pillar 10 and are positioned on both sides to form a joint.

8 to 10 are cross-sectional views showing various embodiments of the bent diaphragm member of the present invention applied.

In addition, as shown in FIG. 8, the slits 110 of the pillar 10 may be formed in pairs on each side at a certain distance from the center in the width direction, and in this case, the back plate 220 of the bent diaphragm member 20 ) may be bent outward as shown in FIG. 8A or inward as shown in FIG. 8B. In this case, when the top plate 220 is bent outward as shown in FIG. 8A, it is bent in a pair of slits 110. A reinforcement plate 270 may be formed between the top plate 220 of each bent diaphragm member 20 and the top plate 220 so that the steel beam 30 is connected to the reinforcement plate 270.

In addition, as shown in FIG. 9, one slit 110 of the pillar 10 is formed in the center in the width direction of one opposing side of the pillar 10, and the back plate 220 is formed at both ends of the inner vertical portion 210. It is bent in a right angle direction and has a U-shaped cross-section, with a pair of bent diaphragm members 20 overlapping with the outer surfaces of the inner vertical portion 210 in contact with each other, and an inner vertical portion overlapping the facing slit 110 ( 210) can also be inserted into each end.

It is configured in this way so that the internal vertical portions 210 of the two bent diaphragm members 20 of a U-shaped cross section are in contact with each other inside the cross section of the pillar 10.

In addition, as shown in FIG. 10, one slit 110 of the pillar 10 is formed at the center in the width direction of the opposite side of one side of the pillar 10, and the slit 110 of the pillar 10 is formed at the center in the width direction of the other side of the pillar 10. It is formed as a pair spaced apart at a certain distance, and the bent diaphragm member 20 includes a reinforcing back plate portion 250, an internal vertical portion 210 formed diagonally to spread outward from the reinforcing back plate portion 250, and It consists of a back plate 220 that is bent at the outer end of the inner vertical portion 210 and formed in a direction perpendicular to the reinforcement back plate portion 250, and has a slot 110 in the center of the width direction of one side of the pillar 10. One end of the inner vertical portion 210 of the two bent diaphragm members 20 is inserted, and the other side of the inner vertical portion 210 is inserted into a pair of slots 110 on opposite sides of the other side of the pillar 10. The end portion may be inserted so that the reinforcing plate portion 250 is exposed between the pair of slots 110 and comes into contact with the outer surface of the pillar 10.

Constructed in this way, on the opposite side of the other side of the column 10, the reinforcement plate portion 250 itself provides a joint surface to be joined to the steel beam 30, and on the opposite side of the other side of the column 10, a pair of adjacent The top plate 220 can be provided to provide a joint surface to be joined to the steel beam 30.

In this way, simply by inserting the internal vertical portion 210 into the end of the pillars 10, not only can the position be accurately adjusted when vertically joining the pillars 10, but also the external part of the joint between the pillars 10 can be adjusted. The back plate 220, which simultaneously contacts the ends of the upper and lower pillars 10 on the side, is simultaneously joined to the upper and lower pillars 10 by a method such as welding, so as to not only expand the joint area between the pillars 10, but also to expand the joint area between the pillars 10. (220) serves to control the out-of-plane deformation at the joint in response to the pouring pressure when pouring concrete inside the column 10.

In addition, when such a bent diaphragm member 20 is installed on a pillar 10 having a square cross-section, as shown in FIG. 6, an internal vertical portion 210 is located at a corner portion of the inner cross-section of the pillar 10. As shown in 7, it penetrates only the central part so that it is not disturbed by the internal vertical part 210 when inserting the tremie pipe for pouring concrete into the pillar 10, and at the same time makes it easy to place reinforcement inside the pillar 10. will be.

The interior of the pillar 10 may be filled with concrete (not shown).

As shown, the bent diaphragm member 20 may have the height of the internal vertical portion 210 equal to the height of the back plate 220.

In this way, when vertically adjacent pillars 10 are joined using the bent diaphragm member 20 of the present invention, the top plate 220 is exposed to the outer surface of the joint of the pillars 10, and this top plate 220 ), as shown in Figure 4, the steel beam 30 is joined by a method such as welding, and if necessary, the steel beam 30 and the top plate 220 may be additionally joined using members such as angles and plates. there is.

In particular, as shown in Figure 3, the top plate 220 is formed to be a certain size larger than the cross-sectional size of the steel beam 30, so that the error in the joint position of the steel beam 30 can be corrected in the top plate 220.

In addition, the plate thickness of the vertical inner diaphragm member 20 may be formed to be the same as the plate thickness of the column 10, but it may be formed to be a certain thickness thicker than the plate thickness of the column 10 to create a slit in the column 10. The part where 110 is formed and the joint between the columns 10 are overlapped and reinforced, and out-of-plane deformation at the joint due to the pouring pressure can be controlled when pouring concrete inside the column 10.

The pillar using the bending member of the present invention as described above is easy to manufacture and form by forming a square pillar using a bending member made of a vertical part and a rib bent at the end of the vertical part, so that the cross section is easily formed with a member of the same shape. This can increase the simplification and economic efficiency of manufacturing, and by arranging the ribs at the corners in a square column with a closed cross-section, it is spaced as much as possible from the center of the composite member, so not only does the cross-sectional performance increase structurally, but the corners of the cross-section are strengthened to provide internal stability. It has the effect of increasing safety against the crushing pressure caused by concrete filling.

In addition, the column joint structure at the joint where the column using the bent member of the present invention and the steel beam using the same are joined is to vertically penetrate the ends of vertically adjacent columns at the same time at the joint of the column at the steel beam joint, thereby allowing It can serve as a vertical internal diaphragm, and by having the back plate protrude to the outside of the column, it provides an additional joint surface between the columns and at the same time reinforces the joint. When pouring concrete inside the column, it provides an additional surface at the joint against the pouring pressure. It has the effect of playing a role in controlling deformation. In addition, by matching the vertical joint between columns and the joint between columns and beams, it provides a joint surface where steel beams are joined without forming separate brackets, etc., and uses a bent diaphragm member to create an economical yet separate internal diaphragm. Since no members are installed, it also has the effect of making it easier to insert tremie pipes for pouring concrete inside the column or to place reinforcing bars.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various variations and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such variations and modifications, but is limited by the claims appended below.

10: pillar
110: slit
120: bending member
130: Other side member
20: Bending diaphragm member
210: internal vertical part
220: top plate
30: steel beam

Claims (19)

It includes a vertical part 121 in the shape of a vertical plate and two or more bending members 120 made of ribs 123 bent in a right angle direction at one or both ends in the width direction of the vertical part 121 to form a square cross-section. A column using a bending member, characterized in that it is constructed. In claim 1,
A vertical plate-shaped vertical portion 121 and a pair of bent members 120 in which ribs 123 are formed by bending both ends of the vertical portion 121 at right angles are arranged in parallel with the ribs 123 facing inward. ,
A pillar using a bent member, characterized in that the other side member 130 is joined to the rib 120 on both sides of a pair of bent members 120 arranged in parallel to have a square cross-section. In claim 2,
The other side member 130 is a column using a bent member, characterized in that a vertical plate-shaped vertical portion 131 and both ends of the vertical portion 131 are bent at right angles to form ribs 133. In claim 1,
The bending member 120 consists of a vertical portion 121 in the shape of a vertical plate and a rib 123 that is bent and extended in a right angle direction from one end of the vertical portion 121, and each of the four bending members 120 A pillar using a bent member, characterized in that the other inner surface of the vertical portion 121 is joined to the rib 123 of an adjacent bent member 120 to form a square cross-section. In claim 1,
The bending member 120 includes a vertical plate-shaped vertical portion 121, a rib 123 that is bent and extended in a right angle direction from one end of the vertical portion 121, and a rib 123 that is bent at a right angle in the other direction of the vertical portion 121. It consists of the other side part 122 extending from the
A pillar using a bent member, characterized in that a pair of bent members 120 are configured to form a square cross-section such that the inner surface of the other side portion 122 is joined to the rib 123 of the adjacent bent member 120. In the joint structure of the vertically connected pillar 10 and the pillar 10 at the junction where the steel beam 30 using the pillar of any one of claims 1 to 5 is joined,
At each longitudinal end of the pillar 10, a slit 110 is formed by cutting a certain length in the vertical direction on the inside of the longitudinal direction,
A bent diaphragm member 20 consisting of a vertical plate-shaped internal vertical part 210 and a back plate 220 that is bent at both ends of the internal vertical part 210 to form a pair,
The inner surface of the top plate 220 protrudes outwards in contact with the outer surface of the pillar 10, and the upper and lower parts of the internal vertical portion 210 are respectively inserted into the slit 110 of the vertically adjacent pillar 10. Column joint structure at the joint where a column using a bent member and a steel beam using the same are joined. In claim 6,
Slits 110 of the pillar 10 are formed on each side,
A pillar using a bent member, characterized in that four bent diaphragm members 20 are configured so that the internal vertical portions 210 of the two bent diaphragm members 20 are inserted into one slit 110, and a pillar using the same Column joint structure at the joint where steel beams are joined. In claim 7,
The internal vertical portion 210 of the bent diaphragm member 20 is configured to connect the top plates 220 on both sides diagonally. A column joint structure at a joint where a column using a bent member and a steel beam using the same are joined. . In claim 8,
The slit 110 of the column 10 is a column joint structure at a joint where a column using a bent member and a steel beam using the same are formed in a pair on each side at a certain distance from the center in the width direction. In claim 9,
A pillar using a bent member, characterized in that a reinforcing plate 270 is formed between the back plate 220 of the bent diaphragm member 20, which is respectively inserted into a pair of slits 110, and the back plate 220. Column joint structure at the joint where the used steel beams are joined. In claim 7,
The inner vertical portion 210 of the bent diaphragm member 20 has an L-shaped cross section,
A column using a bent member, characterized in that the internal vertical portions 210 of the four bent diaphragm members 20 are configured to contact each other inside the cross section of the column 10, and a column at a joint where steel beams using the same are joined. Junction structure. In claim 11,
A pillar using a bent member, wherein the inner vertical portion 210 of the bent diaphragm member 20 is coupled to the inner vertical portion 210 of the bent diaphragm member 20 with a bolt 290, respectively. Column joint structure at the joint where steel beams are joined using this. In claim 6,
One slit 110 of the pillar 10 is formed in the center of the width direction of one opposing side of the pillar 10,
The top plate 220 is bent in a right angle direction at both ends of the internal vertical portion 210 to have a U-shaped cross section,
In a state in which a pair of bent diaphragm members 20 are overlapped with the outer surfaces of the inner vertical portion 210 in contact, both ends of the overlapped inner vertical portion 210 are respectively inserted into the facing slits 110. Column joint structure at the joint where columns using bent members and steel beams using them are joined. In claim 6,
One slit 110 of the pillar 10 is formed in the center in the width direction of one side of the pillar 10, and the opposite side of the other side of the pillar 10 is formed in a pair at a certain distance from the center in the width direction. is formed,
The bent diaphragm member 20 is bent at the reinforcing back plate portion 250, the inner vertical portion 210 formed diagonally to spread outward from the reinforcing back plate portion 250, and the outer end of the inner vertical portion 210. It consists of a reinforcement top plate 250 and a top plate 220 formed in a direction perpendicular to the reinforcement plate portion 250.
One end of the internal vertical portion 210 of the two bent diaphragm members 20 is inserted into one slot 110 in the width direction center portion of the opposite side of one side of the column 10,
The other end of the internal vertical portion 210 is inserted into the pair of slots 110 on the opposite side of the column 10, and the reinforcing plate portion 250 is exposed between the pair of slots 110 to form a column. (10) Column joint structure at the joint where a column using a bending member and a steel beam using the same are joined, characterized in that it is in contact with the outer surface of (10). In claim 6,
A column joint structure at a joint where a column using a bent member and a steel beam using the same are joined, characterized in that a steel beam 30 is joined to the top plate 220. In claim 15,
The top plate 220 is a column joint structure at a joint where a column using a bending member and a steel beam using the same are formed to be a certain size larger than the cross-sectional size of the steel beam 30. In claim 6,
The height of the internal vertical portion 210 is the same as the height of the top plate 220. A column joint structure at a joint where a column using a bent member and a steel beam using the same are joined. In claim 6,
The plate thickness of the internal vertical portion 210 and the back plate 220 of the bent diaphragm member 20 is formed to be a certain thickness thicker than the plate thickness of the column 10. A column using a bent member and a steel beam using the same are formed. Column joint structure at the joint being joined. In claim 6,
A pillar joint structure at a joint where a pillar using a bending member and a steel beam using the same are joined, characterized in that the interior of the pillar (10) is filled with concrete.

Images