JP2018172899A - Beam-column junction part structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a beam-column junction part structure of which the appearance finish can be done easily in a room or the like which requires good appearance among the rooms divided by the joint part.SOLUTION: There is provided a junction part structure of a reinforced concrete column 1 and a steel beam 3 in which the space surrounded by the surface extended from the reinforced-concrete column 1 is divided into 4 areas by the steel beam 3 jointed with the reinforced-concrete column 1. Of said 4 areas, one or two or three pre-designated areas have a shear reinforcement structure on which a tie hoop 4 surrounding the column main reinforcement 2 of the reinforced concrete column 1 and a plate shaped shear reinforcement member 5 welded onto the upper and lower flanges 3F and the web 3W are provided. The other areas of said 4 areas have a shear reinforcement structure with a blocking plate 6 which is provided along the side of the concrete column 1, and of which the two end parts are mounted on the web 3 of the respectively adjacent steel beam 3.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a structure of a joint portion between a reinforced concrete column and a steel beam.

5 (a) and 5 (b) show a web 3W of adjacent S beams 3 as a joint structure of a conventional reinforced concrete column (hereinafter referred to as RC column 1) and a steel beam (hereinafter referred to as S beam 3). A steel plate having an L-shaped cross section (hereinafter referred to as a “fuzzer plate 6”) is disposed along the outer peripheral surface of the RC pillar 1 and both ends of the fuzzy plate 6 are welded to the web 3W. Thus, a configuration in which the joint is shear-reinforced is known (for example, see Patent Document 1).
According to Patent Document 1, by adopting such a shear reinforcement structure, the cover plate 6 is arranged along the outer peripheral surface of the RC column 1, so when placing concrete in the column beam joint portion. Since the cover plate 6 also serves as a mold, it has an advantage that the installation and removal of the mold can be omitted (for example, see Patent Document 1).

JP 2001-329616 A

However, in the shear reinforcement structure described in Patent Document 1, the cover plate 6 shown in FIG. 5 is exposed to the room after the concrete is placed, so that a room such as a living room or an office room is required. Then, not only was it difficult to paint the surface, but there was a problem that the uniformity of the external appearance with the RC pillar 1 and the wall to be constructed later could not be maintained.
Moreover, when it is necessary to embed a reinforcing bar in a junction part, since the cover board is a steel plate, the operation | work was not easy.

  The present invention has been made in view of the conventional problems. In a room where an appearance is required among the rooms divided by the joint, a structure of the column beam joint that can be easily finished in appearance is provided. The purpose is to provide.

The present invention provides a joint structure between a reinforced concrete column and a steel beam in a form in which a space surrounded by an extended surface of the RC column is divided into four regions by an S beam joined to the RC column. Of the four regions, one, two, or three regions designated in advance are welded to the strip surrounding the column main bar of the RC column, the upper and lower flanges of the S beam, and the web. A plate-like shear reinforcement member (hereinafter referred to as “A structure”), and the other of the four regions is disposed along the side surface of the RC pillar, It is characterized by having a shear reinforcement structure (hereinafter referred to as B structure) provided with a cover plate attached to the web of the adjacent S beam at both ends.
In this way, the shear reinforcement structure in areas where appearance is required, such as living rooms and offices, is A structure, and areas where appearance is not required, such as warehouses and work places, is B structure. Work can be performed easily and efficiently.
In addition, after joining the RC column and the S beam, it is necessary to embed a reinforcing bar in the joint portion in a region where a drooping wall (storage wall) or the like protruding from the joint portion is to be formed. Since the A structure without the cover plate is easier to work, such an area may be a work area or a predesignated area.

Further, instead of the plate-like shear reinforcing member, a plate-like horizontal piece whose plate surface is parallel to the flange surface of the steel beam, and a plate-like vertical plate whose plate surface is perpendicular to the flange surface and the web surface. One plate surface of the horizontal piece is attached to a surface of the one flange facing the other flange of the steel beam, and an end surface of the vertical piece on the one flange side is An L-shaped shear reinforcement member connected to an end surface on the peripheral side of the reinforced concrete column of the horizontal piece, and an end surface on the web side of the horizontal piece and an end surface on the web side of the vertical piece attached to the web ( (Hereinafter referred to as “L-shaped bearing plate”), the compression strut region can be expanded, and the resistance to the shear stress acting on the concrete placed in the joint can be improved.
Further, as the horizontal piece, by using a horizontal piece having a width wider than the outer width of the flange web, such that the end opposite to the web side is located on the outer side in the width direction of the S beam. Since the compression strut region can be further expanded, the resistance against the shear stress acting on the concrete cast in the joint portion is further improved.
Further, since the rigidity of the L-shaped bearing plate is increased by arranging the stiffener steel plate between the horizontal piece and the vertical piece of the L-shaped bearing plate, the shear stress resistance can be further improved.

  The summary of the invention does not list all necessary features of the present invention, and sub-combinations of these feature groups can also be the invention.

It is a figure which shows the structure of the column beam junction part which concerns on this Embodiment. It is a figure which shows the other example of the column beam junction part by this invention. It is a figure which shows the column beam junction structure using an L-shaped bearing plate. It is a figure which shows the pressure strut structure area in a column beam junction part structure. It is a figure which shows the conventional column beam junction part.

FIGS. 1A and 1B are views showing the structure of a beam-column joint according to the present embodiment, where FIG. 1A is a perspective view and FIG. 1B is a plan view. In each figure, 1 is a reinforced concrete column (RC column), 2 is a column main bar of the RC column 1, 3 is a steel beam (S beam), 4 is a strip, 5 is a bearing plate, and 6 is a cover plate.
In this example, of the four spaces defined by the RC pillar 1 and the S beam 3, one space is an office that requires an external appearance, and the other three are warehouses that do not require an external appearance. The structure of the beam-column joint that is a space will be described.
The RC column 1 is a rectangular column in plan view made of reinforced concrete extending in the vertical direction, and three column main bars 2 extend upward from the four corners of the surface of the RC column 1, respectively.
The S beam 3 is arranged at the upper part of the RC pillar 1, and (b) a first S beam 31 extending from the front side on the left side in the figure to the rear side on the right side, and (b) in the vertical direction in the figure. Extending in a certain left-right direction, a second S beam 32 welded to the right side of the first S beam 31 at the top of the RC pillar 1 and a third welded to the left side of the first S beam 31. There is S beam 33.
In the column beam joint portion of this example, a space surrounded by a surface obtained by extending the side surface of the RC column 1 is divided into four regions divided by S beams 31 to 33 joined to the RC column 1.
Hereinafter, the region surrounded by the S beam 31 and the rear side of the S beam 32 (the right side in FIG. 5B) is defined as the first region R ₁ , the front side of the S beam 32 and the portion located on the front side of the S beam 31. A region surrounded by the second region R ₂ , a region surrounded by the S beam 31 and the front side of the S beam 33, a region surrounded by the third region R ₃ , a rear side of the S beam 33, and the S beam 31. that fourth region R _4.

In this example, the column beam joint portion of the fourth region R ₄ located in the office space is a shear reinforcement material having a shear reinforcement structure (A structure) provided with the band 4 and the bearing plate 5. The column beam joints in the first region R ₁ to the third region R ₃ located in the space serving as a warehouse were used as a shear reinforcement material, and a shear reinforcement structure (B structure) provided with a cover plate 6 was used.
In the following description, when there is no distinction between the S beams 31 to 33, the S beams 31 to 33 are simply referred to as the S beam 3.
The band 4 and the bearing plate 5 are A-structure shear reinforcement materials used at the joint of the fourth region R ₄ .
The band 4 is fixed to the column main bar 2 with a wire or the like so as to surround the column main bar 2 in the fourth region R ₄ from the outside, or is a L-shaped reinforcing bar having a L shape in plan view and welded at both ends. The portions 4j are respectively extended to the web 3W of the S beams 31 and 33, and after reaching the web 3W, are bent along the web 3W toward the intersection of the S beam 31 and the S beam 33. Welded to. In this example, the stirrup 4 is arranged in three stages in the vertical direction.
The bearing plate 5 is a flat plate member that is welded to the portion located on the rear side of the S beam 31, the upper and lower flanges 3 </ b> F, and the web 3 </ b> W of the S beam 33. 1 is disposed at the peripheral edge.
The cover plate 6 is a B-structure shear reinforcement material, and is arranged in a L-shaped plate shape in plan view, which is disposed along the outer peripheral surface of the RC pillar 1 at the junction of the first region R ₁ to the third region R _3. It is a member. One end of the cover plate 6 is welded to the upper and lower flanges 3F and the web 3W of the portion located on the rear side of one adjacent S beam 3, and the other end is connected to the upper and lower flanges 3F and 3W of the other S beam 3. To be welded.

When the RC column 1 and the S beam 3 are joined, first, in the fourth region R ₄ , the strip 4 is disposed on the column main reinforcement 2 of the RC column 1 so as to surround from the outside. Is welded to the web 3W.
Next, the cover plate 6 is attached by welding to the corners of the joints of the first region R ₁ to the third region R ₃ , and the bearing plate 5 is attached to the corners of the joint of the fourth region R _4. The RC pillar 1 and the S beam 3 are joined by welding.
The assembled mold so as to surround the fourth region R _4, and Da設concrete inside the blocking plate 6 and the mold, to construct a beam-column joint.
Thereafter, a partition wall is constructed below the S beam 3, a space defined by the RC column 1 and the S beam 3 is partitioned into preset chambers, and the surfaces of the column beam joint and the partition wall are finished.
In this example, a partition wall is constructed below the S beam 31 and the S beam 33, the space on the right side of the S beam 31 is the first warehouse, and the space surrounded by the S beam 31 and the front side of the S beam 33 is the second. A space surrounded by the warehouse, the rear side of the S beam 33 and the S beam 31 was used as an office.
Thus, the shear reinforcement structure of the fourth region R ₄ is a beam-column joints of the office side appearance is required is A structure, appearance is not required of the first and second storage become side Since the shear reinforcement structure of the first region R ₁ to the third region R ₃ that is the beam-column joint is a B structure, the appearance of the office side is beautifully finished even if the surface finish of each room is the same. be able to.
Also, when a storage wall or the like is made on the side that becomes the office, since the shear reinforcement structure of the fourth region R ₄ is the A structure, the reinforcing bars can be easily embedded in the joint portion.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the embodiment. It is apparent from the claims that the embodiments added with such changes or improvements can be included in the technical scope of the invention.

For example, in the above-described embodiment, one region has the shear reinforcement structure A structure, but two regions may be used as shown in FIGS. 2 (a) and 2 (b). In this case, as shown in (a), the regions having the A structure may be adjacent to each other, and as shown in (b), the regions not adjacent to each other may have the A structure.
Or as shown in FIG.2 (c), it is good also considering the area | region which made the shear reinforcement structure A structure three.
By the way, when the structure area | region is adjacent like FIG. 2 (a) and FIG.2 (c), the through-hole which is not shown in figure for letting the strip 4 pass in the S beam 3 previously is provided. If the band 4 is passed from one region to the other, the number of the band 4 can be one.
Thus, among the four spaces defined by the RC pillar 1 and the S beam 3, the shear reinforcement structure that faces the space where the appearance is required is the A structure, and the shear reinforcement structure that faces the space where the appearance is not required. If it is made into B structure, external appearance finishing can be performed easily and efficiently.
In the above embodiment, the bearing plate 5 is used as the reinforcing member of the A structure. However, instead of the bearing plate 5, an L-shaped bearing plate 10 as shown in FIGS. For example, the shear stress resistance of the beam-column joint can be improved.

The L-shaped bearing plate 10 has a plate-like horizontal piece 11 whose plate surface is parallel to the plate surface of the flange 3F of the S beam 3, and a plate shape whose plate surface is perpendicular to the plate surface of the flange 3F and the plate surface of the web 3W. And an L-shaped or inverted L-shaped plate main body 13, and a stiffener steel plate 14 disposed between the horizontal piece 11 and the vertical piece 12 and welded to the plate main body 13.
One plate surface of the horizontal piece 11 is attached to the surface of one flange 3F ₂ (or flange 3F ₁ ) opposite to the other flange 3F ₁ (or flange 3F ₂ ), and one of the vertical pieces 12 The end face on the flange 3F ₂ (or flange 3F ₁ ) side is connected to the end face on the peripheral edge side of the RC pillar 1 of the horizontal piece 11.
Further, the end face of the horizontal piece 11 on the web 3W side and the end face of the vertical piece 12 on the web 3W side are attached to the web 3W by welding. In this example, the width a which is the length in the width direction of the flange 3F of the horizontal piece 11 Is set so that the end 11k of the horizontal piece 11 opposite to the web 3W side is positioned outside the S beams 31 and 33 in the width direction. That is, the width a of the horizontal plate 11, the width of the flange 3F B, when the thickness of the web 3W was _{t w,} was _{a> (B-t w)} / 2.
In this example, the L-shaped bearing plate 10 is placed on both the inner surface of the upper flange 3F ₁ of the S beams 31 and 33 and the inner surface of the lower flange 3F ₂ . It arrange | positioned so that the surface on the opposite side to the center side of RC pillar 1 of the vertical piece 12 may be located in the upper part of a peripheral part (specifically on the surface which extended the side surface of RC pillar 1 to the upper part).
Further, in this example, the L-shaped bearing plate 10 is connected to the inner surface of the flange 3F ₁ on one side (here, the upper side) of the S beam 3 and the flange 3F ₂ on the other side (here, the lower side). The vertical piece 12 is formed on both of the inner surfaces of the RC column 1 at the upper part of the peripheral edge of the RC column 1 (specifically, the surface of the vertical piece 12 opposite to the center side of the RC column 1 is the side of the RC column 1). (On the surface extended to the top).
When the L-shaped bearing plate 10 is attached to both the upper flange 3F ₁ and the lower flange 3F ₂ , it is necessary that the two vertical pieces 12 facing each other are separated from each other. That is, when the height of the vertical piece 12 is b, the height b is b <(H−t _F ) / 2 where the web dimension is H and the thickness of the flange 3F is t _F.
Also, L-type bearing plate 10, because it is attached at the respective welding to the flange 3F and web 3W of S beams 31 and 33, the thickness t ₁₁ of the horizontal plate 11 thicker than the thickness t _F of the flange 3F it is preferable that the thickness t ₁₂ of the vertical piece 12 is larger than the thickness t _w of the web 3W.
The stiffener steel plate 14 is a plate-like member having a through-hole 14h for inserting the band 4 and notched at each apex portion of a right triangle. Welded to the vertical piece 12. The stiffener steel plates 14 are disposed at both ends of the plate body 13, respectively.

By the way, it is said that the strength of the column beam joint is higher as the area of the compression strut calculated on the assumption that the resistance mechanism at the time of destruction of the joint is a strut mechanism. The area of the compression strut depends on the shear reinforcement member joined to the concrete cast in the column beam joint.
4 (a) is a diagram showing a compression strut constituent area in the column beam joint when the flat plate-shaped bearing plate 5 is used, and the hatched portion in FIG. 4 (b) is an L-shaped bearing plate 10. It is a figure which shows the compression strut structure area in the column beam junction part at the time of using. For the sake of simplicity, the structure of the column beam joint is shown in the case where the regions of the A structure shown in FIG. 2A are adjacent to each other.
As can be seen by comparing FIGS. (A) and (b), when the L-shaped bearing plate 10 having a horizontal piece extending outward from the flange 3F is used as the shear reinforcement member, Since the reaction force of the compression strut can be received in a wider range than the bearing plate 5, it is understood that the compression strut width and the compression strut area are widened.
Accordingly, the compressive stress and tensile stress acting on the concrete when a horizontal shearing force is input to the slab 7 constructed immediately above the beam-column joint can be reduced. improves.
The stiffener steel plate 14 constituting the L-shaped bearing plate 10 is not an essential element of the present invention, and the plate body 13 without the stiffener steel plate 14 can sufficiently improve the shear stress resistance of the column beam joint. be able to.

1 Reinforced concrete columns (RC columns), 2 column main bars, 3 steel beams (S beams),
3F S-beam flange, 3W S-beam web, 4 bars, 5 bearing plate,
6 Covering board.

Claims (4)

A space surrounded by an extended surface of a reinforced concrete column is a joint structure of a reinforced concrete column and a steel beam in a form divided into four regions by a steel beam joined to the reinforced concrete column,
Among the four areas, one or two or three areas designated in advance are
A strip surrounding the main column of the reinforced concrete column;
A shear reinforcement structure provided with plate-like shear reinforcement members welded to the upper and lower flanges and the web of the steel beam;
Other areas of the four areas are:
A beam-column joint structure comprising a shear reinforcement structure provided along a side surface of the reinforced concrete column and provided with a cover plate attached to a web of adjacent steel beams at both ends. Instead of the plate-like shear reinforcement member,
A plate-like horizontal piece whose plate surface is parallel to the flange surface of the steel beam;
A plate-shaped vertical piece perpendicular to the flange surface and the web surface;
One plate surface of the horizontal piece is attached to the surface of the one flange facing the other flange of the steel beam,
The end face on the one flange side of the vertical piece is connected to the end face on the peripheral edge side of the reinforced concrete column of the horizontal piece,
2. The beam-column joint structure according to claim 1, wherein an L-shaped shear reinforcement member is provided, wherein an end surface on the web side of the horizontal piece and an end surface on the web side of the vertical piece are attached to the web. .   The column beam joint structure according to claim 2, wherein an end of the horizontal piece opposite to the web side is located outside in the width direction of the steel beam.   4. The column beam joint structure according to claim 2, wherein a steel plate for stiffener is disposed between a horizontal piece and a vertical piece of the L-shaped shear reinforcement member. 5.