JP2020056244A - Column-beam joint portion structure of building - Google Patents

Abstract

To provide a column-beam joint portion structure of a building capable of suppressing a work for fixing a closing plate to a beam from becoming difficult.SOLUTION: A building comprising a column 1 of reinforced concrete construction and a beam 2 of steel construction comprises a column-beam joint portion 3 in which the beams 2 made of an H-shaped steel cross each other and the beams 2 cross the column 1. A vertically extending plate-shaped stiffener 4 is welded to a part corresponding to an outer side face of the column 1 in a side face in a thickness direction of a web 2a and a flange 2b of the beam 2. Also, closing plates 5 connected to the stiffeners 4 are respectively provided in parts sandwiched between the crossing beams 2 and corresponding to the outer side face of the column 1. A part corresponding to the stiffener 4 in the closing plate 5 is fixed to the stiffener 4 in a state in which it is inserted into a side face side near a crossing part of the beams 2 of both side faces in a thickness direction of the stiffener 4. Further, into a part surrounded with the closing plates 5 in the column-beam joint portion 3, a steel bar 6 is inserted, and concrete of the column is made to flow.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a beam-column joint structure of a building.

  As shown in Non-Patent Document 1, in a building including a reinforced concrete column and a steel frame beam, that is, a building built by the column RC beam S construction method, the beams intersect and the beams and the column are connected to each other. There are beam-to-column joints that intersect.

  As shown in FIG. 12, an H-shaped steel is used as the beam 32 intersecting with each other at the beam-column joint 31. The beam 32 has a plate-shaped web 32a that stands in the up-down direction, and a flange 32b that projects horizontally from both the upper and lower ends of the web 32a. A blocking plate 33 that is welded to the side surfaces in the thickness direction of the web 32a and the flange 32b of the beam 32 is provided in a portion that is sandwiched between the crossing beams 32 and that corresponds to the outer surface of the column. Have been. Then, a portion of the column-beam joint 31 that is surrounded by the blocking plate 33 is passed through the reinforcing bar of the column and the concrete of the same column is poured.

  FIG. 13 shows a plane cross section of a welding portion between the closing plate 33 and the beam 32. As can be seen from FIG. 13, the end (left end in FIG. 13) of the closing plate 33 on the web 32a side is welded to the web 32a and the flange 32b on both sides in the thickness direction (upper and lower sides in FIG. 13). I have. The closing plate 33 is fixed to the beam 32 by such welding.

  In the column RC beam S construction method, after forming a reinforced concrete column, an intersection (column-beam joint) between the beams is arranged at the upper end of the column. Further, in a portion surrounded by the blocking plate at the beam-column joint, a reinforcing bar for forming a column above the beam-column joint is passed, and concrete for forming the column is poured. . The concrete and the rebar form a column above the beam-column joint. In the column RC beam S construction method of the building, the columns and beams are formed stepwise toward the upper stage. Then, at the beam-column joint of a building constructed by the column RC beam S construction method, the blocking plate provides shear resistance, and the concrete in the column-beam joint is restrained by the blocking plate.

Design and Construction of Reinforced Concrete Column / Steel Beam Mixed Structure January 10, 2001 Architectural Institute of Japan

  In the column-beam joint structure of the building described above, when fixing the end of the closing plate 33 on the web 32a side to the beam 32 shown in FIGS. 12 and 13, both sides of the closing plate 33 in the thickness direction at the end. (Upper and lower sides in FIG. 13) must be welded to the web 32a and the flange 32b. However, regarding the welding to the web 32a and the flange 32b on the side surface (upper side in FIG. 13) near the intersection of the beams 32 among the both side surfaces in the thickness direction at the end of the closing plate 33, the intersecting beams 32 It must be performed from the inside of the narrow portion surrounded by the closing plate 33 to the boundary portion between the end of the closing plate 33 and the web 32a and the flange 32b. Therefore, the welding operator puts his hand for welding in a narrow portion, such as a portion surrounded by the intersecting beams 32 and the blocking plate 33 and near the side in the thickness direction of the web 32a and the flange 32b. It is undeniable that the work for fixing the closing plate 33 to the beam 32 is difficult.

  An object of the present invention is to provide a beam-column joint structure of a building, which can suppress a difficulty in an operation for fixing a closing plate to a beam.

Hereinafter, means for solving the above-described problems and the effects thereof will be described.
The beam-column joint structure of a building that solves the above-mentioned problem is a beam-column joint in which a beam made of H-shaped steel intersects and a beam intersects a column in a building including a reinforced concrete column and a steel beam. Applied to A portion sandwiched between the intersecting beams and a portion corresponding to the outer side surface of the column is fixed to the side surface in the thickness direction of the web in the beam and the side surface in the thickness direction of the upper and lower flanges in the beam. A blocking plate is provided. Then, in a portion surrounded by the blocking plate at the column-beam joint, the reinforcing steel of the column is passed and concrete of the column is poured. A plate-like stiffener extending vertically is disposed at a portion between the upper and lower flanges of the beam and corresponding to the outer surface of the column, and the stiffener is a side surface in the thickness direction of the web and the flange of the beam. Welded to In addition, the closing plate is fixed to the stiffener in a state where the end on the web side is inserted between the upper and lower flanges and on the side of the stiffener in the thickness direction on the side closer to the intersection of the beams. The beam is fixed to the side surface in the thickness direction of the web and the flange of the beam via the stiffener.

  According to the above configuration, when the closing plate is fixed to the side surfaces in the thickness direction of the web and the flange in the beam, first, the stiffener is welded to the side surfaces in the thickness direction of the web and the flange in the beam. Specifically, the stiffener is welded to the thickness side surfaces of the web and the flange on both sides in the thickness direction of the stiffener near the intersection between the beams and away from the intersection. The welding to the web and the flange on the side closer to the intersection of the beams among the thickness direction both sides in the stiffener is performed in a state where the blocking plate does not exist in the portion sandwiched by the intersecting beams, The closing plate does not make the welding difficult. Then, the end of the closing plate on the web side is inserted between the upper and lower flanges and on the side surface near the intersection of the beams in the thickness direction both side surfaces of the stiffener, and in that state the closing plate is in contact with the stiffener. Fixed. Since such fixing of the closing plate is performed on the stiffener, it is performed at a position apart from the side in the thickness direction of the web in the beam, and does not need to be performed in a narrow place near the side in the thickness direction of the web. Also gets better. Therefore, the work for fixing does not have to be performed in a narrow place, so that it is possible to suppress the work from being difficult to perform. When the closing plate is fixed to the stiffener, the closing plate is fixed to the side surface in the thickness direction of the web and the flange of the beam via the stiffener.

  In the beam-to-column joint structure of the building, the portion of the blocking plate inserted into the side surface near the intersection of the stiffeners in the thickness direction of the stiffener is the same as the beam in the thickness direction both side surfaces of the same portion. May be welded to the stiffener on the side surface away from the intersection of the stiffener, and the blocking plate may be fixed to the stiffener by the welding.

  According to this configuration, the fixing of the closing plate to the stiffener welded to the thickness direction side surfaces of the web and the flange in the beam is performed on the side surface near the intersection of the beams among the thickness direction both side surfaces of the stiffener in the closing plate. This is done by welding the part inserted into the stiffener. Since this welding is performed from the side of the stiffener in the thickness direction on both sides away from the intersection of the beams, the welding work is performed in a narrow place such as the inside of the part surrounded by the beams and the blocking plate. You do not have to do it. Therefore, the work for the welding need not be performed in a narrow place, so that it is possible to suppress the work from being difficult to perform. In addition, when concrete is poured into the portion surrounded by the blocking plate at the beam-column joint, the concrete pushes the blocking plate away from the intersection of the beams, so that the beam-side end of the blocking plate is moved. Pressed against stiffener. Therefore, the portion of the closing plate inserted into the side surface near the intersection between the beams in the thickness direction both sides of the stiffener is the side surface near the intersection between the beams in the thickness direction both sides of the stiffener. Even if the stiffener is not welded to the stiffener, the fixing between the stiffener and the closing plate on the side surface does not become weak.

  In the column-beam joint structure of the building, a portion inserted into the side surface near the intersection of the beams among the thickness direction both side surfaces of the stiffener in the blocking plate is fastened to the stiffener by bolts and nuts, It is conceivable that the blocking plate is fixed to the stiffener by the bolts and nuts.

  According to this configuration, the fixing of the closing plate to the stiffener welded to the thickness direction side surfaces of the web and the flange in the beam is performed on the side surface near the intersection of the beams among the thickness direction both side surfaces of the stiffener in the closing plate. The fastening is performed by bolts and nuts between the part inserted into the stiffener and the stiffener. The fastening by the bolts and nuts is performed at a position apart from the side in the thickness direction of the web in the beam, and does not need to be performed in a narrow place near the side in the thickness direction of the web. Therefore, since the work for fastening with the bolt and the nut does not have to be performed in a narrow place, it is possible to suppress the difficulty in performing the work.

  In the column-beam joint structure of the building, a portion inserted into the side surface near the intersection of the beams among the thickness direction both side surfaces of the stiffener in the blocking plate is fastened to the stiffener by bolts and nuts, The stiffener is welded to the stiffener on the side of the same part in the thickness direction opposite to the intersection between the beams, and the closing plate is fixed to the stiffener by the welding and bolts and nuts. It is conceivable that

  According to this configuration, the blocking plate can be fixed to the stiffener as follows. That is, the stiffener is fastened with a bolt and a nut to a portion of the closing plate that is inserted into the side surface near the intersection of the beams of the stiffeners in the thickness direction on both sides thereof, and the thickness of the above-described portion is increased under that condition. Welding is performed on the stiffener on the side of the both sides in the direction away from the intersection of the beams. In this manner, by performing the welding in a state where the stiffener and the closing plate are fastened by the bolts and the nuts, it is possible to suppress the occurrence of displacement or the like between the stiffener and the closing plate during the welding. The above-mentioned welding can be easily performed. In addition, when concrete is poured into the portion surrounded by the blocking plate at the beam-column joint, the blocking plate is pushed by the concrete in a direction away from the intersection of the beams, thereby increasing the thickness direction of the stiffener in the blocking plate. Portions of the side surfaces inserted into the side surfaces near the intersection of the beams tend to rotate around the welded portions in a direction away from the stiffener. Such a situation can be suppressed by the bolt and the nut.

In the column-beam joint structure of the building, it is conceivable that the stiffener protrudes larger than the flange with respect to the side surface in the thickness direction of the web.
According to this configuration, in the stiffener, the closing plate is slid up and down with respect to the portion of the stiffener that projects more than the upper and lower flanges with respect to the side surface in the thickness direction of the web. It is possible to insert the portion on the side surface near the intersection of the beams among the both side surfaces in the thickness direction of the stiffener. For this reason, the portion corresponding to the stiffener in the closing plate can be easily inserted into the side surface near the intersection of the beams among the both side surfaces in the thickness direction of the stiffener.

  In the column-beam joint structure of the above-mentioned building, the portion of the closing plate inserted into the side surface near the intersection of the stiffeners in the thickness direction of the stiffener is located at the end on the side surface side in the thickness direction of the web. , It is possible to have a bend that is bent away from the stiffener.

  According to this configuration, when the concrete is poured into the portion surrounded by the blocking plate at the beam-column joint, the blocking plate is pushed by the concrete in a direction away from the intersection of the beams, and thus the stiffener in the blocking plate is pressed. Of the two side surfaces in the thickness direction of the stiffener, portions inserted into the side surfaces near the intersection of the beams tend to displace away from the tip of the stiffener. However, such a displacement is suppressed by the bent portion buried by the poured concrete serving as a resistance to the displacement.

  ADVANTAGE OF THE INVENTION According to this invention, it can suppress that the operation | work for fixing a blocking plate to a beam becomes difficult.

The perspective view which shows the beam-column joint part of a building. The perspective view which shows the same beam-column joint part. The perspective view which shows the intersection part of the beams in the same beam-joint part. FIG. 4 is a plan sectional view showing a stiffener welded to a web and a flange of a beam, and a portion of the closing plate connected to the stiffener. FIG. 4 is a perspective view showing an assembling mode of a closing plate to a beam. FIG. 4 is a perspective view showing an assembling mode of a closing plate to a beam. FIG. 4 is a perspective view showing a mode of fixing a closing plate to a stiffener. FIG. 4 is a plan sectional view showing a stiffener welded to a web and a flange of a beam, and a portion of the closing plate connected to the stiffener. FIG. 4 is a perspective view showing an assembling mode of a closing plate to a beam. Sectional drawing which shows the other example of the closing plate. FIG. 9 is a perspective view showing another example of a mode of fixing the closing plate to the stiffener. The perspective view which shows the conventional example of the intersection part of beams in the beam-column joint part of a building. FIG. 7 is a plan sectional view showing a conventional example of a fixing mode of a closing plate and a beam.

[First Embodiment]
Hereinafter, a first embodiment of a beam-column joint structure of a building constructed by a column RC beam S method will be described with reference to FIGS. 1 to 6.

  As shown in FIGS. 1 and 2, a building constructed by the column RC beam S construction method includes a reinforced concrete column 1 and a steel beam 2. In such a building, there is a beam-to-column joint 3 where the beams 2 intersect and the beams 2 intersect with the columns 1. The beam 2 is an H-shaped steel, and has a plate-like web 2a which stands in the up-down direction, and a flange 2b projecting horizontally from both the upper and lower ends of the web 2a.

  FIG. 3 shows the intersecting beams 2 at the beam-to-column joint 3 shown in FIGS. 1 and 2. A plate-like stiffener 4 extending in the up-down direction is arranged at a portion between the upper and lower flanges 2b of the beam 2 and corresponding to the outer surface of the column 1 (FIGS. 1 and 2). The stiffener 4 is orthogonal to the side surfaces in the thickness direction of the web 2a and the flange 2b of the beam 2, and is welded to those side surfaces. The amount of protrusion of the beam 2 from the side surface in the thickness direction of the web 2a in the stiffener 4 is equal to the amount of protrusion of the upper and lower flanges 2b of the beam 2 from the side surface.

  In the beam-to-column joint 3, a portion sandwiched between the crossing beams 2 and corresponding to the outer surface of the column 1 is provided with an L-shaped blocking plate 5 connected to the stiffener 4. ing. The end of the beam 2 on the web 2a side of the closing plate 5 is fixed to the stiffener 4 in a state where it is inserted into the side surface near the intersection of the beams 2 on both side surfaces in the thickness direction of the stiffener 4. I have. The portion of the closing plate 5 that is inserted into the side surface of the stiffener 4 in the thickness direction of the stiffener 4 that is closer to the intersection between the beams 2 is such that the end on the web 2a side is located between the upper and lower flanges 2b of the beam 2. doing.

  FIG. 4 shows a stiffener 4 welded to the thickness side surfaces of the web 2a and the flange 2b of the beam 2, and a plan section of a portion of the closing plate 5 connected to the stiffener 4. As can be seen from FIG. 4, the stiffener 4 is welded to the thickness side of the web 2a and the flange 2b on both sides in the thickness direction (upper and lower sides in FIG. 4). By such welding, the stiffener 4 is fixed to the side surface of the beam 2 in the thickness direction of the web 2a and the flange 2b. The portions R2 and R3 welded as described above extend along the boundary between the stiffener 4 and the web 2a and the flange 2b.

  In addition, a portion of the blocking plate 5 that is inserted into a side surface (upper side in FIG. 4) of the stiffener 4 in the thickness direction on both sides in the thickness direction of the stiffener 4 is a beam of the thickness direction both side surfaces of the same portion. On the side (lower side in FIG. 4) away from the intersection of the two, it is welded to the stiffener 4. The portion R1 of the closing plate 5 welded to the stiffener 4 extends in the vertical direction (a direction perpendicular to the plane of FIG. 4) along the stiffener 4. The closing plate 5 is fixed to the stiffener 4 by the above welding. Further, by fixing the closing plate 5 to the stiffener 4, the closing plate 5 is fixed to the web 2a and the flange 2b of the beam 2 via the stiffener 4.

The above-mentioned welding may be, for example, fillet welding, but may be other welding, such as partial penetration welding or complete penetration welding.
In the column RC beam S construction method for a building, after forming a reinforced concrete column 1 (FIG. 2 and the like), an intersection of the beams 2 shown in FIG. Further, as shown in FIG. 2, in the portion surrounded by the blocking plate 5 at the intersection (the beam-to-column joint 3) of the beams 2, the column 1 above the beam-to-column joint 3 is formed. While the rebar 6 is passed, the concrete 11 for forming the same pillar 1 is poured in as shown in FIG. Due to the concrete 11 and the reinforcing bars 6, columns 1 above the beam-to-column joint 3 are formed above the beam-to-column joint 3. In the column RC beam S construction method of the building, the columns 1 and the beams 2 are formed stepwise toward the upper stage. In the column-beam joint 3 of the building constructed by the column RC beam S construction method, the closing plate 5 provides shear resistance, and the concrete 11 in the column-beam joint 3 is restrained by the closing plate 5.

Next, an operation of the column-beam joint structure of a building in the present embodiment will be described.
When fixing the closing plate 5 to the thickness side surfaces of the web 2a and the flange 2b of the beam 2, first, the stiffener 4 is welded to the thickness side surfaces of the web 2a and the flange 2b as shown in FIG. Is done. Specifically, the end of the stiffener 4 on the side of the web 2a is welded to the thickness side of the web 2a and the flange 2b on both sides in the thickness direction of the stiffener 4 (upper and lower sides in FIG. 4). For welding to the thickness side of the web 2a and the flange 2b on the side closer to the intersection of the beams 2 (upper side in FIG. 4) among the both sides in the thickness direction at the end of the stiffener 4, the intersecting beams 2 The welding is performed in a state where the closing plate 5 does not exist in a portion (see FIG. 3) sandwiched by the above, so that the welding is not difficult to be performed by the closing plate 5. After that, the end (the left end in FIG. 4) of the closing plate 5 on the web 2a side is inserted into the side surface (upper side in FIG. 4) of the both sides in the thickness direction of the stiffener 4 near the intersection of the beams 2. It is.

  More specifically, as shown in FIG. 5, the L-shaped closing plate 5 is bent at an acute angle to the extent that it can return to its original shape by elasticity. Then, after inserting the blocking plate 5 bent as described above into a portion sandwiched between the crossing beams 2 and closer to the crossing portion between the beams 2 than the stiffener 4, the blocking plate 5 is elastically moved. When it is returned to the original state, the portion corresponding to the stiffener 4 in the closing plate 5 comes into contact with the stiffener 4. Thereby, as shown in FIG. 6, a state in which the portion corresponding to the stiffener 4 of the closing plate 5 is inserted into the side surface near the intersection of the beams 2 on both side surfaces in the thickness direction of the stiffener 4. Become. Further, at this time, the portion of the closing plate 5 corresponding to the stiffener 4, that is, the end of the beam 2 on the web 2a side is located between the upper and lower flanges 2b of the beam 2.

  The portion of the closing plate 5 corresponding to the stiffener 4 is inserted into the side surface near the intersection of the beams 2 among the both side surfaces in the thickness direction of the stiffener 4. At this time, the portion (the end on the web 2a side) of the closing plate 5 corresponding to the stiffener 4 is located between the upper and lower flanges 2b of the beam 2, so that the closing plate 5 is positioned in the vertical direction with respect to the stiffener 4. You. Under this condition, the end of the closing plate 5 on the web 2a side is located on the side (lower side in FIG. 4) away from the intersection of the beams 2 on both sides in the thickness direction as indicated by R1 in FIG. , Stiffener 4. Since this welding is performed on the stiffener 4, it is performed at a position away from the side surface in the thickness direction of the web 2a. Further, the welding is performed from the side (lower side in FIG. 4) of the stiffener 4 in the thickness direction on both sides in the thickness direction, which is away from the intersection between the beams 2. For these reasons, it is not necessary to perform the welding operation in a narrow place near the side surface in the thickness direction of the web 2a or inside the portion surrounded by the beams 2 and the closing plate 5. Therefore, the work for the welding need not be performed in a narrow place, so that it is possible to suppress the work from being difficult to perform.

  After that, the intersection (the beam-to-column joint 3) between the beams 2 is arranged at the upper end of the column 1 as shown in FIG. Then, a reinforcing bar 6 for forming the column 1 above the beam-column joint 3 is passed through a portion of the beam-column joint 3 surrounded by the blocking plate 5 and, as shown in FIG. Concrete 11 for forming 1 is poured. Since the concrete poured in this way pushes the closing plate 5 in a direction away from the intersection between the beams 2, the end of the closing plate 5 on the web 2 a side shown in FIG. 4 is pressed against the stiffener 4. Accordingly, portions of the blocking plate 5 that are inserted into the side surfaces (upper side in FIG. 4) of the stiffener 4 in the thickness direction on both sides in the thickness direction of the stiffener 4 correspond to the thickness side surfaces of the stiffener 4. Even if the stiffener 4 is not welded to the stiffener 4 on the side near the intersection of the beams 2, the fixing of the stiffener 4 and the closing plate 5 on the side is not weakened.

According to the embodiment described in detail above, the following effects can be obtained.
(1) When the stiffener 4 is welded to the side surfaces in the thickness direction of the web 2a and the flange 2b on the side surfaces in the thickness direction of the stiffener 4 near the intersection of the beams 2, the welding is performed by the beam 2 The operation is performed in a state where the blocking plate 5 does not exist in a portion sandwiched between them. Therefore, the above-described welding is not difficult to be performed by the closing plate 5. In addition, a state in which the end of the closing plate 5 on the web 2a side is inserted into the side surface near the intersection of the beams 2 among the both side surfaces in the thickness direction of the stiffener 4 welded to the web 2a and the flange 2b. Then, the end is fixed to the stiffener 4 by welding. Since the fixing at this time is performed on the stiffener 4, the fixing is performed at a position away from the side surface in the thickness direction of the web 2 a, and is not performed in a narrow place such as near the side surface in the thickness direction of the web 2 a. It will be good. Therefore, since the fixing does not have to be performed in a narrow place, it is possible to suppress the work for the fixing from being difficult to perform. From these facts, it is difficult to perform the operation for fixing the closing plate 5 to the beam 2, more specifically, the operation for fixing the closing plate 5 to the web 2 a and the flange 2 b of the beam 2 via the stiffener 4. Can be suppressed.

  (2) In the welding of the closing plate 5 to the stiffener 4, the end of the closing plate 5 on the web 2 a side is inserted into the side surface near the intersection of the beams 2 on both side surfaces in the thickness direction of the stiffener 4. Is performed on the stiffener 4 on the side surface away from the intersection between the beams 2 among the both side surfaces in the thickness direction of the inserted portion. Since the welding is performed from the side surface in this manner, the work for the welding does not have to be performed in a narrow place such as between the beams 2 and the portion surrounded by the blocking plate 5. Therefore, the work for the welding need not be performed in a narrow place, so that it is possible to suppress the work from being difficult to perform.

  (3) Further, the welding of the closing plate 5 to the stiffener 4 is performed by setting the end of the closing plate 5 on the web 2a side of the beam 2 between the upper and lower flanges 2b of the same beam 2 so as to close the closing plate 5 to the stiffener 4. Is performed in a state where the positioning is performed in the vertical direction. For this reason, at the time of the above-mentioned welding, it can control that the position shift of the stiffener 4 and the blocking plate 5 in the up-and-down direction occurs, and can perform the welding easily.

[Second embodiment]
Next, a second embodiment of the present embodiment will be described with reference to FIGS.
As shown in FIG. 7, in the column-beam joint 3 of the present embodiment, the stiffener 4 welded to the web 2 a and the flange 2 b of the beam 2 moves up and down in the beam 2 with respect to the side surface in the thickness direction of the web 2 a. Projecting more than the flange 2b. The portion (the end on the web 2a side) of the closing plate 5 corresponding to the stiffener 4 is an intersection of the beams 2 on both sides in the thickness direction of the portion of the stiffener 4 protruding from the web 2a beyond the flange 2b. And is fastened to the above portion by a plurality of bolts 7 and nuts 8.

  As shown in FIG. 8, holes 9 and 10 for passing bolts 7 are formed in portions where the stiffener 4 and the closing plate 5 overlap in the thickness direction. The end of the closing plate 5 on the web 2a side is inserted into the side surface (upper side in FIG. 8) of the stiffener 4 on both sides in the thickness direction, which is closer to the intersection of the beams 2. The two side surfaces in the thickness direction of the portion are welded to the stiffener 4 on the side surface (lower side in FIG. 8) remote from the intersection between the beams 2. The closing plate 5 is fixed to the stiffener 4 by this welding and the bolt 7 and the nut 8. Further, by fixing the closing plate 5 to the stiffener 4, the closing plate 5 is fixed to the web 2a and the flange 2b of the beam 2 via the stiffener 4.

  As shown in FIG. 9, when the closing plate 5 is fixed to the stiffener 4 at the intersection (the beam-to-column joint 3) of the beams 2, the portion sandwiched by the intersecting beams 2 and the stiffener 4 The L-shaped blocking plate 5 is slid downward from above toward the side closer to the intersection between the beams 2 than from above. Thereby, the portion corresponding to the stiffener 4 in the closing plate 5 contacts the side surface near the intersection of the beams 2 among the thickness-direction side surfaces of the portion of the stiffener 4 projecting from the flange 2b of the beam 2. . At this time, a state in which the portion (the end on the web 2a side) of the closing plate 5 corresponding to the stiffener 4 is inserted into the side surface near the intersection of the beams 2 on both side surfaces in the thickness direction of the stiffener 4 is shown. Become. Further, at this time, the positioning of the closing plate 5 with respect to the stiffener 4 is also performed so that the hole 9 of the stiffener 4 and the hole 10 of the closing plate 5 are positioned correspondingly.

  The bolt 7 is inserted into the communicating holes 9 and 10, and the stiffener 4 and the closing plate 5 are fastened by the bolt 7 and the nut 8. Further, the end of the closing plate 5 on the web 2a side is inserted into the side of the stiffener 4 in the thickness direction on the side close to the intersection of the beams 2 as shown by R1 in FIG. Is welded to the stiffener 4 on the side surface (lower side in FIG. 8) of the inserted side portion in the thickness direction opposite to the intersection between the beams 2. As described above, the fastening plate 5 is fixed to the stiffener 4 by fastening the stiffener 4 and the closing plate 5 with the bolts 7 and the nuts 8 and by welding the stiffener 4 and the closing plate 5. You.

According to the present embodiment described in detail above, the following effect can be obtained in addition to the effect (1) of the first embodiment.
(4) The fixing of the closing plate 5 to the stiffener 4 is performed by bolts between the stiffener 4 and the portions of the closing plate 5 that are inserted into the side surfaces of the stiffener 4 in the thickness direction on the side closer to the intersection between the beams 2. 7 and a nut 8 and welding of the above-mentioned portion to the stiffener 4. Therefore, the number of bolts 7 and nuts 8 required for fixing the closing plate 5 to the stiffener 4 can be reduced.

  (5) Since the fastening between the stiffener 4 and the closing plate 5 by the bolt 7 and the nut 8 is performed at a position apart from the side surface of the beam 2 in the thickness direction of the web 2a, the fastening in the thickness direction of the web 2a is performed. It does not have to be performed in a narrow place such as near the side. Therefore, the work for fastening with the bolt 7 and the nut 8 does not need to be performed in a narrow place, and thus it is possible to suppress the work from being difficult to perform. For this reason, it is possible to suppress the difficulty in the operation for fixing the closing plate 5 to the beam 2, specifically, for fixing the closing plate 5 to the web 2 a of the beam 2 via the stiffener 4.

  (6) The stiffener 4 is fastened by bolts 7 and nuts 8 to the stiffener 4 and the portions of the closing plate 5 that are inserted into the side surfaces of the stiffener 4 in the thickness direction that are closer to the intersection between the beams 2. Originally, it is possible to perform welding to the stiffener 4 on the side apart from the intersection between the beams 2 among the both sides in the thickness direction of the above portion. As described above, by performing the welding in a state where the stiffener 4 and the closing plate 5 are fastened by the bolts 7 and the nuts 8, a positional shift or the like between the stiffener 4 and the closing plate 5 occurs during the welding. Therefore, the welding can be easily performed.

  (7) Since the stiffener 4 protrudes more than the upper and lower flanges 2b with respect to the side surface of the beam 2 in the thickness direction of the web 2a, the closing plate 5 is slid up and down with respect to the protruding portion. In addition, the end of the closing plate 5 on the web 2a side can be inserted into the side surface near the intersection of the beams 2 on both side surfaces in the thickness direction of the stiffener 4. For this reason, the portion corresponding to the stiffener 4 in the blocking plate 5 can be easily inserted into the side surface near the intersection of the beams 2 among the both side surfaces in the thickness direction of the stiffener 4.

  (8) When the concrete 11 is poured into a portion of the beam-to-column joint 3 surrounded by the blocking plate 5, the blocking plate 5 is pushed by the concrete 11 in a direction away from the intersection of the beams 2. As a result, the portions of the closing plate 5 that are inserted into the side surfaces near the intersection of the beams 2 of the stiffener 4 in the thickness direction on both sides thereof are welded to the stiffener 4 in the direction away from the stiffener 4. 8). Such a situation can be suppressed by the bolt 7 and the nut 8 for fastening the stiffener 4 and the closing plate 5.

[Other Embodiments]
The above embodiments can be modified, for example, as follows.
In the first embodiment, the portions of the closing plate 5 that are inserted into the side surfaces of the stiffeners 4 in the thickness direction of the stiffeners 4 that are closer to the intersections between the beams 2 correspond to the webs 2a of the beams 2 as shown in FIG. It may have a bent portion 5a which is bent away from the stiffener 4 at the end on the side in the thickness direction.

  In this case, when the concrete 11 is poured into a portion surrounded by the blocking plate 5 in the beam-column joint 3, the blocking plate 5 is pushed by the concrete 11 in a direction away from the intersection between the beams 2. As a result, the portions of the closing plate 5 that are inserted into the side surfaces of the stiffener 4 in the thickness direction that are closer to the intersection between the beams 2 tend to displace away from the distal end of the stiffener 4. However, such a displacement is suppressed by the bent portion 5a filled with the poured concrete 11 serving as a resistance to the displacement.

  The bent portion 5a shown in FIG. 10 is bent 180 ° with respect to a portion of the closing plate 5 that overlaps the stiffener 4 in the thickness direction, but is bent at an angle other than 180 ° such as 90 ° or 135 °. It may be something.

  In the first embodiment, the stiffener 4 and the closing plate 5 may be fixed not only by welding but also by fastening with bolts and nuts as in the second embodiment.

  In the first embodiment, the closing plate 5 may be fixed to the stiffener 4 by fastening the stiffener 4 and the closing plate 5 with bolts and nuts without welding the closing plate 5 to the stiffener 4. In this case, the end of the closing plate 5 on the side of the web 2a and the portion of the stiffener 4 where the above-mentioned end is inserted into the side surface near the intersection of the beams 2 on both sides in the thickness direction are fastened with bolts and nuts. Thus, the stiffener 4 and the closing plate 5 can be fixed only by the bolts and the nuts.

  In the second embodiment, it is not always necessary to weld the closing plate 5 to the stiffener 4. In this case, a bolt 7 and a nut 8 are used to connect the end of the closing plate 5 on the web 2a side and the portion of the stiffener 4 where the above-mentioned end is inserted into the side surface near the intersection of the beams 2 on both side surfaces in the thickness direction. By fastening, the stiffener 4 and the closing plate 5 can be fixed with only the bolt 7 and the nut 8.

  In the second embodiment, as shown in FIG. 11, the closing plate 5 may be fixed to the stiffener 4 only by the welding. In this case, since the fastening by the bolt 7 and the nut 8 does not need to be performed, the labor required for fixing the blocking plate 5 to the stiffener 4 can be further reduced.

  In the first and second embodiments, the surface of the stiffener 4 on the side opposite to the intersection of the beams 2, that is, the surface on the side opposite to the side where the closing plate 5 is inserted, and the thickness of the web 2 a in the beam 2. The support plate may be welded so as to cover the side surface in the direction. In this case, when the blocking plate 5 and the stiffener 4 are pushed in a direction away from the intersection of the beams 2 by the concrete 11 poured into the portion surrounded by the blocking plate 5 in the beam-to-column joint 3, this is accompanied by The deformation of the stiffener 4 can be suppressed by the support plate.

  DESCRIPTION OF SYMBOLS 1 ... Column, 2 ... Beam, 2a ... Web, 2b ... Flange, 3 ... Beam-column joint, 4 ... Stiffener, 5 ... Closure plate, 5a ... Bending part, 6 ... Reinforcing bar, 7 ... Bolt, 8 ... Nut, 9 ... holes, 10 ... holes, 11 ... concrete.

Claims (6)

In a building including a reinforced concrete column and a steel frame beam, the beams made of H-shaped steel cross each other and are applied to a beam-column joint where the beams and the column cross each other,
A portion sandwiched between the intersecting beams and corresponding to an outer surface of the column is fixed to a side surface in a thickness direction of a web in the beam and a side surface in a thickness direction of upper and lower flanges in the beam. There is a closing plate that is
In a column-beam joint structure of a building in which the reinforcing bar of the column is passed and concrete of the same column is poured into a portion surrounded by the blocking plate in the column-beam joint,
A plate-shaped stiffener extending vertically is arranged between the upper and lower flanges of the beam and at a portion corresponding to the outer surface of the column, and the stiffener is arranged in the thickness direction of the web and flange of the beam. Welded to the side,
The closing plate is fixed to the stiffener in a state where the end on the web side is inserted between the upper and lower flanges and on the side surface near the intersection of the beams on both side surfaces in the thickness direction of the stiffener. A beam-column joint structure for a building, wherein the beam and the flange are fixed to side surfaces in the thickness direction of the web and the flange of the beam via the stiffener.   In the blocking plate, a portion of the stiffener that is inserted into a side surface near a crossing portion between the beams in the thickness direction both side surfaces of the stiffener is separated from an intersection portion between the beams in the thickness direction both side surfaces of the same portion. The beam-column joint structure of a building according to claim 1, wherein the side plate is welded to the stiffener, and the welding plate fixes the closing plate to the stiffener.   Portions of the closing plate that are inserted into the side surfaces near the intersection of the beams among the thickness direction both side surfaces of the stiffener are fastened to the stiffener with bolts and nuts, and the bolts and nuts are used to fix the stiffener. 2. The beam-column joint structure of a building according to claim 1, wherein a closing plate is fixed to the stiffener.   A portion of the closing plate, which is inserted into a side surface near a crossing portion between the beams, of both sides in a thickness direction of the stiffener is fastened to the stiffener by bolts and nuts, and a thickness direction of the same portion. The stiffener is welded to the stiffener on a side surface of the both sides that is away from the intersection of the beams, and the closing plate is fixed to the stiffener by the welding and the bolt and the nut. Item 2. A column-beam joint structure of a building according to Item 1.   The beam-column joint structure of a building according to any one of claims 1 to 4, wherein the stiffener projects more than the flange with respect to a side surface in the thickness direction of the web.   A portion of the closing plate, which is inserted into a side surface near a crossing portion of the beams, of both sides in the thickness direction of the stiffener is separated from the stiffener at an end portion on the side surface in the thickness direction of the web. The beam-column joint structure for a building according to any one of claims 1 to 5, further comprising a bent portion that is bent.