JP6349732B2 - Method and structure for joining reinforced concrete beam to steel column or column with steel frame - Google Patents

Description

  The present invention relates to a method and a structure for joining a reinforced concrete beam and a steel column or a column provided with a steel frame.

  As a method of joining a reinforced concrete beam and a steel column (S column) or a column having a steel frame (CFT column, SRC column, etc.), a method of welding a beam main bar of a reinforced concrete beam to a diaphragm (for example, Patent Document 1) Or a method of screwing a screw portion provided on a beam main bar of a reinforced concrete beam into a screw type mechanical joint welded to a flange of a cruciform steel frame (for example, see Patent Document 2). . In the method described in Patent Document 1, the beam main reinforcement is welded to the diaphragm at the site. On the other hand, in the method described in Patent Document 2, a threaded mechanical joint is welded to a flange of a cruciform steel frame at a factory, and a beam main bar is screwed to the threaded mechanical joint at the site.

JP 2002-88909 A JP 2004-346614 A

  The method described in Patent Document 1 is inferior in workability because a lot of complicated work of welding reinforcing bars has to be performed. On the other hand, in the method described in Patent Document 2, when an error occurs in the column erection, such as when the column rotates around the axis, the thread main bar thread portion and the threaded mechanical joint It is conceivable that the main beam of the beam must be bent in order to screw them out of position.

  The present invention has been made in view of the above-mentioned problems. In joining a reinforced concrete beam to a steel column or a column provided with a steel frame, the present invention has excellent workability on the site, and the beam main bar regardless of the column installation error. It is an object of the present invention to provide a method and a structure that can be fixed to a steel frame of a column without bending.

The method of joining a reinforced concrete beam and a steel column or a column provided with a steel frame according to the present invention is a method of attaching a plate having a plurality of mechanical joints fixed to the steel frame of the column. Attached directly or via a diaphragm provided on the outer peripheral part, the beam main reinforcement of the reinforced concrete beam is inserted and fixed in the mechanical joint, the plate, and a diaphragm provided on the outer peripheral part of the steel frame, And is fastened with bolts and nuts .

Further, the present invention relates to a method for joining a reinforced concrete beam and a steel column or a column provided with a steel frame, and after mounting the column, a plate to which a plurality of mechanical joints are fixed is attached to the steel frame of the column. Attached directly or directly through the diaphragm provided on the outer periphery of the steel frame, the main beam of the reinforced concrete beam is inserted into the mechanical joint and fixed, and the relative position of the mechanical joint and the steel frame is adjusted. The plate is attached to the steel frame .

  In addition, the connection structure of the reinforced concrete beam and the steel column or the column provided with the steel frame according to the present invention is a diaphragm provided on an outer peripheral portion of the steel frame of the column, and is fastened with a bolt and a nut so as to overlap the diaphragm. It is characterized by comprising a plate and a plurality of mechanical joints fixed to the plate and fixed by inserting beam main bars of the reinforced concrete beam.

  According to the present invention, when joining a reinforced concrete beam to a steel column or a column equipped with a steel frame, the workability at the site is excellent, and it is fixed to the column steel without bending the beam main bar, regardless of the column erection error. And a method and structure that can be provided.

It is a plane sectional view showing the joint structure of a reinforced concrete beam and a steel column concerning one embodiment through the concrete. It is an elevational sectional view (2-2 sectional view of Drawing 1) which shows concrete through the joint structure of the reinforced concrete beam and steel pillar concerning one embodiment. FIG. 3 is an elevational sectional view (3-3 sectional view of FIG. 1) showing the joint structure of the reinforced concrete beam and the steel column according to the embodiment through the concrete. It is a plane sectional view expanding and showing a reinforcing bar fixing mechanism. It is an elevation sectional view showing the procedure of joining a reinforced concrete beam to a steel column. It is an elevation sectional view showing the procedure of joining a reinforced concrete beam to a steel column. It is a plane sectional view which shows the procedure which joins a reinforced concrete beam to a steel column. It is a plane sectional view which shows the procedure which joins a reinforced concrete beam to a steel column.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a plan sectional view showing a joint structure between a reinforced concrete beam 10 and a steel column 20 according to an embodiment through the concrete, and FIG. 2 is an elevation sectional view showing the joint structure (2 in FIG. 1). FIG. 3 is an elevational sectional view (3-3 sectional view of FIG. 1) showing the joining structure. As shown in these drawings, the steel column 20 is a reverse strut made of a square steel pipe, and a pair of upper and lower diaphragms 22 and a pair of upper and lower inner diaphragms 24 are provided at a joint portion with the reinforced concrete beam 10. Yes. In addition, in this embodiment, although the steel column 20 is used as the reverse strut, it is good also as a column of an upper frame.

  The diaphragm 22 includes a through diaphragm portion 22A extending horizontally from the entire circumference of the steel column 20, and a rectangular reinforcing bar fixing portion 22B protruding from a side to which the reinforced concrete beam 10 of the through diaphragm portion 22A is joined. Yes. The diaphragm 22 is formed by integrally cutting the through diaphragm portion 22A and the reinforcing bar fixing portion 22B from the steel plate. Further, the inner peripheral edge portion of the through diaphragm portion 22 </ b> A is welded to the outer peripheral surface of the steel column 20.

  The pair of inner diaphragms 24 is a steel plate disposed in the steel column 20 so as to sandwich the pair of diaphragms 22 up and down, and the outer peripheral edge thereof is welded to the inner peripheral surface of the steel column 20. The upper inner diaphragm 24 is disposed at the height of the upper end of the reinforced concrete beam 10, and the lower inner diaphragm 24 is disposed at the height of the lower end of the reinforced concrete beam 10.

  The end of the reinforced concrete beam 10 in the direction of the material axis is arranged so as to surround the beam main bar 12 arranged in two steps above and below, the upper beam main bar 12 on the upper side, and the lower beam main bar 12 on the lower side. A stiffened beam stirrup 14 and a pair of upper and lower reinforcing bar fixing mechanisms 30 embedded in the end portion are provided. The upper upper beam main bar 12 is arranged above the upper diaphragm 22, and the upper lower beam main bar 12 is arranged below the upper diaphragm 22. The lower upper beam main reinforcement 12 is arranged above the lower diaphragm 22, and the lower lower beam reinforcement 12 is arranged below the lower diaphragm 22.

  Beam main bars (not shown) connected to the beam main bars 12 by joints are arranged closer to the center in the material axis direction than the beam main bars 12 of the reinforced concrete beam 10. The beam main bar 12 is a threaded reinforcing bar. Further, the beam main reinforcing bar 12 and the beam main reinforcing bar on the center side in the material axis direction are connected by a grout filling type steel pipe sleeve or a lap joint.

  The reinforcing bar fixing mechanism 30 includes a pair of upper and lower steel plates 32 sandwiched between the reinforcing bar fixing portions 22B up and down and fastened by bolts B and nuts N, and a plurality of reinforcing bar connecting couplers 34 welded to the respective steel plates 32. The steel plate 32 has the same shape and the same size as the reinforcing bar fixing portion 22B, and the upper and lower steel plates 32 and the reinforcing bar fixing portion 22B between them overlap. The bolt B is a high-strength bolt or a super-high-strength bolt.

  The plurality of reinforcing bar connecting couplers 34 are arranged in parallel at the same intervals as the beam main reinforcing bars 12 of each step, and the end portions of the beam main reinforcing bars 12 that are screw joints are screwed to the reinforcing bar connecting couplers 34. . A plurality of through holes 32A and 22C are formed in the upper and lower steel plates 32 and the reinforcing bar fixing portion 22B therebetween (see FIG. 4). The plurality of through holes 32A and 22C are arranged between the reinforcing bar connecting couplers 34, and the bolts B and nuts N passed through the through holes 32A and 22C are used to connect the upper and lower steel plates 32 and the reinforcing bar fixing portions therebetween. 22B is fastened. As a result, the upper and lower beam main bars 12 are fixed to the steel column 20.

  Here, as shown in FIG. 4, the diameters of the through holes 32 </ b> A and 22 </ b> C are larger than the diameter of the bolt B. Further, a gap is secured between the steel column 20 end of the steel plate 32 and the reinforcing bar connecting coupler 34 and the outer wall surface of the steel column 20. For this reason, the relative position between the steel plate 32 and the reinforcing bar fixing portion 22B can be adjusted by the clearance between the bolt B and the through holes 32A and 22C.

  5 to 8 are elevational sectional views or plan sectional views showing a procedure for joining the reinforced concrete beam 10 to the steel column 20. Here, at least the ends in the material axis direction of the reinforced concrete beam 10 are constructed by hitting concrete in the field. In addition, the center side of the reinforced concrete beam 10 in the material axis direction may be constituted by a precast concrete member, or may be constructed by hitting concrete on-site.

  In addition, the steel column 20 is a reverse strut and is built in the hole so that the tip is inserted into the pile after drilling the ground and placing the pile. Thereafter, the holes around the steel column 20 are backfilled. When the tip of the steel column 20 that is the reverse strut is inserted into the reinforced concrete of the pile, or due to the earth and sand to be backfilled, there is a possibility that the accuracy of the steel column 20 will be distorted. Here, since the steel column 20 is built in a state where the reinforcing bar connecting coupler 34 is not attached, earth and sand do not enter the reinforcing bar connecting coupler 34.

  Then, when the excavation and construction of the underground frame in the reverse driving method proceeds and the reinforced concrete beam 10 on the predetermined floor is joined to the steel column 20, first, as shown in the vertical sectional view of FIG. A beam main bar (not shown) on the center side of the beam to be connected to the beam main bar 12 and a beam rib 14 are arranged. Next, as shown in the elevation sectional view of FIG. 6 and the plan sectional view of FIG. 7, the reinforcing bar fixing mechanism 30 manufactured in advance in the factory is installed in the reinforcing bar fixing part 22B, and temporarily fixed with the bolt B and the nut N. To do.

  Next, as shown in the plane sectional view of FIG. 8, while adjusting the position and orientation of the reinforcing bar connecting coupler 34, the end of the beam main bar 12 is screwed into the reinforcing bar connecting coupler 34, and then the bolt B and Fully tighten the nut N. And the edge part of the reinforced concrete beam 10 is constructed | assembled by hitting concrete on-site.

  As described above, in the method of joining the reinforced concrete beam 10 and the steel column 20 according to the present embodiment, after the steel column 20 is installed, the steel plate 32 to which a plurality of reinforcing bar connecting couplers 34 are fixed is attached to the steel column 20. At the same time, it is attached via a diaphragm 22 provided on the outer peripheral portion of the steel column 20, and the beam main bar 12 of the reinforced concrete beam 10 is inserted into a reinforcing bar connecting coupler 34 and fixed. Accordingly, the relative position between the built-in steel column 20 and the reinforcing bar connecting coupler 34 can be adjusted, and the reinforcing bar connecting coupler 34 can be attached to the steel column 20 via the steel plate 32 and the diaphragm 22. The main beam 12 can be fixed to the steel column 20 without bending, regardless of the erection error of 20.

  In addition, a large number of complicated operations of welding the reinforcing bar connecting coupler 34 to the steel column 20 are performed by attaching the reinforcing bar connecting coupler 34 to the steel plate 32 in advance at the factory. This is unnecessary, and the workability of the work of fixing the beam main bar 12 to the steel column 20 can be improved.

  Further, during the period from when the steel column 20 is built in the excavation hole until the excavation hole is refilled, the rebar connecting coupler 34 is not attached to the steel column 20 and the excavation and underground structure of the reverse casting method are not used. After the construction progresses and the joint position of the reinforced concrete beam 10 of the steel column 20 is exposed from the ground, the rebar connection coupler 34 is attached to the steel column 20, so that the earth and sand are connected to the rebar when the drilling hole is backfilled. Can be prevented from entering the hole of the coupler 34.

  Further, the steel column 20 is built around the axis by rotating the steel plate 32 and the diaphragm 22 provided on the outer periphery of the steel column 20 and fastening them with bolts B and nuts N. Even in such a case, the relative position of the rebar connecting coupler 34 and the steel column 20 around the axis can be adjusted, and the steel plate 32 can be attached to the steel column 20, and the steel column can be attached without bending the beam main bar 12. 20 can be fixed.

  In addition, the above-mentioned embodiment is for making an understanding of this invention easy, and does not limit this invention. It goes without saying that the present invention can be changed and improved without departing from the gist thereof, and that the present invention includes equivalents thereof. For example, in the above-described embodiment, the steel plate 32 is attached to the steel column 20 via the diaphragm 22, but the steel plate 32 may be directly attached to the steel column 20. Further, although the steel plate 32 is fastened to the diaphragm 22 with the bolt B and the nut N, the steel plate 32 may be welded to the diaphragm 22 or the steel column 20.

  In the above-described embodiment, the present invention has been described by taking the case where the reinforced concrete beam 10 is joined to the steel column 20 as an example. However, when the reinforced concrete beam 10 is joined to the steel frame of the steel reinforced concrete column, The present invention can also be applied to the case of joining to a steel pipe (steel frame) of a steel pipe concrete column.

  In the above-described embodiment, the mechanical joint is a threaded mechanical joint, but may be a grout filling mechanical joint. In the above-described embodiment, the two-stage beam main reinforcement 12 is arranged above and below the reinforced concrete beam 10, but the beam main reinforcement 12 may have one or three stages.

  Furthermore, in the above-described embodiment, by providing the inner diaphragm 24 above and below the diaphragm 22, the strength of the beam joint portion of the steel column 20 is ensured without increasing the thickness of the steel column 20, but this is essential. Alternatively, the strength of the beam joint portion of the steel column 20 may be ensured by increasing the thickness of the steel column 20 or by another reinforcing method.

DESCRIPTION OF SYMBOLS 10 Reinforced concrete beam, 12 Beam main bar, 14 Beam stirrup, 20 Steel column, 22 Diaphragm, 22A Through diaphragm part, 22B Reinforcing bar fixing part, 22C Through hole, 24 inner diaphragm, 30 Rebar fixing mechanism, 32 Steel plate, 32A Through hole, 34 Rebar coupler coupler

Claims (4)

A method of joining a reinforced concrete beam and a steel column or a column provided with a steel frame,
After the column is built, a plate having a plurality of mechanical joints fixed thereto is attached to the steel frame of the column via a diaphragm provided on the outer periphery of the steel frame or directly, and the beam of the reinforced concrete beam Insert the main bar into the mechanical joint and fix it .
A method for joining a reinforced concrete beam and a steel column or a column provided with a steel frame, wherein the plate and a diaphragm provided on the outer periphery of the steel frame are overlapped and fastened with bolts and nuts . A method of joining a reinforced concrete beam and a steel column or a column provided with a steel frame,
After the column is built, a plate having a plurality of mechanical joints fixed thereto is attached to the steel frame of the column via a diaphragm provided on the outer periphery of the steel frame or directly, and the beam of the reinforced concrete beam Insert the main bar into the mechanical joint and fix it .
A method of joining a reinforced concrete beam that attaches the plate to the steel frame and a steel column or a column provided with a steel frame by adjusting the relative position of the mechanical joint and the steel frame . The Adjust mechanical coupling and the relative position of the steel, method of joining the pillar with a pillar or steel reinforced concrete beams and steel according to claim 1 for attaching said plate to said steel. A joint structure of a reinforced concrete beam and a steel column or a column provided with a steel frame,
A diaphragm provided on the outer periphery of the steel frame of the column, a plate overlaid on the diaphragm and fastened with bolts and nuts, and a plurality of fixed beam beams of the reinforced concrete beam fixed by the plate Of a reinforced concrete beam comprising a mechanical joint and a steel pillar or a pillar comprising a steel frame.

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