JP3035205U - Column / beam joining device - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] To provide a column-beam joining device that can be used for both a steel structure building and a mixed structure of reinforced concrete columns and steel beam joints. SOLUTION: Two exposed cross plates 1, 2;
Box-shaped beam-column intersection 3 composed of four steel plates,
A column-beam joining device comprising an appropriate number of shear joining plates 32, wherein the steel plates of the box-type column-beam intersections 3 are previously welded to the exposed cross plates 1, 2 and the shear joining plates 32. Then, it is joined to the beam member and the column member.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to a pillar / beam joining device for buildings. More specifically, the present invention relates to a column / beam joining device which can be used for joining columns / beams of a steel structure building and also for a mixed structure of joining reinforced concrete columns and steel beams.

[0002]

[Prior art]

 In general, for steel-framed buildings, the fixed end, which is a plastic hinge or a plastic hinge, must be generated at the beam end based on the basic design rule of strengthening columns and weakening beams. For that purpose, if a plastic hinge is generated on the beam flange, the column-beam joint has enough strength to withstand the large stress generated in the flange of the steel frame beam, and the effective force is effectively applied to the column. It must be able to communicate. Therefore, as shown in FIGS. 16A and 16B, it was necessary to reinforce with the cross plates 10 and 20. That is, it was necessary to provide the non-exposed type cross plate 10 or the exposed type cross plate 20 at the position corresponding to the flange of the steel beam at the intersection of the beam 30 and the pillar 40 to effectively transmit the stress. .

[0003]

[Problems to be solved by the device]

 However, it is difficult to construct the cross plate 10 so that it is not exposed to the inside of the steel column, and therefore the non-exposed cross plate 10 is usually subjected to electric fusion welding, or The exposed type cross plate 20 was electrically welded by a method of dividing columns. Electric fusion welding has a high construction cost and quality control is difficult.Besides, the beam flange and column surface, the beam flange edge and the exposed cross plate edge are pulled by the weld line or base metal. The tendency of fractures when subjected to acting force was often seen even in the damaged state of the steel structure during a large earthquake.

[0004]

[Means for Solving the Problems]

 To date, many scholars and experts have disclosed various column and beam joining devices and methods, which effectively transmit stress between columns and beams by using these devices or construction methods, and reduce construction costs. I've been trying to improve efficiency. Therefore, the present invention discloses a novel pillar / beam joining device and construction method.The design principle is to use exposed type cross plates to advantageously join steel columns / beams. The difference from the column-beam joining method is that the exposed type cross plate joins the flange of the steel beam with the beam flange joining plate extending from the column surface, and preferably the cross plate position is at a different height from the beam flange. , It is not necessary to weld the beam flange edge directly to the column surface or the cross plate edge, and the flange surface of the steel beam and the side surface of the beam flange joint plate are welded or the beam flange and the beam flange joint plate are bolted. .

That is, the column-beam joining device of the present invention is connected to a box-type column-beam intersection having four steel plates and a vertical plane of the steel plates constituting the box-type column-beam intersection. A shear joint plate having a plurality of openings; exposed cross plates connected to the upper and lower ends of the box-shaped column-beam intersection; and an extension beam flange laterally connected to the exposed cross plate. And a joining plate.

It is preferable that the exposed cross plate is arranged at a height different from that of the beam flange.

It is preferable that the box-type column-beam intersections connect the steel pipe column and the steel frame beam to different portions.

It is preferable that the box-shaped column-beam intersection is formed by welding four steel plates.

It is preferable that the box-shaped column-beam intersection is a square or circular steel pipe integrally formed.

It is preferable that the exposed cross plate is formed by forming an outward beam flange joint plate from the same steel plate.

It is preferable that the extension beam flange joining plate has an arbitrary shape and is joined to the beam flange by bolting a plurality of holes and connecting them by bolts.

[0012] It is preferable that the outward beam flange joining plate has an arbitrary shape and is joined to the beam flange by welding.

It is preferable that the outward beam flange joint plate has an arbitrary shape, is provided with a plurality of openings, and is joined to the beam flange by both welding and bolts.

It is preferable that the exposed cross plate has a flat shape without any opening.

It is preferable that the exposed cross plate is provided with an opening having an arbitrary shape.

When the torque at the beam end is transmitted to the column-beam joint, in the conventional column-beam joint method of connecting the beam flange edge to the column surface or the cross plate edge, the welding line has a large tensile action. In the joining device according to the present invention, regardless of whether the joining method is welding or bolt connection, the welding line or the bolt is mainly subjected to shearing force. Therefore, it can have good toughness. In addition, there are various variations in the shape or opening of the cross plate, and it is possible to join the steel beam to any of the steel column structure, reinforced concrete column structure or concrete-filled steel tubular column structure. .

[0017]

[Embodiment of the invention]

 A preferred embodiment of the present invention will be described below with reference to the drawings.

First Embodiment Referring to FIGS. 1 and 2, a first embodiment of a column-beam joining apparatus according to the present invention comprises exposed type cross plates 1 and 2 and a box-type column-beam intersection 3. ing. The exposed type cross plate 1 is composed of one substantially square cross plate body 11 and a plurality of rectangular extension beam flange joint plates 12. Like the exposed cross plate 1, the exposed cross plate 2 is also composed of one substantially square cross plate body 21 and a plurality of rectangular outward beam flange joint plates 22. The box-shaped beam-column intersection 3 is a box-shaped assembly of four steel plates 31 by welding, and a shear joint plate 32 is welded to the outer surface of each steel plate 31 (see FIG. 2). . The box-shaped beam-column intersection 3 is joined to the exposed cross plates 1 and 2, that is, the upper edge 311 and the lower edge 312 of the steel plate 31 are respectively attached to the exposed cross plate 1 and the exposed cross plate 2. Connect by welding. The connection between the pillar / beam joining device and the pillar structure is carried out by welding the exposed cross plate bodies 11 and 21 to a steel column (not shown). An appropriate number of bolt holes 121, 221 are bored in the outer beam flange joint plates 12, 22 for bolt connection with the upper and lower flanges (not shown) of the steel beam (beam), and the shear joint plate 32 is also provided. It can be joined to the steel beam web by bolts or welding. The assembled state of the first embodiment is shown in FIG.

First Modified Example of First Embodiment In FIG. 3, a column-beam joining apparatus of the first modified example is an extension beam flange joining plate 12 (both shown in FIG. 3) connected to an upper cross plate body 11. 1) is changed to a trapezoidal beam flange joint plate 13 and the joint method with the beam is also changed to welding. The side edge 131 of the beam flange joint plate 13 is welded to the upper flange surface of the steel beam, and the extended beam flange joint plate 22 (see FIG. 1) connected to the lower cross plate body 21 is attached to the lower side of the steel beam. Can be welded to the flange surface.

Second Modified Example of First Embodiment In FIG. 4, the column / beam joining device of the second modified example is a joining method with a steel frame beam, in which bolts 121 are bolted and at the same time side edges 122 are welded. It is something to do.

Second Embodiment Referring to FIGS. 5 and 6, a second embodiment of the column-beam joining apparatus according to the present invention comprises exposed cross plates 4 and 5 and box-type column-beam intersections 3. There is. The exposed cross plate 4 is composed of a cross plate area 41 and an outward beam flange joint plate 42. The cross plate area 41 has notches 411 formed at the four corners of the cross plate body 11 (see FIG. 1) of the first embodiment, a central opening 412, and a plurality of small openings surrounding the central opening 412. And 413. The size of the four notches 411 is determined by the width of the beam flange joint plate 42, the size of the reinforcing bar size, and the pitch. The central opening 412 is set to a size required for driving ready-mixed concrete. The position and size of the small opening 413 is determined by the position and size of the reinforcing bar. An appropriate number of bolt holes 421 are formed in the outer beam flange joint plate 42 so that the flanges of the steel beam can be connected by bolts. Like the exposed cross plate 4, the exposed cross plate 5 includes a cross plate area 51 and an extension beam flange joint plate 52. The cross plate area 51 further includes a cutout 511, a central opening 512, and a small opening 512. With the opening 513, the position and size of each are determined similarly to the exposed cross plate 4. The column-beam intersection 3 and the shear joint plate 32 are the same as those in the first embodiment, and therefore their explanations are omitted. The assembled state of this second embodiment is shown in FIG.

First Modified Example of Second Embodiment In FIG. 7, the beam-column joining device of the first modified example is the same as the beam-flange joining plate 43 shown in FIG. In addition, the bolt holes 421 in FIG. 5 are eliminated, and the side edge 431 of the beam flange joint plate 43 is welded to the beam flange surface.

Second Modification of Second Embodiment In FIG. 8, the pillar-beam joining device of the second modification is a method of joining with a steel beam, in which bolts are connected by bolt holes 421 and, at the same time, side edges 422 are welded. It is something to do.

Third Embodiment Referring to FIGS. 9 and 10, a third embodiment of the column-beam joining apparatus according to the present invention comprises exposed type cross plates 6 and 7 and box-type column-beam intersections 3. There is. The box-type column-beam intersection 3 is the same as that of the first embodiment and will not be described again. The exposed cross plate 6 is composed of a cross plate area 61 and an outward beam flange joint plate 62. The cross plate area 61 is formed by forming a plurality of openings 611 in the cross plate body 11 (see FIG. 1) of the first embodiment. The position, size and number of the openings 611 are determined by the data required for driving the ready-mixed concrete. An appropriate number of bolt holes 621 are provided in the outer beam flange joint plate 62 and bolted to the flange of the steel beam. Like the exposed cross plate 6, the exposed cross plate 7 includes a cross plate area 71 and an outward beam flange joint plate 72, and an opening 711 is further formed in the cross plate area 71. The assembled state of this third embodiment is shown in FIG.

First Modified Example of Third Embodiment In FIG. 11, the column-beam joining apparatus of the first modified example is constructed such that an outward beam flange joining plate 62 (see FIG. 9) in an exposed cross plate 61 is used. The beam flange joint plate 63 having a trapezoidal shape or a relatively narrow rectangular shape (not shown) is used instead. At the same time, the bolt holes 621 in FIG. 9 are eliminated, and the beam flange connecting plate edge 631 is connected to the beam flange of the steel beam. The outer beam flange joint plate 72 (see FIG. 9) of the lower exposed cross plate 7 can be welded to the two edges of the lower beam flange by making it rectangular.

Second Modified Example of Third Embodiment In FIG. 12, the pillar-beam joining device of the second modified example is a method of joining to a steel frame beam in which bolts are connected by bolt holes 621 and side edges 622 are formed at the same time. It is to be welded.

First Application Example Referring to FIG. 13 and FIGS. 1 to 4, in the column-beam joining apparatus 300 of the first application example according to the present invention, the steel plate 31 of the box-type column-beam intersection 3 is previously exposed. It is welded between the rate 1 and the exposed cross plate 2, and the column / beam joining device 300 is first joined to the column 100 in the vertical direction, and is also joined to the steel beam 200 in the horizontal direction. Is. The pillar / beam joining device 300 and the pillar 100 are joined by welding the steel plate of the pillar 100 to the exposed cross plate 1 and the exposed cloth plate 2. The steel plate 31 of the column-beam intersection 3 corresponds to the steel plate of the column 100 in the up-down direction, so that the column axial force of the upper floor can be transmitted to the lower floor. The joint with the steel beam 200 is performed by bolting the extension beam flange joint plate 12 to the upper and lower flanges of the steel beam 200 using the bolt holes 121, and connecting the web beam of the steel beam 200 via the shear joint plate 32. This is done by bolting. When the beam end torque is transmitted from the steel beam 200 to the column / beam joining device 300, the shearing force is received by the bolts (not shown) in the bolt holes 121. Therefore, by arranging an appropriate number of bolts, The beam end torque can be transmitted to the column 100.

Second Application Example In FIGS. 14 and 5 to 8, a column-beam joining device 300 of a second application example according to the present invention is joined to a steel beam 200 and a reinforced concrete column 400. The reinforcing bar 811 of the reinforced concrete column 400 penetrates the opening 413 of the exposed type cross plate 4, the reinforcing bar 812 is arranged in the notch 411 of the exposed type cross plate 4, and the hoop bar 813 of the reinforced concrete column 400 is connected to the column-beam joint. It is located above the device 300. The steel plate 31 of the box-type beam-column crossing portion 3 of the column-beam joining device 300 guarantees the binding strength required by the reinforcing bars 811 and 812 of the reinforced concrete column 400 at the beam-beam crossing portion, and the shearing of the beam-column crossing area. Can bear the force. To join the steel beam 200 and the column / beam joining device 300, the beam flange joining plate 43 is used to weld the beam flange joining plate edge 431 to the flange of the steel beam 200, and at the same time, the shear joining plate 32 is joined to the steel beam 200. This is done by bolting to the web.

Third Application Example In FIGS. 15 and 9 to 12, a column / beam joining device 300 according to a third application example of the present invention is a steel pipe column 100 (illustrated partially broken display) which is a square column made of steel. ), And the details are the same as the column-beam joining device shown in FIGS. 9 and 10. The joining of the steel tube column 100, the steel beam 200, and the column / beam joining device 300 is substantially the same as the description of FIG. 13, and thus will not be repeated, but the exposed cross plates 6 and 7 are provided with openings 611 and 711. Therefore, the ready-mixed concrete 9 can be placed inside the steel pipe column 100 and the column / beam joining device 300.

Although the preferred embodiments of the present invention have been disclosed above, they are not intended to limit the present invention, and it should be understood by any person skilled in the art within the technical concept and scope of the present invention. However, since some changes and modifications can be made, the scope of protection of the present invention is based on the scope described in the scope of claims for utility model registration.

[0031]

[Effect of the invention]

 With the above configuration, in the column-beam joining device according to the present invention, regardless of whether the joining method is welding or bolt connection, the welding line or the bolt is mainly subjected to shearing force. , With good toughness. In addition, there are various variations in the shape or opening of the cross plate, and it is possible to join the steel beam to any of steel column structure, reinforced concrete column structure or concrete-filled steel tubular column structure. Therefore, the present invention has an extremely high industrial utility value because stress can be effectively transmitted between columns and beams with a simple structure, and construction cost can be reduced to improve construction efficiency. .

[Brief description of the drawings]

FIG. 1 is a perspective view showing a first embodiment of a column-beam joining device according to the present invention.

FIG. 2 is a perspective view showing an assembled state of the column-beam joining device of FIG.

FIG. 3 is a perspective view showing a first modification of the first embodiment according to the present invention.

FIG. 4 is a perspective view showing a second modification of the first embodiment according to the present invention.

FIG. 5 is a perspective view showing a second embodiment of the column-beam joining device according to the present invention.

6 is a perspective view showing an assembled state of the column-beam joining device of FIG. 5. FIG.

FIG. 7 is a perspective view showing a first modification of the second embodiment according to the present invention.

FIG. 8 is a perspective view showing a second modification of the second embodiment according to the present invention.

FIG. 9 is a perspective view showing a third embodiment of the column / beam joining device according to the present invention.

10 is a perspective view showing an assembled state of the column / beam joining device of FIG. 9. FIG.

FIG. 11 is a perspective view showing a first modification of the third embodiment according to the present invention.

FIG. 12 is a perspective view showing a second modification of the third embodiment according to the present invention.

FIG. 13 is a perspective view showing a first application example of the column-beam joining device according to the present invention.

FIG. 14 is a perspective view showing a second application example of the column-beam joining device according to the present invention.

FIG. 15 is a perspective view showing a third application example of the column-beam joining device according to the present invention.

FIG. 16 is an essential part explanatory view showing a conventional column-beam joint structure.

[Explanation of symbols]

 1 Exposed Cross Plate 2 Exposed Cross Plate 3 Box-type Beam-to-Column Intersection 4 Exposed Cross Plate 5 Exposed Cross Plate 6 Exposed Cross Plate 7 Exposed Cross Plate 12 Outer Beam Flange Joint Plate 22 Outer Beam Flange Joint Plate 31 Steel plate 32 Shear joint plate 42 Outer beam flange joint plate 52 Outer beam flange joint plate 62 Outer beam flange joint plate 72 Outer beam flange joint plate 300 Column / beam joint device

Claims (11)

[Utility model registration claims] 1. A box-type beam-column intersection having four steel plates, and a shear-bonding plate having a plurality of openings connected to a vertical surface of a steel plate constituting the box-beam beam-crossing portion. And an exposed type cross plate connected to two upper and lower ends of the box-shaped beam-column intersection, and an outward beam flange joint plate connected to a side of the exposed type cross plate. Column / beam joining device. 2. The column-beam joining device according to claim 1, wherein the exposed cross plate is arranged at a height different from that of the beam flange. 3. The column-beam joining device according to claim 1, wherein the box-type column-beam intersection connects the steel pipe column and the steel frame beam to different portions. 4. The column according to claim 1, wherein the box-type column-beam intersection is formed by welding four steel plates.
Beam joining device. 5. The column-beam joining device according to claim 1, wherein the box-type column-beam intersection is a square or circular steel pipe integrally formed. 6. The column-beam joining device according to claim 1, wherein the exposed cross plate is formed by molding an outward beam flange joining plate from the same steel plate. 7. The column / beam according to claim 1, wherein the extension beam flange joint plate has an arbitrary shape, and is joined to the beam flange by bolting a plurality of holes formed therein. Joining device. 8. The column-beam joining apparatus according to claim 1, wherein the outer beam flange joining plate has an arbitrary shape and is joined to the beam flange by welding. 9. The extension beam flange joining plate has an arbitrary shape, is provided with a plurality of openings, and is joined to the beam flange by both welding and bolts. Column / beam joining device. 10. The column-beam joining apparatus according to claim 1, wherein the exposed cross plate has a flat shape without any openings. 11. The column-beam joining device according to claim 1, wherein the exposed cross plate is provided with an opening having an arbitrary shape.