JP2003064776A - Joint method and joint construction between steel plate concrete wall and steel beam - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance the stability of a steel beam fixed to a steel plate concrete wall by improving the rigidity of a joint portion between a steel plate concrete wall and a steel beam. SOLUTION: An embedding portion for embedding a steel beam 2 is provided inside a steel plate block 5 surrounded by a surface steel plate 5, on the other hand, an opening 11 for inserting the steel beam 2 and guiding to the embedding portion is provided in the surface steel plate 5, the embedding portion at the tip side of the steel beam 2 is inserted to the inside of the steel plate block from the opening 11 and embedded to the embedding portion, embedded portion is temporarily fixed to the steel plate block, thereafter, concrete is placed inside the steel plate block and a steel plate concrete wall 1 is formed, and the steel beam 2 is fixed to the steel plate concrete wall 1 by the concrete placed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a joining method and a joining structure for a steel plate concrete wall and a steel beam, and more particularly to a joining method for joining a steel beam to a steel plate concrete wall made of steel plate concrete. Improvements to the
Also, the present invention relates to a joint structure between a steel plate concrete wall joined by this joining method and a steel frame beam.

[0002]

2. Description of the Related Art A conventional joining method for fixing a steel beam to a steel plate concrete wall and a joining structure joined by the joining method will be described with reference to FIG.

That is, when fixing the steel beam 2 to the steel plate concrete block, the following steps (S11)-
This is performed according to the step (S18). Note that the steel plate concrete block is a block surrounded by the surface steel plate 5, and the concrete plate is cast into the steel plate concrete wall 1 to form the steel plate concrete wall 1.

(S11) Steel beam 2 with fixing plate 3 attached
A surface steel plate 5 having holes 13 for the anchor bolts 4 is prepared in advance. (S12) The fixing plate 3 is applied to the front surface steel plate 5, and the anchor bolt 4 is inserted into the hole 13 from the outside to the inside of the steel plate concrete block. (S13) An operator enters the inside of the steel plate concrete block, and the anchor bolt fixing nut 7 is attached to the anchor bolt 4. (S14) An operator enters the inside of the steel plate concrete block, and an anchorage fixing nut 9 for fixing the anchorage 8 is attached to the anchor bolt 4. (S15) Anchorage 8 is installed. (S16) The anchorage fixing nut 9 is installed. (S17) The reinforcing material 10 (for example, steel bar is used) is installed in the wall thickness direction as needed. (S18) and thereafter, the steel plate concrete block manufactured in steps S11 to S17 is installed locally, and then the steel plate concrete block 1 is formed by pouring and filling concrete into the steel plate concrete block. The steel beam 2 is fixed to the steel plate concrete wall 1.

[0005]

However, the joint structure between the steel plate concrete wall and the steel beam joined by such a joining method has the following problems.

That is, in the conventional joint structure of the steel plate concrete wall 1 and the steel beam 2, as shown in FIG. 6, when the vertical load Q acts on the steel beam 2, the fixing plate 3 is fixed to the surface steel plate 5. As a load bearing mechanism of the fixing part, which is the part
The tensile force F of the anchor bolt 4 and the compression force P of the fixing plate 3 to the steel plate concrete wall 1 bear the strength. In this case, the rigidity of the fixing portion depends on the axial rigidity of the anchor bolt 4 and the out-of-plane bending rigidity of the fixing plate 3, and the rigid connection state is lost. For this reason, the stability of the steel beam 2 fixed to the steel plate concrete wall 1 is lowered, and as shown in FIG. 7, there is a possibility that the steel plate concrete wall 1 may be destroyed by the local pulling out of the anchor bolt 4 or the like. There is a problem that there is.

In this case, if the steel frame beam 2 is welded and fixed to the steel frame column 6, the above-mentioned problem does not occur. For example, one end is fixed to the steel plate concrete wall 1 by the above-described joining method. The bending moment of the steel beam 2, which is generated in the steel beam 2 whose other end is welded and fixed to the steel column 6, has a biased distribution as shown in FIG.

The present invention has been made in view of the above circumstances, and the bending rigidity of the steel plate concrete wall itself is achieved by embedding and fixing the steel beam in the steel plate concrete wall and transmitting the load of the steel beam to the steel plate concrete wall. The method of joining a steel plate concrete wall and a steel beam to improve the rigidity of the joint between the steel plate concrete wall and the steel beam, thereby improving the stability of the steel beam fixed to the steel plate concrete wall. And a joint structure.

[0009]

In order to achieve the above object, the present invention takes the following means.

That is, the joining structure of the steel plate concrete wall and the steel frame beam of the present invention is joined according to the joining method as described below.

First, an embedding part (embedding space) for embedding a steel frame beam is provided inside a steel plate block surrounded by a surface steel plate, while the steel beam is inserted into the surface steel plate and embedded. An opening is provided for leading to the section. Then, the embedded portion, which is the tip side of the steel beam, is inserted into the steel plate block through the opening and embedded in the embedded portion, and then the embedded portion is welded to the steel plate block, so that the steel beam is connected to the steel plate block. Temporarily fix to.

After that, concrete is cast inside the steel plate block to form a steel plate concrete wall, and the steel beam is fixed to the steel plate concrete wall by the cast concrete.

Therefore, in the joining method and joining structure of the steel plate concrete wall and the steel beam of the present invention, the load of the steel beam is transmitted to the steel plate concrete wall by taking the above-mentioned means, and the steel plate concrete wall itself. It is possible to utilize the bending rigidity of. As a result, it becomes possible to enhance the fixing stability of the joint portion between the steel plate concrete wall and the steel beam.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION A method for joining a steel plate concrete wall and a steel beam according to an embodiment of the present invention and a joint structure between a steel plate concrete wall and a steel beam joined by this joining method will be described below with reference to the drawings. While explaining.

It is to be noted that the reference numerals in the drawings used for describing the embodiments of the present invention are the same as those in FIGS. 5 to 8 and are designated by the same reference numerals.

An embodiment of the present invention will be described with reference to FIGS. 1 to 4.

FIG. 1 is a diagram for explaining a method of joining a steel plate concrete wall and a steel frame beam according to an embodiment of the present invention, and is an example of a state in which a steel frame beam is joined to a surface steel plate of a steel plate concrete wall. FIG. 2 is a front view showing an example of a joint structure between a steel plate concrete wall and a steel beam.

That is, in the case of joining the steel plate concrete wall 1 and the steel beam 2 by the method for joining the steel plate concrete wall and the steel beam according to the embodiment of the present invention, the following (S1) to (S5) will be shown. Follow the steps of. (S1) An embedding portion for embedding the steel beam 2 is provided in the steel plate block. Further, the surface steel plate 5 is provided with an opening 11 for inserting the steel beam 2 into the steel plate block and burying it in the embedding part. (S2) The embedded portion 15 on the tip side of the steel beam 2 is inserted into the embedded portion of the steel plate block through the opening 11. (S3) An operator enters the inside of the steel plate block and installs the backing plate 12 (only inside the steel plate block). (S4) The steel beam 2 is temporarily fixed to the surface steel plate 5 by welding the welded portion 14 on the front side of the surface steel plate 5 provided with the backing metal 12. After (S5), a steel plate block is installed locally, and then concrete is poured and filled into the steel plate block to form a steel plate concrete wall 1 made of a steel plate concrete block, and a steel beam is attached to the steel plate concrete wall 1. Fix 2

Next, the operation of the joining structure between the steel plate concrete wall 1 and the steel beam 2 according to the embodiment of the present invention, which is joined according to the joining method described above, will be described.

That is, the joining structure between the steel plate concrete wall 1 and the steel beam 2 joined according to the joining method of the steel plate concrete wall 1 and the steel beam 2 according to the embodiment of the present invention is an anchor required in the prior art. Both the bolt 4 and the fixing plate 3 are unnecessary, and the load of the steel frame beam 2 is directly transmitted to the steel plate concrete wall 1. Therefore, the bending rigidity of the steel plate concrete wall 1 itself can be used, and the rigidity of the joint between the steel plate concrete wall 1 and the steel beam 2 can be improved.

As described above, since the anchor bolt 4 is not used and the rigidity of the steel beam 2 is improved, as shown in FIG. The destruction of the steel plate concrete wall 1 does not occur.

At this time, the bending moment generated in the steel beam 2 is as shown in FIG. 3, and the deviation is improved as compared with the bending moment shown in FIG. For example, like steel plate concrete wall 1 applied to nuclear facilities,
In the case where the rigidity is sufficiently higher than the rigidity of the steel beam 2, a comparative example of the bending moment between the conventional technique and the embodiment of the present invention will be described with reference to FIG. Here, as an extreme example, assuming that the fixed state between the steel plate concrete wall 1 and the steel frame beam 2 in the conventional technique shown in FIG. 4B is a pin state, the steel frame beam 2 is fixed to the surface steel plate 5. Regarding the bending moment generated in each of the fixed portion, which is the existing portion, and the other portion, the prior art (FIG. 4B) and the embodiment of the present invention (FIG. 4C)
Are compared with.

That is, as shown in FIG. 4A, the steel beam 2 has a length L and has a constant distributed load w in the length L direction. When the left end of such a steel beam 2 is fixed to the surface steel plate 5 of the steel plate concrete wall 1 by the conventional joining method and the right end is fixed to the steel column 6 by welding, the bending moment distribution of the steel beam 2 is as shown in FIG.
As shown in (b). In this case, the bending moment M ₁ in the fixed portion is as shown in the following formula (1), and the bending moment M ₂ in the portion other than the fixed portion is the following (2).
Each is shown as the formula. ^{_{M 1 = (1/8) wL 2}} ··· (1) M 2 = (9/128) wL 2 ··· (2) On the other hand, the surface steel sheet such left the steel plate concrete wall 1 of the steel beam 2 5 is joined by the joining method according to the embodiment of the present invention, and the right end is welded and fixed to the steel column 6, the bending moment distribution of the steel beam 2 is as shown in FIG. 4 (c). In this case, the bending moment M ₁ ′ in the fixed portion is shown by the following equation (3), and the bending moment M ₂ ′ in the portion other than the fixed portion is shown by the following equation (4). M ₁ ′ = (1/12) wL ² (3) M ₂ ′ = (1/24) wL ² (4) Therefore, the book for bending moment of the steel beam 2 joined by the prior art is used. The bending moment ratio of the steel beam 2 joined by the joining method of the embodiment of the invention is
In the fixed portion and other portions, using the above equations (1) to (4), the following equation (5) and the following (6)
The formula is as follows.

M ₁ ′ / M ₁ = (1/12) / (1/8) = 2/3 (5) M ₂ ′ / M ₂ = (1/24) / (9/128) = 16/27 (6) As described above, according to the joining method according to the embodiment of the present invention, the bending moment can be reduced to about 70% as compared with the steel beam 2 joined by the conventional technique. Therefore, it is possible to improve the stability and reduce the quantity of the steel beam 2.

Further, the method of joining the steel plate concrete wall 1 and the steel beam 2 according to the embodiment of the present invention has a simplified process as compared with the joining method according to the prior art. That is, in the joining method according to the conventional technique, the work inside the steel plate concrete block is mainly performed, and the steps S13 to S18 of the above-described steps S11 to S18 are the work inside the steel plate concrete block.
It is difficult to work and involves many parts. On the other hand, in the joining method of the steel plate concrete wall 1 and the steel beam 2 according to the embodiment of the present invention, the work inside the steel plate concrete block is small, and the steps S1 to S described above are performed.
Of the steps up to 5, only step S3 is the work inside the steel plate concrete block. In addition, almost no parts are required for the work inside the steel plate concrete block.

As described above, the method of joining the steel plate concrete wall and the steel frame beam according to the embodiment of the present invention requires a small amount of work inside the steel plate concrete block and has a small number of parts due to the above-described action. Therefore, it becomes possible to improve workability.

Further, in the joint structure between the steel plate concrete wall and the steel beam joined by such a joining method, the load of the steel beam 2 is transmitted to the steel plate concrete wall 1 to utilize the bending rigidity of the steel plate concrete wall 1 itself. By,
The rigidity of the joint portion between the steel plate concrete wall 1 and the steel beam 2 can be improved. This makes it possible to improve the uneven distribution of the bending moment of the steel beam 2 fixed to the steel plate concrete wall 1 and enhance the stability.

The preferred embodiment of the present invention has been described above with reference to the accompanying drawings, but the present invention is not limited to such a configuration. Within the scope of the technical idea of the invention as claimed in the claims, those skilled in the art can come up with various modifications and modifications, and the modifications and modifications are also within the technical scope of the present invention. Be understood to belong to.

[0029]

As described above, according to the present invention,
The bending rigidity of the steel plate concrete wall itself can be utilized by embedding and fixing the steel beam in the steel plate concrete wall and transmitting the load of the steel beam to the steel plate concrete wall.

As described above, the rigidity of the joint between the steel plate concrete wall and the steel frame beam can be improved, and
A joining method and a joining structure between a steel plate concrete wall and a steel beam capable of enhancing the stability of the steel beam fixed to the steel plate concrete wall can be realized.

[Brief description of drawings]

FIG. 1 is a diagram for explaining a method for joining a steel plate concrete wall and a steel beam according to an embodiment of the present invention.

FIG. 2 is a front view showing an example of a joint structure between a steel plate concrete wall and a steel beam according to the same embodiment.

FIG. 3 is a diagram showing an example of a bending moment generated in a steel beam joined by the joining method according to the embodiment.

FIG. 4 is a diagram showing a comparative example of a bending moment generated in a steel frame beam joined by a conventional technique and a bending moment generated in a steel frame beam joined by a joining method according to an embodiment of the present invention.

FIG. 5 is a front view showing an example of a joint structure between a steel plate concrete wall and a steel beam according to a conventional technique.

FIG. 6 is a diagram showing an action distribution of force in a joint structure between a steel plate concrete wall and a steel beam according to a conventional technique.

FIG. 7 is a front view showing an example of a joint structure between a steel plate concrete wall and a steel beam in a state of being broken by pulling out an anchor bolt.

FIG. 8 is a diagram showing an example of a bending moment generated in a steel beam whose one end is fixed to a steel plate concrete wall and the other end is fixed to a steel column.

[Explanation of symbols]

1 ... Steel plate concrete wall 2 ... Steel beam 3 ... Fixing plate 4 ... Anchor bolt 5 ... Surface steel plate 6 ... Steel columns 7 ... Anchor bolt fixing nut 8 ... Anchorage 9 ... Anchorage fixing nut 10 ... Reinforcement material 11 ... Opening 12 ... back deposit 13 ... hole 14 ... Welded part 15 ... Embedded part

Continued front page    (72) Inventor Kazunori Akiyama             2-15-2 Konan, Minato-ku, Tokyo Co., Ltd.             Obayashi Tokyo Main Office (72) Inventor Akira Shimizu             2-15-2 Konan, Minato-ku, Tokyo Co., Ltd.             Obayashi Tokyo Main Office F-term (reference) 2E125 AA13 AA53 AB01 AC14 AE04                       AG03 AG32 AG57 BB02 BB16                       CA90 EA01

Claims (3)

[Claims] 1. A steel plate concrete wall is formed by inserting concrete after inserting a tip portion of a steel frame beam inside a steel plate block surrounded by a surface steel plate, and by the cast concrete. A method of joining a steel plate concrete wall and a steel beam, wherein the steel beam is fixed to the steel plate concrete wall. 2. An embedding portion for embedding a steel frame beam is provided inside a steel plate block surrounded by a surface steel sheet, while the steel frame beam is inserted into the surface steel plate to form an embedding portion in the embedding part. An opening for guiding is provided, and an embedded portion that is the tip side of the steel beam is inserted into the steel plate block from the opening and embedded in the embedded portion, and then concrete is embedded inside the steel plate block. A steel plate concrete wall is formed by casting, and the steel beam concrete wall is fixed to the steel plate concrete wall by the cast concrete. 3. An embedding part for embedding a steel beam is provided inside a steel plate block surrounded by a surface steel plate, and the steel beam is inserted into the surface steel plate to insert into the embedding part. An opening for guiding is provided, and an embedded portion which is a tip side of the steel beam is inserted into the steel plate block through the opening and embedded in the embedded portion, and then the embedded portion is embedded. Temporarily fixing to the steel plate block, and then forming a steel plate concrete wall by placing concrete inside the steel plate block, and fixing the steel beam to the steel plate concrete wall by the placed concrete. Characteristic joint structure of steel plate concrete wall and steel beam.