JP2003090096A - Joint structure of steel pipe column and flat slab and joining method - Google Patents

Abstract

(57) [Summary] [Problem] To ensure sufficient strength of the joint by minimum processing on the steel pipe column main body at the connection part, and to install the drop panel easily and accurately, and to make the drop panel and post-cast An object of the present invention is to provide a flat slab joining structure and a joining method thereof that can sufficiently ensure the integrity with concrete. SOLUTION: The joint structure between the steel pipe column and the flat slab is as follows:
The drop panel 4 is installed at the joint between the steel pipe column main body 3 and the flat slab 6, and the connecting member 2 projecting from the opening 7 of the drop panel 4 is joined to the gusset plate 10 of the steel pipe column main body 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a joining structure of a steel pipe column and a flat slab and a joining method thereof.

[0002]

2. Description of the Related Art FIG. 5 shows a conventional example of a joint structure of a steel pipe column and a flat slab. This joint structure 14
Supports a drop panel 17 made of precast concrete with a receiving material 16 on the lower surface of the flat slab 15. Further, the long-term vertical load transmission of the flat slab 15 is performed by the plurality of ribs 19 provided on the steel pipe column main body 18.
In addition, drop panels made of precast concrete 17
The rib 19 is also provided on the drop panel 17 side in consideration of the stress transmission between the steel pipe column main body 18 and the steel pipe column main body 18.

[0003]

However, the joint structure of the steel pipe column and the flat slab as described above has the following problems. (1) Since the steel pipe column main body and the drop panel are not joined, it is difficult and accurate to fix the drop panel accurately. (2) When the drop panel is dropped from above the steel pipe column main body, the receiving material becomes an obstacle. (3) Since the erection piece for joining the steel pipe column main bodies is an obstacle, the opening of the drop panel has to be made large. (4) It is necessary to separately provide a member that transmits the stress between the drop panel and the post-cast concrete.

The present invention has been made in view of the above problems, and an object of the present invention is to sufficiently secure the proof stress of the joint portion with a minimum processing of the steel pipe column main body at the joint portion, and to drop the joint portion. It is an object of the present invention to provide a flat slab joining structure and a joining method thereof, in which the panel can be easily and accurately attached and the integrity of the drop panel and the post-cast concrete can be sufficiently secured.

[0005]

[Means for Solving the Problems] The joining structure of a steel pipe column and a flat slab, which is a means for achieving the above-mentioned problems,
It is characterized in that a drop panel is installed at a joint between the steel pipe column main body and the flat slab, and a connecting material protruding from the opening of the drop panel is joined to a gusset plate of the steel pipe column main body. The invention according to claim 2 is the shaped steel material according to claim 1, which is provided with a flange at least on the lower side, wherein the flange on the tip end side is cut out. In addition, the method of joining the steel pipe column and the flat slab is as follows: after inserting the steel pipe column body into the opening and dropping the drop panel, the connecting material protruding into the opening is joined to the gusset plate of the steel pipe column body, It is characterized by forming a slab formwork that closes the side and pouring slab concrete.

Since the connecting material is embedded in concrete and joined to the steel pipe column main body, the integrity of the steel pipe column main body and the flat slab is enhanced, and the rigidity and yield strength of the joint portion are enhanced. It is economical because the connecting member can be shortened. Since the flange on the tip side is notched, the drop panel can be dropped smoothly.
The drop panel can be attached easily and accurately, and work safety can be secured. Since the connecting material prevents the drop panel and the post-cast concrete from slipping off and prevents them from opening, sufficient stress transmission between them can be ensured.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a joining structure for a steel pipe column and a flat slab and a joining method thereof according to the present invention will be described below. First, an embodiment of a joint structure of a steel tube column and a flat slab (hereinafter simply referred to as a flat slab joint structure) will be described, and thereafter, a method of joining a steel tube column and a flat slab (hereinafter simply referred to as a flat slab joining method) will be performed. The form will be described. In each of these embodiments, the same configurations will be described with the same reference numerals, and different configurations will be described with different reference numerals.

1 to 3 show a flat slab joining structure 1 according to the first embodiment, in which a post-cast concrete is placed on a drop panel 4 joined to a steel pipe column main body 3 by a connecting member 2. 5 is cast and the flat slab 6 is constructed. The drop panel 4 is made of precast concrete and has a tip 9 projecting into the opening 7 into which the H-shaped steel (or I-shaped steel) 8 as the connecting material 2 is embedded, and the upper and lower flanges are notched. 9 is joined to the gusset plate 10 of the steel pipe column main body 3 with bolts 11.
Further, the post-cast concrete 5 in the opening 7 is reinforced by the reinforcing bars 12 protruding from the inner surface. Therefore, the long-term vertical load of the flat slab 6 is transmitted to the steel pipe column main body 3 by the connecting member 2. In addition to the H-shaped steel (or I-shaped steel), the connecting member 2 may be a shaped steel material having a flange at least on the lower side.

FIG. 4 shows a flat slab joining structure 13 of the second embodiment, which is the joining of the flat slab of the first embodiment except that the steel pipe column main body 3 has a plane circular shape. It has the same configuration as the structure 1 and has the same effect.

Next, a method of joining flat slabs will be described. First, the drop panel 4 made of precast concrete is dropped into the steel pipe column main body 3 erected on the foundation. This dropping is performed by inserting the steel pipe column main body 3 into the opening 7 of the drop panel lifted by the crane.
Since the opening 7 is larger than the steel pipe column main body 3, the drop panel 4 does not get caught on the gusset plate 10. Further, since the upper and lower flanges at the tip of the connecting member are also cut out, the drop panel 4 can be dropped without being caught by the gusset plate 10. next,
The tip portion 9 of the H-shaped steel 8 is joined to the gusset plate 10 of the steel pipe column main body 3 with the bolt 11 to install the drop panel 4.

Next, a slab form (not shown) is formed to close the opening 7, and the concrete 5 is placed in the form.
To place. Then, after the concrete 5 is hardened, the formwork is disassembled to construct a flat slab 6 having the drop panel 4. The flat slab 6 is joined by the same method even when the steel pipe column main body 3 has a plane circular shape.

[0012]

Since the connecting material is embedded in concrete and joined to the steel pipe column main body, the integrity of the steel pipe column main body and the flat slab is enhanced, and the rigidity and yield strength of the joint portion are enhanced.

With the minimum processing of the steel pipe column main body at the joint portion, the proof stress of the joint portion can be sufficiently secured.

It is economical because the connecting member can be shortened.

Since the flange on the tip end side is cut out, the drop panel can be smoothly dropped.

It is possible to easily and accurately attach the drop panel and to secure work safety.

Since the connecting material prevents the drop panel and the post-cast concrete from slipping off and prevents them from opening, sufficient stress transmission between them can be ensured.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a flat slab joining structure according to a first embodiment.

FIG. 2 is a plan view in which a drop panel is joined to a steel pipe column main body.

FIG. 3 is a perspective view of a flat slab joining structure according to the first embodiment.

FIG. 4 is a perspective view of a flat slab joining structure according to a second embodiment.

5A is a sectional view of a conventional flat slab joining structure, and FIG. 5B is a sectional view of the joining method.

[Explanation of symbols]

1, 13, 14 Flat slab joint structure 2 connecting material 3,18 Steel tube column body 4,17 drop panel 5 Post-cast concrete 6,15 flat slab 7 openings 8 H section steel 9 Tip 10 gusset plate 11 Volts 12 rebar 16 Receiving material 19 ribs

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Yasuhiro Oda             Tochigi Prefecture Nasu-gun Nishinasuno-cho 4 Ward-cho 1534-1             Goyo Construction Co., Ltd. Technical Research Center (72) Inventor Masaki Takiguchi             Tochigi Prefecture Nasu-gun Nishinasuno-cho 4 Ward-cho 1534-1             Goyo Construction Co., Ltd. Technical Research Center (72) Inventor Koichiro Miyara             Tochigi Prefecture Nasu-gun Nishinasuno-cho 4 Ward-cho 1534-1             Goyo Construction Co., Ltd. Technical Research Center

Claims (3)

[Claims] 1. A drop panel is installed at a joint between a steel pipe column main body and a flat slab, and a connecting material protruding from an opening of the drop panel is joined to a gusset plate of the steel pipe column main body. Joint structure of steel pipe columns and flat slabs. 2. The method for joining a steel pipe column and a flat slab according to claim 1, wherein the connecting material is a shaped steel material having a flange at least on the lower side, and the flange on the tip end side is notched. . 3. A slab formwork that inserts a steel pipe column main body into the opening, drops the drop panel, and then joins a connecting material protruding into the opening to a gusset plate of the steel pipe column main body to close the lower side of the opening. A method of joining a steel pipe column and a flat slab, which comprises forming a slab and placing slab concrete.