JP2544851Y2 - Composite structural members - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite structural member of a large building, and more particularly to a steel pipe concrete structure used as a column, a beam or the like.

[0002]

2. Description of the Related Art A steel pipe concrete structure, which is a composite structural member in which a concrete pillar is covered with a steel pipe pillar, is known from Japanese Patent Application Laid-Open No. 62-153438.

[0003] This composite structural member is formed by filling concrete into the hollow inside of a cylindrical steel pipe, and the concrete loads a vertical load (axial force) on the other hand. Is to be borne.

[0004] Such a steel pipe concrete structure is excellent in bending deformation ability, particularly in toughness when repeatedly bent in positive and negative directions. The reason is considered to be based on a synergistic effect that since the inside of the closed section of the steel pipe is filled with the filled concrete, local buckling of the steel pipe is restrained by the concrete, and the concrete is restrained by the steel pipe.

[0005]

However, when the above-mentioned columns and beams are used, for example, as inner pillars in a skyscraper, the inner pillars need to have a very large bending strength. Therefore, a steel pipe having a very large wall thickness and a large diameter must be used.

However, when the diameter of the steel pipe is increased, it is not possible to reduce the cross-sectional dimension of the column, which is an advantage of the steel pipe concrete structure, and this hinders effective use of space. In such a case, to secure the required bending strength,
Although it is conceivable to reduce the diameter by embedding a reinforcing bar in the concrete filled in the steel pipe and reinforcing it, there is a problem that the manufacturing process is complicated, such as installing a form for embedding the reinforcing bar.

The present invention has been made in view of such circumstances, and an object of the present invention is to provide a composite structural member capable of withstanding a larger tensile force despite its small diameter cross-sectional dimension.

[0008]

The present invention has the following configuration to achieve the above object. That is, the webs 2a and 2b are curved at a fixed curvature, and the flange plates 3a and 3b are flat plates and are formed thicker than the webs 2a and 2b.
a, 2b and flange plates 3a, 3b are arranged so as to face each other, and are formed of an outer shell 1 formed by joining them, and a concrete 4 filled inside the outer shell 1.

[0009]

Since the outer shell 1 is used in combination with the arc-shaped webs 2a and 2b and the flat flange plates 3a and 3b which are formed to be thicker than the webs 2a and 2b, the reinforcing shell is used. Even without using a reinforcing bar or the like, the bending strength is strengthened, and the outer surfaces of the flange plates 3a and 3b become flat, so that the diameter of the outer shell 1 is reduced.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a longitudinal sectional view of the composite structural member of the present invention,
FIG. 2 is a perspective view thereof. The composite structural member of this embodiment is a steel pipe concrete structure in which a high-strength concrete is filled in an outer shell 1 made of a steel pipe.

The outer shell 1 has arc-shaped webs 2a and 2b curved at a constant curvature and opposed to each other with a concave portion on the inside. On the other hand, the outer shell 2 is a flat plate and is formed to be thicker than the web. Are also disposed so as to face each other.

The webs 2a and 2b and the flange plate 3
a and 3b are arranged to face each other. And these webs 2a, 2b and the flange plate 3
In a and 3b, ends in the longitudinal direction are joined to each other by welding to form a cylindrical outer shell 1.

When the outer shell 1 is formed as described above, filling concrete is filled into the outer shell 1. In the present embodiment, a steel pipe concrete structure is first made of a steel pipe in a factory, and the outer shell 1 is manufactured, transported to the site, and filled with the high-strength concrete 4 inside the outer shell 1 at the time of construction. Things.

[0014] The steel pipe concrete structure thus formed is used as a pillar or a beam of a building. The deformation performance of the concrete is improved by using the flange plates 3a and 3b. Since it has a large resistance moment, it has excellent seismic resistance.

[0015]

As described above, the present invention comprises arc-shaped webs 2a, 2b and flange plates 3a, 3b formed thicker than the webs 2a, 2b. Since the outer shell 1 is formed by arranging the flange plates 3a and 3b so as to face each other and joining them, the reinforcement against bending strength can be enhanced without using a reinforcing steel bar or the like embedded in the concrete. The outer diameter is reduced because the flange plate is flattened.

Therefore, when the steel pipe concrete structure is used as a column, a beam or the like, there is an effect that the space at the place where the steel pipe concrete structure is installed can be effectively used.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of the composite structural member of the present invention.

FIG. 2 is a perspective view thereof.

[Explanation of symbols]

 1 outer shell 2a, 2b web 3a, 3b flange plate 4 concrete

Claims (1)

(57) [Scope of request for utility model registration] 1. An arc-shaped web (2a, 2b) curved at a constant curvature, and a flat plate-shaped web (2a, 2b).
b), the webs (2a, 2b) and the flange plates (3a, 3b) are arranged so as to face each other, and these are joined. Outer shell (1)
And a concrete (4) filled in the outer shell (1).