KR101356753B1 - Column structure having means for prevention of distortion - Google Patents

Abstract

The present invention relates to a column structure having a warping prevention means, specifically, in a column structure in which a steel column is inserted into an out casing and concrete is poured therein, the warping preventing means between the steel column and the out casing. Is configured, the warp preventing means is a pair of insert plate connected to the steel pillars via a connecting bar; And a rotating body formed at one end of the insert plate, such that when the outer casing is rotated, the steel column can rotate only the outer casing in a fixed state, thereby preventing distortion of the steel pillar. This enables precise construction while maintaining the rigidity of the steel column, thereby reducing construction costs and shortening the air, as well as securing the connection performance with the slab or beam, as well as the internal reinforcing cage or H- The present invention relates to a column structure having warpage preventing means for acting as a spacer (SPACER) between the beam and the structure cavity wall.

Description

COLUMN STRUCTURE HAVING MEANS FOR PREVENTION OF DISTORTION}

The present invention relates to a column structure having a warpage preventing means, and more particularly, to prevent the distortion of the steel column during rotation of the out casing for removing the out casing from the column structure is provided with a warp prevention means It relates to a column structure.

In general, a column structure is a structure in which steel pillars such as reinforcing bars or H-beams are inserted into an out casing, and concrete is poured therein, and is applied to pillars of various building structures or walls of underground structures.

Here, as an example in which the column structure is used, the use of the column structure through a top-down method among the construction methods of the underground structure is as follows.

First, as shown in FIG. 1, the steel frame 20 such as reinforcing bars or H-beams is inserted into the out casing 10, and the out of the column structure 100 in which concrete C is poured therein. The casing 10 is removed to build the retaining wall 200 (see FIG. 2).

Subsequently, the digging operation is performed, and as shown in FIG. 2, the concrete column C is partially broken to connect the steel frame 30 to the steel column 20 embedded in the earth wall 200. Exposed (20) and then attach a plurality of steel frame 30 to the side of the steel column (20).

In addition, after installing the steel frame (40) horizontally on the upper portion of the steel frame (30), the horizontal beam is installed on the lower portion of the steel frame 40, and the concrete is placed on the top of the horizontal beam to form a concrete slab Done. After that, while proceeding the additional trench is to build the underground structure by repeating the above process.

On the other hand, in the prior art as described above, when removing the out casing 10 in the columnar structure 100, the out casing 10 is rotated and separated.

However, when removing the outer casing 10 while rotating as in the prior art, the steel pillars 20, such as steel bars or H-beams embedded therein, are twisted corresponding to the rotational direction of the out casing 10, Due to this, not only the rigidity of the steel column 20 is weakened, but the connection position with the steel frame base 30 is distorted, making its construction difficult and increasing air.

The present invention is to solve the above-mentioned problems, by configuring a bearing between the steel column and the out casing, during the rotation of the out casing, the steel column can be rotated only the outer casing in a fixed state to prevent the twist of the steel column The object of the present invention is to provide a column structure with a warpage prevention means that can be prevented, thereby enabling precision construction to reduce construction costs and shorten the air.

In addition, the present invention provides a column structure having warpage preventing means for securing the connection performance with the slab or the beam and also serving as a spacer (SPACER) between the internal reinforcing cage or the H-beam and the structure cavity wall. Do another task.

The present invention provides a column structure in which a steel pillar is inserted into an out casing and concrete is poured therein, wherein the warp preventing means is configured between the steel pillar and the out casing. The solution is to solve the problem.

On the other hand, the distortion preventing means, a pair of insert plate connected to the steel pillars via a connecting bar; And a rotating body formed at one end of the insert plate.

In addition, the rotating body, which is formed on one end of the insert plate, the upper plate and the lower plate is connected by the side plate '구성된' or '⊃' shaped coupling plate configured; And a bearing coupled between the upper and lower plates of the coupling plate via the coupling shaft.

In addition, the coupling plate, it is preferable that the slit through which the coupling shaft can flow is formed in each of the upper plate and the lower plate.

The present invention by constructing a bearing between the steel column and the out casing, when rotating the out casing, the steel column is to be able to rotate only the outer casing in a fixed state to prevent the twist of the steel pillar, Precise construction is possible while maintaining the rigidity, which has the effect of reducing construction costs and reducing air.

In addition, it is possible not only to secure the connection performance with the slab or beam, but also to serve as a spacer (SPACER) between the internal reinforcing cage or the H-beam and the structure cavity wall.

1 and 2 are views for explaining a conventional column structure
3 is a perspective view of a column structure having warpage preventing means according to an embodiment of the present invention;
4 is a cross-sectional view of FIG.
5 is a perspective view of a column structure having warpage preventing means according to another embodiment of the present invention;

The above objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Figure 3 is a perspective view of a column structure with a distortion prevention means according to an embodiment of the present invention, Figure 4 is a cross-sectional view of Figure 1, Figure 5 is a column provided with a distortion prevention means according to another embodiment of the present invention A perspective view of the structure.

According to the present invention, in the column structure in which the steel pillars 52 are inserted into the out casing 51 and concrete C is poured therein, the warp preventing means is provided between the steel pillars 52 and the out casing 51. Characterized in that 50 is configured.

Looking specifically, the warp preventing means 50 is configured to include an insert plate 53 and a rotating body, as shown in Figures 3 and 4a, 4b.

The insert plate 53 is to be a base capable of supporting a rotating body to be described later, and is connected to the steel column 52 through a connecting bar 53a to be formed on one surface of the steel column 52. Although it may be, in order to increase the efficiency, as shown in Figure 4b, it is preferable that the pair is formed on both sides of the steel frame (52).

On the other hand, the insert plate 53 is accompanied by a function of indicating the position to be joined to the steel frame 30.

The rotating body is formed at one end of the insert plate, and when the out casing 51 is rotated in contact with the out casing 51, the steel column 52 can rotate only the out casing 51 in a fixed state. As a means to ensure, it comprises a coupling plate 54 and the bearing (B).

The coupling plate 54 may be manufactured in various forms to accommodate the bearing (B) to be described later to be rotatably supported. In the present invention, as shown in FIG. 4A, the upper plate 54a ) And the lower plate 54b is connected by the side plate 54c.

On the other hand, the bearing (B) is coupled between the plate 54a and the bottom plate 54b of the coupling plate 54 via the coupling shaft (S), as shown in Figure 4a and 4b, out At the time of rotation for removing the casing 51, the out casing 51 is rotated in contact with the bearing B of the rotating body.

At this time, as shown in Figure 4b, the plate 54a and the lower plate 54b of the coupling plate 54, a slit 54d is formed so that the coupling shaft S in the horizontal direction (steel column 52) And the out casing 51), thereby efficiently responding to the rotation and flow of the out casing 51.

On the other hand, the steel column 52 as well as the H-beam, as shown in Figure 5, may be a reinforcement, in addition to the usual column structure, such as a circular steel pipe, square steel, square rebar network structure, prefabricated square steel It can be in various forms.

The present invention is not limited to the above-described embodiments and the accompanying drawings, and various changes, modifications and variations may be made without departing from the scope of the present invention. Will be apparent to those of ordinary skill in the art.

50: warping prevention means 51: out casing
52: steel column 53: insert plate
53a: connecting bar 54: coupling plate
54a: top plate 54b: bottom plate
54c: side plate 54d: slit
B: Bearing S: Coupling Shaft
C: concrete

Claims (4)

In a column structure in which steel pillars are inserted in an outer casing and concrete is poured therein,
Between the steel pillars and the out casing is configured to prevent distortion,
The distortion preventing means,
A pair of insert plates connected to the steel column via a connecting bar; And
Rotating body is formed on one end of the insert plate; Column structure with warp preventing means characterized in that it comprises a
delete The method of claim 1,
The rotating body includes:
A coupling plate formed on one end of the insert plate and having an upper surface plate and a lower plate connected by side plates to form a '결합' or '⊃'type; And
A column structure having warpage preventing means, comprising: a bearing coupled between the upper plate and the lower plate of the coupling plate via a coupling shaft.
The method of claim 3, wherein
The coupling plate,
A column structure having warpage preventing means, characterized in that the slit through which the coupling shaft can flow is formed on each of the upper and lower plates.

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