KR101593563B1 - Column Structure using Precast Concrete Hollow Column, and Constructing Method for such Column Structure - Google Patents

Abstract

The present invention relates to a method of constructing a column structure 1 integrated with a lower structure 400 by vertically mounting a precast concrete hollow column 100 on the upper surface of a lower structure 400.
In the construction method of the present invention, the precast concrete hollow column 100 is formed so that the outer side front end groove 130 is formed on the outer peripheral surface of the lower end portion thereof, the supporting expansion groove 430 is formed on the upper surface of the lower structure 400, The precast concrete hollow column 100 is vertically installed so that the lower outer end shear groove 130 is received in the support expanding groove 430 and the filler C3 is placed in the support enlarging groove 430, The column 100 and the lower structure 400 are integrated and the column C2 is installed in the hollow of the precast concrete hollow column 100 to construct the column structure.

Description

TECHNICAL FIELD The present invention relates to a method of constructing a column structure using a precast concrete hollow column and a column structure using the precast concrete column,

The present invention relates to a method of constructing a column structure using a precast concrete hollow column having a hollow formed thereon, and a structure to be constructed by integrally joining the column structure with the upper and lower structures.

A technique for constructing a pillar structure such as a pier by placing concrete in a hollow interior of a pre-fabricated precast concrete hollow column similar to a CFT (Concrete Filled Steel Tube) column is disclosed in Korean Patent No. 10-0999020 .

1 is a schematic cross-sectional view showing a state in which a column C1 is installed in a hollow interior of a precast concrete hollow column 100 according to the prior art (hereinafter, abbreviated as "precast hollow column"). The columnar structure shown in FIG. 1 (a) is a case in which the hollow inner surface of the precast hollow column is a simple plane, and the columnar structure shown in FIG. 1 (b) And an inner shear groove is formed on the hollow inner surface.

The column structure is constructed by filling the concrete in the hollow of the precast hollow column 100 in such a manner that the upper structure and the lower structure are respectively provided with an upper structure (for example, an upper slab) and a lower structure 400 For example, a lower slab or foundation structure). Therefore, it is very important to integrate the upper and lower structure with the column structure in constructing the column structure.

However, when the precast hollow column 100 is simply placed on the upper surface of the lower structure 400 in the state where the lower structure 400 is present as shown in FIG. 1, no unattached portion is formed between the lower structure 400 and the precast hollow column 100 The surface is present, which makes solid integration difficult. Although not shown in the drawing, even when the upper structure is simply formed on the precast hollow column 100, there is a non-adhered surface between the precast hollow column 100 and the upper structure, .

Korean Registered Patent Publication No. 10-999020 (2010. 12. 09. Announcement).

The present invention has been developed in order to overcome the limitations and problems of the prior art, and it is an object of the present invention to provide a method of constructing a post structure using precast hollow pillars, in which the upper and lower structures and the post structures are firmly integrated And to provide the above-mentioned objects.

According to an aspect of the present invention, there is provided a method of integrating a column structure formed by filling concrete in a hollow interior of a precast hollow column vertically on an upper surface of a lower structure and integrating the column structure with a lower structure. The outer shear grooves are formed on the outer peripheral surface of the lower end portion when the precast hollow column is manufactured; Forming a support extension groove on the upper surface of the substructure; When the precast hollow column is vertically installed on the upper surface of the lower structure, the outer shear grooves of the precast hollow column are received in the support enlargement grooves of the lower structure; In the state where the pre-cast hollow column is installed upright, the filled concrete is cured by being poured into the supporting expansion groove to integrate the lower end portion of the pre-cast hollow column with the lower structure; And a post structure is constructed by placing concrete in the hollow of the pre-cast hollow column. A method of constructing a post structure using a precast hollow column is provided.

Also, in the present invention, a pillar structure constructed by such a construction method is provided.

According to the present invention as described above, the reinforced concrete embedded in the lower structure is extended to the upper part, and concrete is poured into the hollow of the precast hollow column in a state where the connecting reinforcing bars are positioned in the hollow of the precast hollow column, The column can be made integral.

Further, in the present invention, the precast hollow column is formed so that the outer shear grooves are formed on the outer circumferential surface of the upper end of the precast hollow column; The upper structure of the precast hollow column is constructed such that the concrete is placed in the hollow structure of the precast hollow column so that the outer shear grooves can be embedded in the upper structure, The upper structure is formed, and the column structure can be constructed in a state where the upper structure is firmly integrated with the upper structure. In particular, in this case, at the upper end of the precast hollow column, a reinforcing bar assembly extending so as to be exposed to the outside of the upper part of the precast hollow column is disposed in the hollow; When the concrete is laid to form the upper structure, the extended portion of the steel assembly is embedded in the concrete of the upper structure, so that the upper structure and the precast hollow column can be more firmly integrated.

According to the present invention, when the column structure using the precast concrete hollow column is installed between the upper and lower structures, the upper and lower structures and the column structure can be structurally firmly integrated.

1 is a schematic cross-sectional view of a post structure constructed using a precast hollow column according to the prior art.
FIG. 2 is a schematic half cross-sectional perspective view showing a column structure constructed in a state integrated with a substructure according to the present invention. FIG.
FIG. 3 is a schematic half cross-sectional perspective view showing sequentially the upper structure is integrally installed on the upper part of the post structure following the state of FIG. 2. FIG.
Fig. 4 is a schematic cross-sectional view of the state of Fig. 3 (b).
FIG. 5 is a schematic half cross-sectional perspective view showing a column structure integrally formed with a lower structure using a precast concrete hollow column in which a reinforcing bar net is laid. FIG.
FIG. 6 is a schematic half cross-sectional perspective view showing sequentially the upper structure is integrally installed on the upper part of the column structure following the state of FIG. 5;
7 is a schematic half cross-sectional perspective view of a precast concrete hollow column in which a hollow is formed only on one side.
8 is a schematic half cross-sectional perspective view showing a structure in which a column structure using a precast concrete hollow column shown in FIG. 7 is integrated with an upper structure.
9 is a schematic exploded perspective view and an assembled perspective view of an inner formwork for manufacturing a precast concrete hollow column in which an inner shear groove is formed on a hollow inner surface according to the present invention.
Figure 10 is a schematic cross-sectional and longitudinal cross-sectional view of the inner mold shown in Figure 9;
11 is a schematic exploded perspective view showing a state in which an inner mold is disposed inside an outer mold to form a precast concrete hollow column having an inner shear groove formed on a hollow inner surface according to the present invention.
12 is a schematic assembled perspective view and schematic longitudinal cross-sectional view of a state following the state shown in Fig.
FIG. 13 is a schematic lateral cross-sectional perspective view and a longitudinal sectional view of the state after the concrete is placed in the spacing space following the state shown in FIG. 12. FIG.
FIG. 14 is a schematic perspective view and a cross-sectional view showing a process of demolding an outer mold and removing an inner mold to produce a precast concrete hollow column having an inner shear groove formed in the hollow inner surface according to the present invention.
Fig. 15 is a schematic perspective view, a cross-sectional half-sectional perspective view and a cross-sectional view showing a state in which the second inner formwork member is removed following the state of Fig.
16 is a schematic perspective view and a transverse half cross-sectional perspective view of a precast concrete hollow column which is manufactured by the method of Figs. 9 to 15 and in which an inner front end groove is formed in the hollow inner surface.
17 is a schematic view showing a state in which an inner mold and an inner reinforcing steel assembly are disposed inside an outer mold and a state after the inner mold and an inner reinforcing steel assembly are disposed in order to manufacture a precast concrete hollow column having a hollow formed only on one longitudinal side thereof according to the present invention; An exploded perspective view and an assembled perspective view.
FIG. 18 is a schematic lateral cross-sectional view showing a process of removing an inner formwork when the precast concrete hollow column shown in FIG. 17 is manufactured.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification. BRIEF DESCRIPTION OF THE DRAWINGS In the context of this disclosure, when a component is referred to as comprising an element, it is to be understood that it may include other elements, do.

As shown in FIG. 1 (b), the precast hollow column 100 in which the inner front end grooves 101 are formed on the inner surface of the hollow is shown in FIG. 1 (a) Which is structurally more advantageous than the cast hollow column 100. Since the precast hollow column 100 shown in FIG. 1 (b) has a concave inner front end groove 101 formed in the hollow inner surface, the concrete C1 and the precast hollow column 100, which are filled in the hollow, The shear strength of the inner front end groove 101 is exerted at the same time, so that even if an external horizontal load is applied, integration between the two members can be firmly maintained.

For this reason, the present invention will be described below by exemplifying the use of the precast hollow column 100 in which the inner front end groove 101 shown in FIG. 1 (b) is formed. However, the present invention is not limited thereto, It is also applicable to constructing a post structure using the precast hollow column 100 of the type shown in FIG. 1 (a).

FIGS. 2 to 4 illustrate the construction of the post structure using the precast hollow column 100, and the construction of the column structure 1 in a state integrated with the lower structure 400 according to the first embodiment of the present invention 2 is a schematic half cross-sectional perspective view showing a column structure 1 in a state in which the column structure 1 is integrated with the lower structure 400. FIG. 3 (a) 1 is a schematic half cross-sectional perspective view showing a state where an upper reinforcing bar 510 and an upper mold 511 are installed on the upper part of the upper structure for constructing the upper structure. FIG. 3 (b) Sectional view showing a state in which the upper structure 500 is integrally installed with the pillar structure 1 by the pouring of concrete. Fig. 4 is a schematic cross-sectional view of the state of Fig. 3 (b).

 The precast hollow column 100 used for constructing the column structure 1 in a state integrated with the lower structure 400 according to the construction method of the present invention has an outer shear groove 130 on the outer peripheral surface of the lower end portion as shown in the figure, Respectively. When the columnar structure 1 is integrated with the upper structure, the precast hollow column 100 is formed so that the outer shear grooves 130 are formed on the outer circumferential surface of the upper end of the precast hollow column 100 as shown in the figure.

The manufactured precast hollow column 100 is installed on the lower structure 400 to construct the column structure 1 so as to be integrated with the lower structure 400. The lower structure 400 and the precast hollow column 100, In the present invention, as shown in FIGS. 2 to 4, on the upper surface of the lower structure 400 on which the precast hollow column 100 is to be placed, Out or the like to form a support extension groove 430 having a certain depth. That is, concave support extension grooves 430 having a larger diameter than the outer diameter of the precast hollow column 100 are formed on the upper surface of the lower structure 400. At this time, as shown in the drawing, it is preferable to form a concave-convex portion on the vertical vertical surface of the support expansion groove 430. As described below, the filler C3 such as non-shrinkable mortar, shrinkage concrete, or the like is installed in the support extension groove 430. When the concave / convex portion is formed on the edge vertical surface of the support extension groove 430 as described above, The effect of solidifying the structure 400 is further enhanced.

And the outer shear grooves 130 formed in the lower end portion of the precast hollow column 100 are positioned in the support expanding grooves 430 in the state where the support expanding grooves 430 are formed on the upper surface of the lower structure 400, The filling member C3 is cured in the supporting extension groove 430 and is cured. With such a configuration, the lower structure 400 and the precast hollow column 100 are integrated in a form in which the occurrence of unattached surfaces is prevented.

The concrete C2 is poured and filled in the hollow of the precast hollow column 100 in a state where the precast hollow column 100 is vertically installed on the upper surface of the lower structure 400, The column structure 1 is constructed. As shown in the figure, when using the pre-cast hollow column 100 having a hollow over its entire length, the reinforcing bar assembly 8 can be disposed in the hollow with respect to the entire height of the precast hollow column 100 . The reinforcing bars 410 embedded in the lower structure 400 are extended to the support extension grooves 430 before the precast hollow pillars 100 are mounted on the upper surface of the lower structure 400, I make it. Accordingly, when the lower end of the precast hollow column 100 is vertically installed to be positioned in the support expansion groove 430, the connection reinforcing bar 410 extends to the hollow interior of the precast hollow column 100, and the precast hollow column 100 And the reinforcing bar assembly 8 is placed in the hollow of the precast hollow column 100 in a state where the reinforcing bar assembly 8 is connected to the lower end of the reinforcing bar assembly 8 disposed in the hollow of the pre- So that the columnar structure 1 is structured so as to be more firmly integrated with the lower structural body 400.

In order to integrate the post structure 1 and the upper structure 500 in disposing the reinforcing bar assembly 8 in the hollow of the precast hollow column 100, 8 is further extended so as to be exposed to the outside of the upper part of the precast hollow column 100.

The upper structure 500 is installed on the precast hollow column 100 so that the upper structure 500 and the column structure 1 are united with each other. Similarly to the case of the lower structure, The outer shear groove 130 is also formed on the outer circumferential surface. That is, the precast hollow column 100 is formed such that the outer shear grooves 130 are formed on the outer circumferential surface of the upper end thereof.

Therefore, when the upper structure 500 is installed on the precast hollow column 100, the upper mold 511 is installed at a position where the outer front end groove 130 of the upper end can be embedded in the upper structure 500 The concrete is filled in the hollow of the precast hollow column 100 and the upper structure 500 is formed so that the precast hollow column 100 is filled with concrete, A columnar structure 1 in which the upper structure 500 is integrally formed is constructed.

The upper structure 500 can be constructed by placing the concrete in a state where the upper end of the reinforcing bar assembly 8 extending to the outside of the upper side of the precast hollow column 100 is coupled with the upper reinforcing bar 510 have. In this case, the column structure constructed by the precast hollow column 100 and the upper structure 500 are more firmly integrated.

On the other hand, reinforced reinforcing net 9 may be present in the interior of precast hollow column 100. When the reinforced concrete reinforcing net 9 is reinforced by being laid on the precast hollow column 100 itself, it is possible to omit the arrangement of the reinforcing steel assembly 8 when the pillar structure 1 is constructed using the reinforced reinforcing net 9 have. 5 is a schematic half cross-sectional perspective view showing that the column structure 1 is integrally formed with the lower structure 400 by using the precast hollow column 100 in which the reinforcing steel net 9 is laid. 6A is a schematic view showing a state in which the upper reinforcing bar 510 and the upper mold 511 are installed on the top of the pillar structure 1 for the construction of the upper structure 500 following the state of FIG. And FIG. 6 (b) is a schematic sectional view showing the state in which the upper structure 500 is integrally formed with the column structure 1 by the concrete pouring following the FIG. 6 (a) Is shown in Fig.

In the embodiment shown in Figs. 5 and 6, unlike the case of Figs. 2 to 4, since the reinforcing steel reinforcing net 9 is already disposed in the body of the precast hollow column 100, The reinforcing bar assembly 8 is not disposed in the hollow interior of the precast hollow column 10. In this case as well, the connection reinforcing bars 410 embedded in the lower structure 400 may be extended to the hollow interior of the precast hollow column 100 to be embedded in the concrete C2 filled in the hollow. In addition, an additional upper connection reinforcing bar 81 may be disposed on the upper portion of the precast hollow column 100 so as to be further bound to the upper reinforcing bars of the upper structure or to be embedded in the concrete of the upper structure. At this time, the lower part of the additional upper connection reinforcing bar 81 extends into the hollow interior of the precast hollow column 100 and is embedded in the concrete C2, and the upper part of the connecting reinforcing bar 81 is connected to the upper part of the precast hollow column 100 And is exposed to the outside.

5 and 6, the outer shear grooves 130 and the support expanding grooves 430 and the filler C3 inserted in the support expanding grooves 430, as shown in FIGS. 2 to 4, The present invention can be applied to a structure in which the lower structure 400 and the precast hollow column 100 are integrated so as not to cause non-adhered portions by using the pre-cast hollow column 100. Further, for the integration of the upper structure, The outer shear grooves 130 are formed and binding between the upper connection reinforcing bars 81 and the upper reinforcing bars 510 can be applied.

The precast hollow column 100 used for constructing the pillar structure 1 of the present invention may be formed such that the hollow is formed over the entire longitudinal length of the precast hollow column 100 as described above, It may be formed only in a part thereof. FIG. 7 is a schematic half cross-sectional perspective view of the precast hollow column 100 in which the hollow is formed only on one side.

8 is a schematic half cross-sectional perspective view showing a structure in which the post structure 1 using the pre-cast hollow column 100 having the hollow at one side only is integrated with the upper structure 500. As shown in FIG. The structure in which the precast hollow pillars 100 formed only on one side of the hollow are vertically erected and integrated with the lower structure 400 are the same as those described above, and thus the repeated description will be omitted.

8, the precast hollow column 100 is installed on the lower structure 400 so that the hollow portion is the upper portion, and then the reinforcing bar assembly 8 is disposed in the hollow. As shown in the drawing, When the end of the cast iron root of the internal rebar assembly 5 embedded in the hollow column 100 protrudes into the cavity, the projected cast iron root end is buried in the concrete filled in the cavity of the precast hollow column 100 do. And the reinforcing bar assembly 8 is inserted into the hollow of the precast hollow column 100 so that the upper end of the reinforcing bar assembly 8 is further extended to the upper portion of the precast hollow column 100 to be buried in the upper structure 500 can do. Since the concrete for forming the upper structure 500 is also filled in the hollow of the precast hollow column 100, the precast hollow column 100 and the upper structure 500 are structurally tightly integrated with each other through the above- The pillar structure 1 is constructed.

Meanwhile, in the construction of the column structure according to the present invention, the precast hollow column 100 can be manufactured by the following method.

9 and 10 show the inner mold 10 used to make the precast hollow column 100 shown in FIG. 1 (b), wherein FIG. 9 (a) shows the inner mold 10, 9B is an exploded perspective view showing a state in which the first inner molding member 11 and the second inner molding member 12 constituting the inner molding member 11 and the second inner molding member 12 are not yet assembled. 2 is an assembled perspective view showing a state in which the inner mold member 12 is assembled. 10 (a) is a schematic cross-sectional view taken along the line AA shown in Fig. 9 (b), and Fig. 10 (b) 10 (c) shows the position of the line CC shown in FIG. 9 (b), that is, the front end There is shown a schematic longitudinal cross-sectional view of the inner mold 10 at a location where the protrusions 120 are not formed.

In order to manufacture the precast hollow column 100 having the inner front end grooves 101 formed on the inner surface of the hollow, the inner mold 10 having the structure shown in FIGS. 9 and 10 can be used. A first inner molding member 11 made of a hollow tube and an outer surface of the first inner molding member 11 for forming an inner front end groove 101 on a hollow inner surface of the precast hollow column 100, And a second inner mold member 12 which is covered with a second inner mold member 12. The first inner mold member 11 is made of a rigid material, such as a steel pipe or an FRP pipe, which is a member made of a hollow tube extending in the longitudinal direction and capable of maintaining the shape of the second inner mold member 12. [ The second inner molding member 12 is a member covered on the outer surface of the first inner molding member 11, and ring-shaped shearing projections 120 are formed on the outer surface of the first inner molding member 12 in the longitudinal direction. The inner shear grooves 101 are formed on the inner surface of the precast hollow column 100 by the shear protrusions 120 when the precast hollow column 100 is manufactured by placing concrete on the outer surface of the inner mold 10, .

The concrete poured outside the inner mold 10 for the production of the precast hollow column 100 is dried and shrunk during the curing process and the compressive force acts in the radial direction of the inner mold 10. The second inner mold member 12 should be able to accommodate this compressive force and should be easily separated from the inner surface of the precast hollow column 100 after the concrete forming the precast hollow column 100 is cured. Accordingly, the second inner molding member 12 is made of a material that can be deformed, such as rubber, synthetic resin, or the like.

In order to manufacture the precast hollow column 100 by using the inner mold 10, the outer mold 20 is also essentially used. The outer mold 20 is made of a hollow tubular member having an inner diameter larger than the diameter of the inner mold 10 and extending in the longitudinal direction and the inner mold 10 is fixed to the outer mold 20 in the inner space of the outer mold 20, And is spaced apart from the inner surface of the mold 20. 11 to 13 show a configuration in which an inner mold 10 is disposed in an outer mold 20, and FIG. 11 is a schematic view showing a state in which an inner mold 10 is disposed inside the outer mold 20 12A is a schematic perspective view showing a state in which the assembly of the outer formwork 20 is completed so that the inner formwork 10 is disposed inside the outer formwork 20 is shown in FIG. And Fig. 12 (b) is a schematic longitudinal sectional view along the line BB shown in Fig. 12 (a). 13A shows a state in which the inner formwork 10 is disposed inside the outer mold 20 and the concrete C1 is placed in the spacing space S, AA is shown in a schematic cross-sectional half cross-sectional view according to AA, and Fig. 13 (b) is a schematic longitudinal cross-sectional view along line DD shown in Fig. 13 (a).

11 to 13, the outer mold 20 is divided into a semi-circular upper pipe 21 and a lower pipe 22 in the form of a half pipe member, that is, a half pipe type consist of. 11, the inner mold 10, which is formed by assembling the first inner mold member 11 and the second inner mold member 12, is inserted into the inner surface of the lower pipe 22 from the inside of the lower pipe 22 And then the upper tube 21 is installed to cover the inner mold 10 so that the lower tube 22 is assembled. There is also a gap between the upper tube 21 and the inner mold 10 at this time. In order to secure the spacing S between the upper and lower pipes 21 and 22 and the inner mold 10, a spacer is arranged in the lower pipe 22, not shown in the figure, The inner mold 10 may be disposed on the lower tube 22 in a manner that the inner mold 10 is supported. Of course, as another method, the spacing S between the upper tube 21 and the inner mold 10 can be easily obtained by assembling the upper tube 21 with the spacers attached to the inner surface of the upper tube 21 It can be secured.

The outer mold 20 is formed by assembling the upper and lower pipes 21 and 22 and the inner mold 20 and the inner molds 21 and 22 are spaced apart from the inner surfaces of the upper and lower pipes 21 and 22, 10 is disposed between the inner mold 10 and the upper and lower pipes 21 and 22 so that the spacing space S in which the concrete C1 for forming the precast hollow column 100 can be installed (See Fig. 12 (b)). 11 to 13, the upper pipe 21 is formed with an injection hole 210 through which the concrete C1 can be injected into the spacing space S to be poured.

When the concrete C1 is cured after placing the concrete C1 in the spacing space S in a state where the inner mold 10 is disposed inside the outer mold 20 so that the spacing space S is formed, The precast hollow pillars 100 are made by separating the upper and lower pipes 21 and 22 from each other and demoulding them. Although not shown in the drawings, a reinforcing net made of a cast iron or a steel reinforcing bar for reinforcing the precast hollow column 100 or a reinforcing bar made of a steel reinforcing bar may be provided before the concrete C1 is placed in the spacing space S, They can be placed in advance and embedded in the concrete C1.

Meanwhile, in the embodiment shown in the drawing, the outer mold 20 made by assembling the upper and lower pipes 21 and 22 has a circular cross section, but the cross-sectional shape of the outer mold 20 is not limited thereto, The cross-sectional shape of the outer mold 20 may be an elliptical shape, a polygonal shape, or the like in accordance with the cross-sectional shape of the precast hollow column 100 to be used.

In the pre-cast hollow column 100 in the state of demolding the outer mold 20, the inner mold 10 still exists. In particular, as noted above, the inner mold 10 includes a first inner mold member 11 and a second inner mold member 12, wherein the first inner mold member 11 is a hollow, The second inner molding member 12 is made of a material such as synthetic resin or rubber which is easy to shrink, while the inner molding member 12 is made of a rigid material such as a steel pipe that can maintain its shape in order to form a hollow. Therefore, even if the concrete C1 for the precast hollow column 100 is dried and shrunk, the second inner molding member 12 is accommodated therein and the first inner molding member 12, which is located inside the second inner molding member 12, The form member 11 is ready to be pulled out easily.

In the present invention, after the concrete (C1) for the precast hollow column (100) is cured, the inner mold (10) is removed through the following process. First, the first inner molding member 11 is pulled out in the longitudinal direction from the precast hollow column 100 and removed. The first inner molding member 11 is removed so that the second inner molding member 12 is in a state of being deformable in the spatial direction in which the first inner molding member 11 was present, The first inner mold member 12 is deformed to shrink the form member 12 so that the second inner mold member 12 is separated from the outer surface of the cured concrete C1, that is, the hollow inner surface of the precast hollow column 100, The member 12 is pulled out in the longitudinal direction and removed.

14 and 15 illustrate a process of demolding the outer mold 20 and removing the inner mold 10 from the precast hollow column 100. FIG 14A shows the outer mold 20, 14 (b) is a schematic perspective view showing a state in which the upper and lower pipes 21 and 22 are separated from each other and the first inner molding member 11 is taken out in the longitudinal direction while demolding, there is shown a schematic cross-sectional view along the line AA shown in Fig. 15A is a schematic perspective view showing a state in which the first inner molding member 11 is pulled out and then the second inner molding member 12 is removed. Fig. 15 (c) shows a schematic cross-sectional half-sectional perspective view and a cross-sectional view along the line AA shown in Fig. 14 (a), respectively. 14 and 15 illustrate that the demolding of the outer mold 20 and the withdrawal of the first inner mold member 11 are simultaneously performed and the outer mold 20 is demolded from above and the inner mold 10 However, the present invention is not limited to this. That is, in the present invention, the demolding of the outer mold 20 may be performed after the withdrawal of the first inner mold member 11 is completed, and furthermore, the second inner mold member 11 The outer mold 20 may be demoulded after all of the molds 12 are removed.

In the present invention, it is possible to easily remove the inner mold 10 by the above-described process, thereby forming a hollow pre-cast hollow column 101 having a cavity and a hollow inner side end groove 101 formed on the inner surface of the hollow (100) is completed. FIG. 16 (a) is a schematic perspective view of a precast hollow column 100 according to the present invention, which is completed by completely removing the second inner molding member 12, and FIG. 16 (b) Sectional perspective view along the line AA shown in Fig. 16 (a).

As described above, according to the present invention, even if a precast concrete hollow column having a small size such that the operator can not approach the inside of the hollow, the inner front end groove 101 is formed in the hollow inner surface, .

7, the precast hollow column 100 having a cavity formed only in one longitudinal direction and having an inner front end groove 101 formed on the inner surface thereof can be easily manufactured by the following method.

Fig. 17 (a) is a perspective view of a precast hollow column 100 (Fig. 17 (a)) in which a hollow is formed only in one longitudinal direction and an inner front end groove 101 is formed in an inner surface thereof, 17A is a schematic exploded perspective view corresponding to FIG. 17A showing a state in which the inner mold 10 and the inner reinforcing steel assembly 5 are disposed in the outer mold 20 to manufacture the outer mold 20, 17B shows a state in which the inner mold 10 and the inner reinforcing steel assembly 5 are disposed inside the outer mold 20 following the state of FIG. 17A and the assembling and installation of the outer mold 20 A schematic assembly perspective view showing the completed state is shown.

In order to manufacture the precast hollow column 100 having only the hollow in one longitudinal direction, as described above, the inner mold 10 including the first inner mold member 11 and the second inner mold member 12, The inner mold 10 has a longitudinal length that is shorter than the entire length of the precast hollow column 100. The inner mold 10 has a longitudinal length that is shorter than the total length of the precast hollow column 100. [ When the inner mold 10 is arranged so as to have a spacing space in the outer mold 20, as shown in FIG. 17 (a), the inner reinforcing steel assembly 5 Is placed in the outer mold (20). That is, the inner reinforcing bar assembly 5 is positioned in the longitudinal direction of the inner formwork 10 and disposed in the outer mold 20. The inner reinforcing steel assembly 5 may be formed of longitudinal steel rods or may be in the form of a reinforcing steel net composed of longitudinal steel bars and band bars as illustrated in the drawings. In arranging the inner reinforcing steel assembly 5, it is also preferable that the ends of the cast iron project into the interior of the first inner molding member 11.

18 (a) is a schematic cross-sectional view showing a state in which the first inner molding member 11 is pulled out in the longitudinal direction in order to manufacture the precast hollow column 100 shown in Fig. 17, and Fig. 18 18 (b) shows a schematic cross-sectional view showing a state in which the second inner molding member 12 is removed following FIG. 18 (a), and FIG. 18 (c) There is shown a schematic cross-sectional view showing the completion of removal of the member 12 and completion of the precast hollow column 100. In the process of manufacturing the precast hollow column 100 shown in FIGS. 17 and 18, other method steps such as removal of the first and second inner mold members 11 and 12, demolding of the outer mold 20, , And the effect thereof is the same as that described above with reference to Figs. 9 to 15.

1: Column structure
5: Internal rebar assembly
8: Reinforcing assembly
101: medial shear groove
130: outer shear groove
430: support extension groove
100: Precast concrete hollow column
400:
500: superstructure

Claims (7)

A method for constructing a column structure (1) integrated with a lower structure (400) by vertically mounting a precast concrete hollow column (100) on the upper surface of a lower structure (400)
The precast concrete hollow column 100 is manufactured such that an outer shear groove 130 is formed on the outer peripheral surface of the lower end portion thereof;
A supporting extension groove 430 is formed on the upper surface of the lower structure 400;
When the precast concrete hollow column 100 is vertically installed, the outer shear grooves 130 formed on the outer peripheral surface of the lower end portion of the precast concrete hollow column 100 are received in the support expansion grooves 430;
In the state where the precast concrete hollow column 100 is installed upright, a filler C3 is placed in the support enlargement groove 430 to cure the precast concrete hollow column 100 to integrate the lower end of the precast concrete hollow column 100 with the lower structure 400 ;
Wherein the columnar structure is constructed by placing the concrete (C2) in the hollow of the precast concrete hollow column (100).
The method according to claim 1,
The precast concrete hollow column 100 is formed such that the outer shear grooves 130 are formed on the outer circumferential surface of the upper end thereof.
The upper structure 500 is constructed at the upper end of the precast concrete hollow column 100. The concrete is placed in the state where the outer shear grooves 130 are embedded in the upper structure 500 to form the precast concrete hollow column 100, And the upper structure 500 is formed integrally with the upper structure 500. The structure of the column structure using the precast concrete hollow column is characterized in that the upper structure 500 is formed integrally with the upper structure 500, Construction method.
3. The method of claim 2,
A reinforcing bar assembly (8) is disposed in the hollow of the precast concrete hollow column (100) prior to placing the concrete (C2) in the hollow of the precast concrete hollow column (100), wherein the reinforcing bar assembly (8) To be exposed to the outside of the upper part of the hollow column (100);
Characterized in that when the upper structure (500) is formed by pouring concrete, an extended portion of the reinforcing bar assembly (8) is embedded in the concrete of the upper structure (500). The construction of the column structure using the precast concrete hollow column Way.
3. The method of claim 2,
The precast concrete hollow column 100 is fabricated so that a reinforcing bar net 9 is laid in the precast concrete hollow column 100;
An upper connecting reinforcing bar 81 is disposed in the hollow of the precast concrete hollow column 100 prior to placing the concrete C2 in the hollow of the precast concrete hollow column 100, To be exposed to the outside of the upper part of the cast concrete hollow column (100);
Wherein an extended portion of the upper connection reinforcing bars (81) is embedded in the concrete of the upper structure (500) when the upper structure (500) is formed by pouring concrete. Construction method.
5. The method according to any one of claims 1 to 4,
The connecting reinforcing bars 410 embedded in the lower structure 400 may be extended upward so that the connecting reinforcing bars 410 are formed in the hollow of the precast concrete hollow column 100 in a state of being positioned in the hollow of the precast concrete hollow column 100 Wherein the concrete structure (C2) is laid so that the lower structure (400) and the precast concrete hollow column (100) are integrated with each other.
5. The method according to any one of claims 1 to 4,
The precast concrete hollow column (100)
A second inner molding member 12 having ring-shaped shearing protrusions 120 for forming the inner shearing grooves 101 formed on the outer surface at intervals in the longitudinal direction is formed as a first inner molding member 11 To prepare an inner mold (1); Disposing the inner formwork (1) in the inner space of the outer formwork (2) such that the spacing space (S) exists by the distance from the inner surface of the outer formwork (2); Curing the concrete (C1) by placing it in the spacing space (S); Withdrawing and removing the first inner molding member (11) in the longitudinal direction; And the second inner formwork member 12 to deform the second inner formwork member 12 apart from the cured concrete C1 so that the second inner formwork member 12 is pulled out and removed in the longitudinal direction Wherein the inner front end groove (101) is formed on the hollow inner surface by a method including the step of:
A post structure in which a precast concrete hollow column 100 is vertically installed on an upper surface of a lower structure 400 and is integrated with a lower structure 400,
A column structure using a precast concrete hollow column, which is constructed by the construction method according to any one of claims 1 to 4.

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