KR101947418B1 - Continuous construction method for precast reinforced concrete structure and steel-framed structure and precast reinforced concrete column for using the method - Google Patents

Abstract

The present invention relates to a method of continuously constructing a precast reinforced concrete structure and a steel structure, the method including a first step of installing a precast reinforced concrete column having a plurality of main beams exposed at an upper portion thereof; a second step of placing a precast reinforced concrete beam on the precast reinforced concrete column; a third step of installing a lower fixing part on the exposed main beam; a fourth step of placing the upper reinforcing bar in the precast reinforced concrete beam; a fifth step of positioning a fixture of the steel structure on the lower fixing part of the exposed main beam and installing the upper fixing part; a sixth step of placing on-site pouring concrete between the precast reinforced concrete beam and the precast reinforced concrete column; and a seventh step of pouring non-shrinkable mortar into a space between the on-site pouring concrete and the fixture of the steel structure. In the third step, the installation height of the lower fixing part is determined such that the on-site pouring concrete is positioned below the fixture of the steel structure. The fixture of the steel structure is installed on the precast reinforced concrete column before on-site pouring of topping concrete of the precast reinforced concrete beam, and thus the precast reinforced concrete structure and the steel structure can be continuously built by means of the same building process and apparatus.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of continuously constructing a precast reinforced concrete structure and a steel structure, and a precast reinforced concrete column used for the precast reinforced concrete structure and a precast reinforced concrete column,

The present invention relates to a method of continuously constructing a steel structure in a reinforced concrete structure, and more particularly, to a method of continuously constructing an upper steel structure together with a lower precast reinforced concrete column and a beam.

Generally, a multi-story building has columns and beams as main skeletons, and the basic form of the building is divided according to the materials constituting the columns and beams. Typically, a reinforced concrete structure composed of concrete in which columns and beams are embedded with reinforcing bars There is a steel-framed building with steel columns in the building, pillars and beams.

Reinforced concrete structure and steel structure have advantages and disadvantages respectively. Recently, reinforced concrete structure which is favorable for fire resistance and vibration variation is applied to the lower layer of the building, and a composite structure of steel structure with light material for earthquake .

10 is a schematic diagram showing a configuration in which a reinforced concrete structure and a steel frame structure are combined.

A steel structure 2000 including a steel column and a steel beam is installed on a reinforced concrete structure 1000 after a lower layer L is constructed with a reinforced concrete structure 1000 including a reinforced concrete column and a reinforced concrete beam, ).

At this time, since the reinforced concrete structure 1000 constituting the lower layer L is tightly bonded in the X and Y directions with the reinforcement and the column main body, the anchor hardware of the steel structure 2000 is installed at an accurate position And it is difficult to repair or reinforce it if it is erroneously applied. In the case of using precast reinforced concrete columns and beams that are prefabricated as reinforced concrete structures (1000) and constructed in the field, compared to the case where the formworks are used in the field, the anchors of steel structures (2000) Location. However, since the anchor hardware of the steel structure 2000 is installed after completing the reinforced concrete structure 1000 by completing the field installation of the concrete for connecting the precast reinforced concrete column with the beam, The construction of the part is performed by a separate construction process from the separate equipment, and the installation time is lengthened.

Korea Patent No. 10-0442548

It is an object of the present invention to provide a method of continuously constructing upper steel structures together without installing topping concrete of joints and slabs while constructing lower precast reinforced concrete columns and beams, There is a purpose.

According to another aspect of the present invention, there is provided a method of continuously constructing a pre-cast reinforced concrete structure and a steel structure, the method comprising: a first step of installing a precast reinforced concrete column having a plurality of main beams exposed at an upper portion thereof; Placing a precast reinforced concrete beam on the precast reinforced concrete column; A third step of installing a lower fixing part on the exposed main frame; A fourth step of placing the upper reinforcing bars in the precast reinforced concrete beams; A fifth step of placing a fixture of a steel frame structure on a lower fixture of the exposed main beam and installing an upper fixture; Placing a spotting concrete between the precast reinforced concrete beam and the precast reinforced concrete column; And a seventh step of pouring non-shrinking mortar into a space between the locally-placed concrete and the fixture of the steel structure, wherein in the third step, the locally-placed concrete is positioned below the fixture of the steel structure, And an installation height of the lower fixing part is determined.

The present invention is characterized in that an upper steel structure is installed on a precast reinforced concrete column prior to casting a toe concrete of a precast reinforced concrete beam in the process of installing precast reinforced concrete columns and beams. From this configuration, there is an advantage that the precast reinforced concrete structure and the steel structure can be continuously constructed using the same construction process and apparatus.

The step of installing the hoop-shaped reinforcing bars surrounding the exposed main ropes may be further performed immediately before or after the second step to prevent the main ropes from being bent.

The hoop type reinforcing bar surrounding the main frame may be installed in the process of manufacturing the precast reinforced concrete column, or the hoop type reinforcement may be installed before the first step.

A thread is formed on at least a part of the end of the exposed main body, the lower fixing part includes a lower nut, and the third step is performed by fastening the lower nut to the thread. By using the lower nut, it is possible to adjust the installation height of the lower fixing part with high precision. At this time, the upper fixing part also includes an upper nut, and the fifth step is also performed by fastening the upper nut to the thread.

The third step is to adjust the installation height of the lower fixing part in such a state that the lower fixing parts are horizontally positioned and installed on the lower fixing part, good. In the case where the temporary plate is used, it is preferable to remove the temporary plate and then insert the upper reinforcing bar in the fourth step.

After the third step, a step of installing a horizontal guide reinforcing bar for fixing the installation position of the lower fixing part can be further performed.

A precast reinforced concrete column according to another aspect of the present invention is a precast reinforced concrete column used for a continuous construction method of a precast reinforced concrete structure and a steel structure, comprising: a columnar body of a concrete material; And a main body inserted into the column body in the longitudinal direction and exposed at least a part of the upper portion of the column body, the main body of the main body comprising: a mounting hole formed in the lower plate of the fixing steel frame of the steel structure installed on the precast reinforced concrete column; And a screw thread is formed on at least a part of the end of the exposed main shaft.

At this time, it is possible to further include a hoop reinforcing bar surrounding the main frame.

The present invention having the above-described structure is characterized in that, by installing the fixtures of the upper steel structure on the pre-cast reinforced concrete columns before putting the topping concrete of the precast reinforced concrete structure on the site, the precast reinforced concrete structure and the steel structure are subjected to the same construction process There is an effect that continuous construction can be carried out by using the apparatus.

In addition, by installing steel fixture of steel structure before installing cast-in-place concrete, it is possible to increase the efficiency of equipment by maximizing the time-space knitting of the joint and maximizing the length of anchor steel It has excellent effect.

1 is a top view of a precast reinforced concrete column for continuous construction according to the present embodiment.
FIG. 2 is a view showing a precast reinforced concrete beam positioned on a precast reinforced concrete column for continuous construction according to the present embodiment. FIG.
3 is a view showing a state in which a hoop type reinforcing bar is installed on a main body exposed on an upper part of a precast reinforced concrete column for continuous construction according to the present embodiment.
4 is a view showing a state in which a lower fixing part is installed on a main beam exposed on an upper part of a precast reinforced concrete column for continuous construction according to the present embodiment.
5 is a view showing a horizontal guide reinforcing bar installed to guide a position of a lower fixing part installed on a main frame of a precast reinforced concrete column for continuous construction according to the present embodiment.
FIG. 6 is a view showing a state in which the upper reinforcing bars are installed in the precast reinforced concrete beams in a state where the temporary plates are removed from the main rods of the precast reinforced concrete columns for continuous construction according to the present embodiment.
FIG. 7 is a view showing a state in which a fixture of a steel structure and an upper fixing part are installed on a main frame of a precast reinforced concrete column for continuous construction according to the present embodiment.
FIG. 8 is a view showing a placement of a spotted concrete between a pre-cast reinforced concrete column and a pre-cast reinforced concrete beam for continuous construction according to the present embodiment.
FIG. 9 is a view showing the installation of non-shrinkable mortar between the fixing hardware of the steel structure installed on the pre-cast reinforced concrete column for continuous construction according to the present embodiment and the cast concrete placed on-site.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to the accompanying drawings, embodiments of the present invention will be described in detail.

FIGS. 1 to 9 are views showing a process of continuously constructing a precast reinforced concrete structure and a steel structure according to an embodiment of the present invention.

1 is a top view of a precast reinforced concrete column for continuous construction according to the present embodiment.

The precast reinforced concrete column 100 of the present embodiment is a column that is applied to a precast reinforced concrete construction method previously installed in a factory and installed in the field. Precast concrete construction method is a construction method in which pre-fabricated columns and beams are installed and combined at the site. In the process of joining columns and beams, concrete is put into place by placing some of the cast concrete .

The precast reinforced concrete column 100 of the present embodiment can be applied without limitation to the structure of the precast reinforced concrete columns manufactured by including the main rods in the interior of the precast reinforced concrete columns 100. However, And a thread 112 is formed on at least a part of the end of the exposed main muscle 110. [ 1 is a plan view of the precast reinforced concrete column 100 as viewed from above. At this time, the main rope 110 of the precast reinforced concrete column 100 may be manufactured in the same manner as a general precast reinforced concrete column, but based on the preliminary structure review considering the feature that the steel structure is continuously installed on the upper part, The number may be added or the location may be changed. In this embodiment, precast reinforced concrete columns 100 are manufactured by using eight main rods 110 in accordance with the positions and the number of installation holes formed in the lower plate of the fixture of the steel structure. The construction of the precast reinforced concrete column 100 except for the above features is not particularly limited, so a detailed description will be omitted.

In addition, the precast reinforced concrete column 100 of the present embodiment is installed only at the uppermost layer of the reinforced concrete structure portion, that is, the position where the reinforced concrete structure is continuously installed, and a general precast reinforced concrete column is installed at a portion corresponding to the lower layer.

FIG. 2 is a view showing a precast reinforced concrete beam positioned on a precast reinforced concrete column for continuous construction according to the present embodiment. FIG.

The precast reinforced concrete beam 200 of the present embodiment is applied to a precast reinforced concrete construction method which is manufactured in the factory such as a precast reinforced concrete column 100 and installed in the field in advance, The construction of the precast reinforced concrete beams to be manufactured can be applied without limitation. In particular, although omitted in the drawings, it is common to include a lower main body protruding upward from the precast reinforced concrete column 100 in each of the two precast reinforced concrete beams 200 separated from each other.

In the prior art, a cast concrete for placing a precast reinforced concrete column 100 and a reinforced concrete beam 200 is installed and a reinforced concrete column 100 and a reinforced concrete beam 200 are jointly installed and installed. The steel structure was installed above the spotted concrete. On the other hand, in the construction method of the present embodiment, additional work is carried out in a state in which no cast concrete is laid.

3 is a view showing a state in which a hoop type reinforcing bar is installed on a main body exposed on an upper part of a precast reinforced concrete column for continuous construction according to the present embodiment.

The hoop-type reinforcing bar 300 is a reinforcing bar formed by winding a reinforcing bar and having an empty center in the shape of a hoop. The main ropes 110 exposed to the upper portion of the precast reinforced concrete column 100 are arranged so as to be in contact with the inside of the hoop- And a hoop-type reinforcing bar 300 is installed to surround the main rope 110.

The hoop-shaped reinforcing bars 300 reinforce the main ropes 110 that are not covered with the cast-in-place concrete to prevent the main ropes 110 from spreading. In the present embodiment, three hoop-type reinforcing bars 300 are provided at different heights in order to safely reinforce the main ropes 110, but the present invention is not limited thereto.

In the present embodiment, the hoop type reinforced concrete bar 300 is installed in the field after the precast reinforced concrete beam 200 is positioned. However, in the process of manufacturing the precast reinforced concrete column 100 at the factory, Alternatively, it may be installed in the field, but it may be installed before placing the precast reinforced concrete beam 200.

4 is a view showing a state in which a lower fixing part is installed on a main beam exposed on an upper part of a precast reinforced concrete column for continuous construction according to the present embodiment.

The lower fixing part 400 is installed on the thread 112 of the main body 110 exposed on the precast concrete column 100. The lower fixing part 400 is composed of a lower nut 410 and a lower washer 420 so that the height can be easily adjusted and the lower fixing part 400 is temporarily installed The lower fixing part 400 is installed in a state where the temporary fixing plate 500 is positioned. 4 is a plan view of the hypothetical plate 500 viewed from above. Holes are formed in the hypothetical plate 500 at positions where the main ropes 110 are inserted into the steel structure, and the holes of the precast concrete columns 100 An X axis line 510 and a Y axis line 520 for identifying the X axis and the Y axis are displayed. In the present embodiment, the installation height of the lower nut 410 can be precisely controlled by fastening the lower nut 410 to the screw thread 112.

5 is a view showing a horizontal guide reinforcing bar installed to guide a position of a lower fixing part installed on a main frame of a precast reinforced concrete column for continuous construction according to the present embodiment.

The horizontal guide reinforcing bars 600 are installed to precisely fix the position and the spacing of the main bars 110, and the horizontal guide reinforcing bars 600 are positioned at the correct positions and fixed by tag welding.

In order to completely install the precast reinforced concrete beam 200, it is necessary to dispose the upper reinforcing bars positioned over the precast reinforced concrete beams 200 located apart from each other. In this case, if there is a temporary plate 500, There is a difficulty. Therefore, in order to avoid interference when laying the upper reinforcing bars, the temporary plate 500 should be removed, but the position and spacing of the main ropes 110 may be disturbed. However, in this embodiment, since the position and spacing of the main frame 110 are accurately fixed by the horizontal guide reinforcement 600, the position and spacing of the main frame 110 can be stably fixed even when the temporary plate 500 is removed.

At this time, the lower nut 410 of the lower fixing part 400 may be fixed so as not to move by rotating, or a component for indicating an accurate position may be additionally provided.

FIG. 6 is a view showing a state in which the upper reinforcing bars are installed in the precast reinforced concrete beams in a state where the temporary plates are removed from the main rods of the precast reinforced concrete columns for continuous construction according to the present embodiment.

The horizontal guide reinforcing bars 600 remove the temporary plates in a state in which the positions and the spacing of the main ropes 110 and the positions of the lower fixing portions 400 are accurately fixed to prevent the precast reinforcing concrete beams 200 The upper reinforcing bar 210 is positioned at the upper end of the upper reinforcing bar 210.

FIG. 7 is a view showing a state in which a fixture of a steel structure and an upper fixing part are installed on a main frame of a precast reinforced concrete column for continuous construction according to the present embodiment.

After the upper reinforcing bars 210 are laid, an anchor steel member of the steel structure 2000 is installed and the lower fixing plate 2100 of the steel structure 2000 is inserted into the main steel bar 110, After the lower portion is fixed, the upper fixing portion 700 is installed. The upper fixing part 700 is composed of an upper nut 710 and an upper washer 720 provided on the thread 112 of the main body 110 exposed on the precast concrete column 100. The lower fixing part 400, The lower metal plate 2100 of the steel structure 2000 is fixed at the upper portion and the lower portion, respectively.

FIG. 8 is a view showing a placement of a spotted concrete between a pre-cast reinforced concrete column and a pre-cast reinforced concrete beam for continuous construction according to the present embodiment.

After the steel structure 2000 and the upper fixing part 700 are installed, a spotted concrete 800 is laid between the precast reinforced concrete column 100 and the precast reinforced concrete beam 200 to form precast reinforced concrete The column 100 and the precast reinforced concrete beam 200 are combined.

At this time, the height of the spotted concrete 800 should be lower than the position where the lower fixture metal plate 2100 of the steel structure 2000 is installed, and the installation height of the lower fixture plate 2100, Is determined in consideration of the height of the poured concrete 800, and the lower fixing part 400 is installed to match the height of the poured concrete 800 in Fig. Preferably, the site-poured concrete 800 is located below the lower fixing part 400.

FIG. 9 is a view showing a non-shrinkage mortar installed between a steel frame structure installed on a precast reinforced concrete column for continuous construction according to the present embodiment and an on-site cast concrete.

As described above, the site-cast concrete 800 is located below the lower fixture 400, and the space formed between the fixture lower plate 2100 of the steel structure 2000 and the cast concrete 800 is free The shrinkage mortar 900 is placed and fixed.

If the lower part of the lower fixture plate 2100 is filled with the cast concrete 800, cracks may occur or incomplete construction may occur due to the characteristics of concrete and difficulty in construction. In this embodiment, the spotting concrete 800 is placed so that the lower metal plate 2100 of the steel structure 2000 is spaced apart from the spotting concrete 800 and then the lower metal plate 2100 and the spot- Shrinkage mortar 900 is poured into the space between the lower steel plate 2100 and the cast concrete 800 of the steel structure 2000 so as to be completely filled with no gap.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Those skilled in the art will understand. Therefore, the scope of protection of the present invention should be construed not only in the specific embodiments but also in the scope of claims, and all technical ideas within the scope of the same shall be construed as being included in the scope of the present invention.

100: Precast reinforced concrete column 110:
112: Thread 200: Precast reinforced concrete beam
210: Upper reinforcing bar 300: Hoop reinforcing bar
400: lower fixing part 410: lower nut
420: lower washer 500:
510: X axis 520: Y axis
600: horizontal guide reinforcing bar 700: upper fixing part
710: upper nut 720: upper washer
800: Cast-in-place concrete 900: Non-shrinkable mortar
1000: Reinforced concrete structure 2000: Steel structure
2100:

Claims (10)

A first step of installing precast reinforced concrete columns having a plurality of main beams exposed on the upper part thereof;
Placing a precast reinforced concrete beam on the precast reinforced concrete column;
A third step of installing a lower fixing part on each of the exposed main beams;
A fourth step of placing the upper reinforcing bars in the precast reinforced concrete beams;
A fifth step of locating the fixing hardware of the steel structure on the lower fixing part of the exposed main beam and installing the fixing part of the steel structure by installing the upper fixing part;
Placing a spotting concrete between the precast reinforced concrete beam and the precast reinforced concrete column; And
And a seventh step of placing non-shrinkable mortar in a space between the locally placed concrete and the fixture of the steel structure,
Wherein the installation height of the lower fixing part is determined so that the site-dumped concrete is positioned below the fixing steel of the steel structure in the third step.
The method according to claim 1,
Wherein the step of installing the Hoop type reinforcing bars surrounding the main reinforcing bars is performed immediately before or after the second step.
The method according to claim 1,
Wherein the hoop reinforcing bars surrounding the main frame are installed in a process of manufacturing the precast reinforced concrete column or are installed before the first step.
The method according to claim 1,
A thread is formed on at least a part of the end of the exposed main muscle,
The lower fixing part includes a lower nut,
Wherein the third step is carried out by fastening the lower nut to the thread, and wherein the pre-cast reinforced concrete structure and the steel structure are continuously installed.
The method according to claim 1,
Wherein a position of the lower fixing part is adjusted in a state where the lower fixing part is positioned on the lower fixing part so that the lower fixing part can be installed horizontally and at an accurate position, A method of continuously constructing a cast reinforced concrete structure and a steel structure.
The method according to claim 1,
Further comprising the step of installing a horizontal guide reinforcing bar for fixing the installation position of the lower fixing part after the third step.
The method of claim 5,
Wherein in the fourth step, the upper reinforcing bars are routed after removing the temporary plate, and a method for continuously constructing the reinforced concrete structure and the steel structure.
The method of claim 4,
Wherein the upper fixing part includes an upper nut,
Wherein the fifth step is carried out by fastening an upper nut to the thread, and wherein the pre-cast reinforced concrete structure and the steel structure are continuously installed.
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