KR100648376B1 - Joint of steel concrete column and horizontal member, construction method thereof - Google Patents

Abstract

A joint structure of a prefabricated steel frame reinforced concrete column and a horizontal member is provided to improve structural efficiency by reinforcing the unity of a joint of a column the vertical member and a beam or a slab the horizontal member. A joint structure of a prefabricated steel frame reinforced concrete column and a horizontal member contains a prefabricated steel frame column(100) formed by assembling shape members(110) and steel plates(120), column reinforcement bars(210,220) composed of vertical reinforcement bars and tie bars and arranged on the outside of the prefabricated steel frame column, horizontal reinforcement bars(200) arranged to the inside of the prefabricated steel frame column through an opening formed on a joint of a column(C) and a horizontal member(H), and concrete(300) placed inside/outside the prefabricated steel frame column and the horizontal reinforcement bars to make the prefabricated steel frame column, the column reinforcement bars and the horizontal reinforcement bars buried to complete a column in a prefabricated steel frame reinforced concrete column and to unify a column and a horizontal member.

Description

Joint structure of reinforced steel concrete column and horizontal member and its construction method {Joint of steel concrete column and horizontal member, construction method

1 is a cross-sectional view showing a junction structure of a conventional SRC and CFT pillar and the horizontal member.

Figure 2 is a perspective view showing an embodiment of a steel concrete beam (TSC beam) bonding structure of the assembled steel reinforced concrete pillar and the horizontal member according to the present invention.

3 is a cross-sectional view of FIG. 2.

4 is a longitudinal cross-sectional view of FIG. 2.

<Description of the symbols for the main parts of the drawings>

100: assembled steel pillar 110: section steel

120: steel plate 130: opening

200: horizontal rebar 210: vertical rebar

220: strip steel 300: concrete

C: Column B: TSC beam

H: horizontal member

The present invention relates to a joint structure of a reinforced steel reinforced concrete pillar and a horizontal member and a construction method thereof, and more particularly, to adopt an assembled steel column in the joining of a vertical member column and a horizontal member of a beam or slab. The joint structure of the assembled steel reinforcement concrete column and the horizontal member to improve structural performance by strengthening the integrity of the joint by allowing horizontal reinforcement to be completed with concrete columns and forming horizontal members to penetrate through the assembled steel reinforcement concrete columns. It relates to the construction method thereof.

It is a structure that reinforces reinforcement around SRC column and steel frame and pours concrete so that three people are united. It is able to maximize structural performance with small cross section and is widely applied in the construction of multi-story buildings. On the other hand, the CFT column is a structure in which the concrete is confined to the steel pipe by filling the concrete inside the steel pipe, the structure has the advantage that can be omitted because the steel pipe replaces the formwork and reinforcement. These SRC columns and CFT columns are advantageous for the utilization of TSC beams (steel concrete beams filled with concrete after forming steel plates into closed structures after combining the advantages of reinforced concrete beams and steel frame beams with beam members). It becomes a structure. 1 is a cross-sectional view showing a state in which the TSC beam bonded to the conventional SRC column and CFT column.

However, the SRC column and the CFT column are not very advantageous for securing the integrity of the horizontal member (beam or slab). Because SRC columns adopt H-beams and CFT columns are steel pipe columns, the steel aggregates are continuous in the height direction. Therefore, when reinforcing the reinforcing bars on the horizontal members at the joining of these columns (H-beams and steel pipe columns) and horizontal members, This is because the horizontal reinforcing bars constituting the member are separated around the H-beam pillar or the steel pipe pillar. This separation bar has a problem that requires the installation of additional shear key by reducing the shear stress of the joint. In order to solve the problem of the split reinforcement can be considered through the reinforcement of the horizontal rebar, which causes a new problem that the through-hole for the horizontal reinforcing bar to pass through the H-beams and steel pipe columns commonly used. Further processing of the through-holes is not only cumbersome, but also deteriorates the rigidity due to cross-sectional defects of the column itself.

The present invention has been made in order to improve the above-described problems, the horizontal member to complete the assembly of steel frame reinforced concrete pillar by adopting the assembly steel column in the joining of the vertical member pillar and the horizontal member beam or slab It is an object of the present invention to provide a joint structure and a construction method of the assembled steel reinforcement concrete column and the horizontal member to enhance the structural performance by strengthening the integrity of the joint by reinforcing the reinforcing bars through the assembled steel reinforcement concrete pillar.

Another object of the present invention is to arrange the steel plate of a predetermined size at regular intervals to form an opening in the assembly steel column as a whole, and to assemble the steel frame reinforced concrete pillar and the horizontal member to strengthen the internal and external integrity of the assembly steel pillar by pouring concrete To provide a joint structure and construction method thereof.

Still another object of the present invention is to construct a closed prefabricated steel pipe pillar, except for the joint portion of the steel frame pillar to be constructed primarily as a filled steel pipe pillar and to construct a second reinforced concrete pillar around the filled steel pipe in the future It is to provide a joining structure of the assembled steel reinforcement concrete column and the horizontal member and the construction method thereof that enables secondary separation construction.

The present invention for achieving the above object is in the joining of the vertical member pillar and the horizontal member beam or slab,

It is a steel plate in the width direction in which the opening is formed in the portion including the joint portion of the column and the horizontal member while connecting the plurality of the shape steel material in the height direction and the plurality of shape steel materials disposed in parallel with the outer peripheral surface of the column and spaced apart from each other Assembled steel column; Column reinforcing bar consisting of a vertical reinforcement to the outside of the assembled steel column and a band reinforcing the vertical reinforcement; Reinforcing bar constituting a horizontal member, the horizontal reinforcing bar extending through the opening formed in the junction of the column and the horizontal member in the assembly steel frame to the inside of the assembly steel frame pillar; Joining of the assembled steel reinforcement concrete column and the horizontal member, characterized in that it comprises a; and the concrete to be cast on the inner and outer and horizontal reinforcement of the assembled steel column, the column reinforcement, column reinforcement, horizontal reinforcement Provide structure.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

2 to 4 is a perspective view, a cross-sectional view and a longitudinal cross-sectional view showing an embodiment of the bonded structure of the assembled steel reinforced concrete pillar and the horizontal member according to the present invention, the present invention is a column or a vertical member beam and slab and At the junction of the assembly steel frame pillars 100, the column reinforcement (210, 220), the horizontal reinforcement 200 and the concrete 300 to be configured to include a feature to complete the joint.

In general, as a steel for pillars, an integral member having a continuity in the height direction such as H-shaped steel (SRC structure) and a steel pipe (CFT structure) has been mainly used, and in the present invention, the assembled steel column 100 is adopted in the height direction. By easily forming the opening portion 130, a member having discontinuity is adopted as the pillar steel.

The assembly steel column 100 is composed of the assembly of the shape steel material 110 and the steel plate 120, the shape steel material 110 is a member in the height direction in which a plurality of spaced apart from each other in parallel with the outer peripheral surface of the column (C) The steel plate 120 is a member in the width direction which is bonded to each other while connecting the plurality of shaped steels 110. At this time, the steel sheet 120 is installed while forming the opening 130 in the portion including the joint portion of the column (C) and the horizontal member (H), the opening 130 is a shape steel 110 of the steel sheet 120 It can be easily formed by omitting the steel plate installation in some sections in the bonding step. In addition, the opening 130 may be formed only around the junction of the pillar C and the horizontal member H, or the opening 130 may be formed at various intervals by installing the steel plate 120 of a predetermined size at a predetermined interval. 4, in the latter case, it is preferable to install the steel plate 120 at intervals such that buckling does not occur even when a compressive force is applied to the shaped steel 110.

The assembly steel frame pillar 100 composed of the assembly of the steel plate 110 and the steel plate 120 as described above concentrates the steel plate 110 in the portion where structural strength is required, and the thin steel plate 120 in the remaining portion. There is an advantage that can maximize the structural strength with a minimum amount of steel by arranging. The steel plate 120 adopts a thin member of about 1 mm, but if too thin, there is a risk that deformation may occur in the steel sheet during concrete filling, thereby forming protrusions, embossing, etc. on the steel plate 120 to compensate for this. This is preferred. In particular, the steel plate 120 is to be bonded to the inside of the shape steel 110, even if there is a significant concrete side pressure during the concrete filling or there is a defect in the bonding state, the steel sheet 120 is caught on the shape steel 110, so there is a risk of falling off It is advantageous in that there is no.

The outside of the assembly steel column 100 is a column reinforcement consisting of a vertical reinforcement 210 and the band reinforcing bars 220 surrounding the vertical reinforcement 210 is reinforcement, such a reinforcement is the cross-sectional size of the assembled steel column as it is In addition, it is possible to increase the structural strength with a small column section by completing the assembly steel reinforced concrete column. Considering the conventional square pillar as in the embodiment of Figures 2 to 4 assembling steel column 100 is adopted to form a steel beam 110 to form a square shape in four parts corresponding to the column corners It will be joined while connecting between the steel plate 110 of the rectangular steel plate 120 is a-shaped steel will be completed as a square assembled steel pillar (100).

Horizontal reinforcement 200 is a reinforcing bar constituting a horizontal member (H, beam or slab), through the opening 130 formed in the junction of the column and the horizontal member from the assembly steel column 100 to the inside of the assembly steel column I'm getting crazy. Specifically, when the horizontal member (H) becomes a reinforced concrete beam, the prosthetic reinforcement becomes a horizontal reinforcement (200) and will be penetrated through the assembled steel column (100), and the horizontal member (H) will be a steel ball (such as a TSC beam). In the case of a steel concrete beam), the upper beam will be a horizontal reinforcement 200 will be penetrated through the assembled steel column (100). However, when the cheolgolbo is constructed, the thick steel plate 120 of the thickness of the steel steel 110 is disposed between the steel beam 110 to the assembly steel column pillar 100 of the cheolgolbo from the cheolgolbo to the assembled steel column (100) It is desirable to ensure that there is no strain on the stress transfer. 2 to 4 shows an example in which the TSC beam B is constructed and the upper beam reinforcement becomes a horizontal reinforcement 200.

Such through reinforcement of the horizontal reinforcement (200) is made possible by the adoption of the assembled steel column (100), so that the fixing force to the column (C) of the horizontal reinforcement 200 as the through reinforcement of the horizontal reinforcement (200) The structural stability of the joint of the pillar (C) and the horizontal member (H) is expected to be maximized.

Concrete 300 is poured into the inner and outer and horizontal reinforcement (200) of the assembled steel column (100) so that the assembled steel column (100), column reinforcement (210, 220), horizontal reinforcement 200 is embedded, The pillar (C) is completed by the assembled steel reinforced concrete pillar to integrate the pillar and the horizontal member. Since the concrete 300 is placed and cured on the outside as well as the inside of the assembled steel column 100, when the steel cheolbo (including steel concrete beam such as TSC beam) is installed in the assembly steel column 100, the end of the steel cheolbo Bar to be able to be fixed to the concrete outside of the column 100, it is expected to ensure a stable bonding state of the column (C) and cheolgolbo.

Hereinafter, the construction method of the joint structure of the assembled steel reinforced concrete pillar and the horizontal member according to the present invention. The construction method can be divided into two types according to the formation state of the opening 130 in the assembled steel column (100), (iii) the opening of the opening 130 by installing a titanium at a predetermined interval This is the case where the joint part of (C) and the horizontal member H is formed in several places, and (ii) it forms only around the joint part of the pillar C and the horizontal member H.

(Ⅰ) Construction method when the opening is formed as a whole including the joint of the pillar and the horizontal member

(a) Construction of assembled steel columns

Constructed steel pillars 100 composed of the above-described shaped steel 110 and steel sheet 120 is constructed in the column (C) position. The assembled steel column 100 can be constructed by importing the steel plate 120 having a predetermined size into the shape steel 110 at a predetermined interval in a factory and installing it as it is by importing it into the field as it is, It can also be installed by assembly on site. By the spacing of the steel plate 120, the opening 130 is formed as a whole, including the junction of the column C and the horizontal member H.

(b) reinforcement of horizontal bars

The horizontal steel bar 200 is disposed so as to extend through the opening 130 formed at the junction of the column C and the horizontal member H in the assembled steel column 100 to the inside of the assembled steel column 100. 2 to 4 show an example of reinforcing the reinforcing reinforcing bar to the horizontal reinforcing bar 100 after the TSC beam (B) is bonded to the assembled steel column (100).

(c) reinforcement of column reinforcement

In order to complete the assembled steel reinforced concrete pillars, the vertical reinforcing bars 210 and the band reinforcing bars 220 are disposed outside the assembled steel pillars.

(d) installation of formwork

The pillar formwork is installed outside the pillar reinforcing bars 210 and 220.

(e) Concrete casting

The concrete 300 is poured on the inner and outer sides of the assembled steel column 100 and the horizontal steel bars 200 so that the assembled steel column 100, the column reinforcing bars 210 and 220, and the horizontal steel bars 200 are embedded. When the poured concrete is cured, the formwork is dismantled, thereby completing the joining structure of the integrated assembled steel reinforced concrete column and the horizontal member.

The construction method proceeds to the above step is because the inner and outer parts of the assembled steel pillars 100 are partially connected to each other through the opening 130 of the assembled steel pillars, so that when the concrete 300 is poured, the assembly of the steel pillars 100 The internal and external integrity is expected to be advantageous in terms of structural stability.

(Ii) Construction method when the opening is formed only at the junction of the pillar and the horizontal member

(a) Construction of assembled steel columns

Constructed steel pillars 100 composed of the above-described shaped steel 110 and steel sheet 120 is constructed in the column (C) position. The assembled steel column 100 can be constructed by importing the steel plate 120 having a predetermined size into the shape steel 110 at a predetermined interval in a factory and installing it as it is by importing it into the field as it is, It can also be installed by assembly on site. This completes a closed prefabricated steel pipe column having an opening 130 formed only at the junction of the column C and the horizontal member H.

(b) reinforcement of horizontal bars

The horizontal steel bar 200 is disposed so as to extend through the opening 130 formed at the junction of the column C and the horizontal member H in the assembled steel column 100 to the inside of the assembled steel column 100. 2 to 4, after joining the TSC beam (B) to the assembled steel column (100) can be reinforcement beam upper reinforcement to the horizontal reinforcement (100).

(c) Primary casting of concrete

The concrete 300 is poured into the assembly steel column 100 through the opening 130 formed at the junction of the column C and the horizontal member H. Since the assembled steel pillars 100 were manufactured in a closed manner except for the joints between the pillars C and the horizontal member H, the assembled steel pillars 100 became a kind of formwork, and concrete can be poured.

(d) reinforcement of column reinforcement

In order to complete the assembled steel reinforced concrete pillars, the vertical reinforcing bars 210 and the band reinforcing bars 220 are disposed outside the assembled steel pillars.

(e) installation of formwork

The pillar formwork is installed outside the pillar reinforcing bars 210 and 220.

(f) secondary casting of concrete

The concrete 300 is poured on the outside of the assembled steel column 100 and the horizontal reinforcement 200 in the pillar formwork. When the poured concrete 300 is cured, the formwork is dismantled, thereby completing the joining structure of the integrated assembled steel reinforced concrete column and the horizontal member.

The construction method proceeds to the above steps can be separated and poured concrete (300) inside and outside the assembly steel column (100), the outer concrete of the assembly steel column (100), which requires the installation of column formwork, the skeleton of the upper layer (The construction of the assembled steel column and the concrete primary casting inside the assembled steel column) It is possible to proceed at the same time at the construction stage. Therefore, it is possible to expect the shortening of the construction period in that the simultaneous construction of the upper and lower floors becomes possible.

According to the present invention as described above, by adopting the assembled steel column in the joining of the vertical member column and the horizontal member beam or slab to complete the assembled steel reinforcement concrete column and the horizontal steel constituting the horizontal member is assembled steel reinforced concrete pillar By reinforcing through the through to strengthen the integrity of the joint it is possible to improve the structural performance.

In addition, by arranging steel plates of a predetermined size at regular intervals to form openings in the assembled steel pillars as a whole, and constructing them with concrete reinforced concrete pillars by placing concrete, the integrity of the interior and exterior of the assembled steel pillars is strengthened and structurally An advantageous effect can be expected in terms of stability. On the other hand, the assembled steel column is completed as a closed prefabricated steel pipe pillar except for the joints, and is primarily constructed as a filled steel pipe column, and then secondly separated construction of the assembled steel reinforced concrete column when secondary concrete is constructed around the filled steel pipe in the future. As a result, it is possible to simultaneously construct upper and lower floor frames, thereby reducing the construction period.

Claims (5)

In the joining of a vertical column and a horizontal beam or slab, A steel plate in the height direction in which a plurality of pieces are spaced apart from each other in parallel with the outer circumferential surface of the column; and a steel plate in the width direction connected to each other so that an opening is formed in a portion including a joint between the column and the horizontal member while connecting the plurality of shape steels. Assembly steel frame pillar consisting of; Column reinforcement consisting of a vertical reinforcement to the outside of the assembled steel column; Reinforcing bar constituting a horizontal member, the horizontal reinforcing bar extending through the opening formed in the junction of the column and the horizontal member in the assembly steel frame to the inside of the assembly steel frame pillar; And, Concrete that is placed and cured on the inside and outside of the assembled steel column and the horizontal reinforcement so that the assembled steel column, the column reinforcement, and the horizontal reinforcing bar are embedded; Joining structure of the assembled steel reinforced concrete column and the horizontal member, characterized in that comprises a. In claim 1, Joining structure of the assembled steel reinforced concrete pillars and the horizontal member, characterized in that the opening of the assembled steel pillar is formed only around the junction of the column and the horizontal member. The method of claim 1 or 2, The assembled steel reinforcement concrete pillar is a square pillar, the a-beam is adopted as a section steel constituting the assembled steel pillar, the a-beam is assembled steel reinforcement, characterized in that arranged to form a rectangular shape in four parts corresponding to the column edge Joint structure of concrete column and horizontal member. In completing the joining structure between the vertical column and the horizontal beam or slab, (a) a widthwise shape steel material in which a plurality of pieces are spaced apart from each other in parallel with the outer circumferential surface of the pillar; and a width in which an opening is formed to form an opening in a portion including a connection portion between a column and a horizontal member while connecting between the plurality of shape steel materials Constructing a steel frame pillar composed of a steel plate in the direction; (b) reinforcing horizontal reinforcing bars so as to extend through the openings formed at the junction of the column and the horizontal member in the assembled steel column to the inside of the assembled steel column; (c) reinforcing the column reinforcing bars consisting of a vertical reinforcing bar and a band reinforcing bar surrounding the vertical reinforcing bars; (d) installing pillar formwork outside the pillar reinforcement; And, (e) placing concrete on the inside and outside of the assembled steel column and the horizontal reinforcement in the column formwork; Construction method of the joining structure of the assembled steel reinforced concrete pillar and the horizontal member comprising a. In completing the joining structure between the vertical column and the horizontal beam or slab, (a) a steel plate in the height direction in which a plurality of pieces are spaced apart from each other in parallel to the inner circumferential surface of the column; and a steel plate in the width direction connected to each other so that an opening is formed only at a junction between the column and the horizontal member while connecting the plurality of shape steels. Constructing a steel frame pillar composed of a column; (b) placing the horizontal reinforcing bars so as to extend through the openings of the assembled steel pillars to the inside of the assembled steel pillars; (c) pouring concrete into the assembled steel column; (d) reinforcing the column reinforcing bars consisting of a vertical reinforcing bar and a band reinforcing bar surrounding the vertical reinforcing bars outside the assembled steel frame; (e) installing pillar formwork outside the pillar reinforcement; And, (f) placing concrete on the outside of the assembled steel column and the horizontal reinforcement in the pillar formwork; Construction method of the joining structure of the assembled steel reinforced concrete column and the horizontal member, characterized in that comprises a.

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