KR200384775Y1 - Rigid Joint Structure of Precast Concrete Column Unit and Steel Beam - Google Patents

Abstract

The present invention relates to a structural form that combines a precast concrete pillar member and a cheolgolbo, pre-filled with a reinforcing bar 21 having a coupler 22 so that the screw hole 23 is exposed from one side at a predetermined height of the column A cast concrete column 13; It is composed of steel cheolgolbo (17, 17 ') bonded to the upper surface or the lower surface of one end of the flange, respectively, through the through hole 26 of the transfer block 18 to the column screw hole (23) By fastening the bolt 20, the precast concrete pillar 16 and the cheolgolbo 17 is configured to be steel-bonded. Since the construction can be achieved by simply fastening the bolts 20 at the joining of the column and the beam, the production speed and precision can be efficiently improved, and the convenience of construction and the shortening of air can be brought. In the joining of the precast concrete column 16 and the cheolgolbo (17, 17 '), the transfer block 18, 19 at the tip of the beam side can be applied to the cheolgolbo according to the length of the flange, precast manufactured in the factory By not using steel cheolgolbo on the concrete pillars, the column and prosthetic reinforcement will not be processed in the field, and there is a particular advantage that can dramatically improve the economics by not only improving the quality but also reducing material costs.

Description

Rigid Joint Structure of Precast Concrete Column Unit and Steel Beam

The present invention relates to a joint structure for joining a precast concrete member and a cheolgolbo, and more specifically, precast concrete by fastening a bolt to the screw hole of the column by prefabricating the joint member for joining the precast concrete pillar and the cheolgolbo Steel joint structure of precast concrete column and steel golbo which enables easy joining of columns and steel golbo, while allowing steel joints, and freely adopting the length of pillar and steel golbo flange, which allows convenience in construction and shortening of air. It is about.

In general, precast concrete, which was developed to shorten the construction period and improve the quality of concrete, reduces the construction period by shortening the construction period by transporting and assembling concrete members that have been cast and planted in the factory beforehand. In addition to the ideal condition, the concrete member produced in the factory is used to overcome the deterioration of the concrete due to the weather conditions of the site or the proficiency of the worker who pours. Recently, the construction method using precast concrete is preferred. .

The construction method which joins the precast concrete pillar and beam shown in FIG. 1 among the construction methods using a precast concrete member is known conventionally.

In the conventional method of joining the precast concrete column and the beam shown in FIG. 1, the column and the beam are joined to each other by a pair of beams having a predetermined length (typically 5 cm) overlapping the lower column 1 after the lower column 1 is installed. 2, 2 ') and at the same time, the reinforcing bar 3 is placed in the through hole formed in the beams 2, 2' and the pair of beams 2, 2 with the upper surface of the lower column 1 ') After placing a topping concrete layer 4 of a certain thickness between and on the slab, and after the topping concrete layer 4 is sufficiently cured, through each through hole formed in the lower part of the main reinforcing bar 5 of the upper pillar 1'. High strength mortars are respectively inserted into elliptical space portions formed under the main bars 5 of the upper columns 1 'by inserting the main bars 5' of the lower columns 1 exposed to the upper part of the lower columns 1, respectively. The column and beam are joined by injecting and splicing the main reinforcing bars 5 and 5 'at the splice joint 6. .

The connection between the pillar and the beam has a problem that the construction period takes a long time due to the curing of the topping concrete layer 4 and the curing of the high-strength mortar at the splice joint 6, and the two pillars ( 1, 1 ') and the junction of the two beams (2, 2') has a problem that the structure is weak.

In addition, among the construction methods using concrete and steel members, a method of joining a steel beam to the concrete column shown in Figs. 2A and 2B has been known.

In the method of joining the conventional concrete column 7 and the cheolgolbo 8 shown in Figures 2a and 2b in the method of joining the column and the beam after fixing the plate 11 with anchor bolts 13 to the column concrete beam beam The angle member 12 is welded in the state secured by the length of the upper and lower portions of the phosphorus golgol beam 9 and the angle member 14 is fastened to the right and left of the cheolgolbo web 10 by a high-tension bolt 15. After placing the cheolgolbo (8) on the angle member 12 bonded to the pillar and welded the angle member 12 of the column and the cheolgolbo flange (9) of the beam to the high beam bolt (15) to the beam steel web (10) The pillar and the beam are joined by welding the fixed angle member 14 and the plate 11 of the pillar.

The joint of the column and the beam is installed in addition to the concrete plate (11) to fix the anchor bolt 13 and to repeat the process of welding the angle member 12 to the plate 11 takes a long construction period. In this process, there is a problem of additional material costs, and the connection of the column and the beam using the plate 11 fixed with the anchor bolt 13 to the pillar concrete (7) poured in the field is not possible to strongly join the column and the beam. However, there is a drawback that, depending on the quality of the pillar concrete (7) cast in the field can show a significant difference in the structural stress in the joint.

The present invention has been invented to solve the various defects and problems caused by the above-mentioned conventional precast concrete pillar and beam joining, to provide a steel joint structure of precast concrete pillar and cheolgolbo improved economical, constructability and efficiency There is a purpose.

Another object of the present invention is to invent various kinds of shortcomings and problems such as failing to secure the construction quality by using anchor bolts at the joints of the pillars and the cheolgolbo of the conventional concrete member, the column with good construction quality The purpose is to provide a joint structure of precast concrete columns and cheolgolbo to achieve the steel joint of the beam.

Another object of the present invention is to improve the convenience of construction compared to the method of repeating the process of fixing the anchor bolt to the plate to weld the angle in the joint of the existing concrete and steel cheolgolbo at the construction site when joining the beam It is to provide a steel joint structure of the pillar and cheolgolbo that can be employed in the dry joining method that can shorten the air.

Another object of the present invention is to join the transfer block of the connection hardware to the upper surface or the lower surface of the one end flange of the cheolgolbo can meet the required strength while accurately matching the width of the various columns, it is adopted according to the required strength It is to provide a joint structure of precast concrete pillars and cheolgolbo can easily change the number of reinforcing rods of the column.

Another object of the present invention, when the beam is connected to the column in two directions so that the transfer block, which is the connecting steel at one end of the steel frame beam crosses the upper and lower flanges so that the height of each steel golbo beam is the same in the state that the bars within the column is not constrained To join the beams.

The present invention for achieving the above object is a precast concrete pillar 16 is embedded with a reinforcing bar 21 having a coupler 22 at a predetermined height of the body so that the screw hole 23 is exposed to one side; Cheolgolbo (17, 17 ') to which the transfer blocks (18, 19) are respectively joined to the upper or lower surface of one end of the flange; By fastening the bolt 20 to the screw hole 23 through the through hole 26 of the transfer blocks 18 and 19, the precast concrete pillar 16 and the steel cheolgolbo 17, 17 'is configured to be strongly joined It is characterized by.

The reinforcing bar 21 is formed with a screw thread on the outer periphery, both ends of the reinforcing bar 21 is screwed into the screw hole (23 ') of the coupler 22, the coupler 22 is fastened to one end of the rebar Screw holes 23 for fastening the bolts 20 through the transfer blocks 18 and 19 are formed at the other end thereof, respectively.

In addition, the present invention is a precast concrete pillar 16, which is embedded in a set of reinforcing bars 21 having a coupler 22 at a predetermined height of the body so that the screw hole 23 is exposed to one side; A cheolgolbo (17, 17 ') to which the transfer blocks (18, 19) are respectively joined to an upper surface of one end of the flange; A cheolgolbo (27) to which the transfer blocks (18, 19) are respectively joined to the lower surface of one end of the flange; By fastening the bolts 20 to the screw holes 23 through the through holes 26 of the transfer blocks 18 and 19, the steel beams 17 and 17 'and the two steel beams in the precast concrete pillars 16 in two directions. Characterized in that the (27) is configured to be bonded.

In this case, when the transfer blocks 18 and 19 are joined to the bottom surface of the one side of the flange, the cheolgolbo 27 is used to which the transfer blocks 18 and 19 are joined to the top surface of the flange. In the case where the transfer blocks 18 and 19 are joined to the upper end surface of the flange of the cheolgolbo 17 and 17 ', the cheolgolbo 27 to which the transfer blocks 18 and 19 are joined to the upper end surface of the flange is used. .

In particular, the anchor bolt 13, which is a conventional joining member shown in Figs. 2a and 2b is in the present invention of the above-described configuration compared to the site-cast concrete column 7 does not effectively design the stress at the joint with a non-uniform construction quality In this case, as the dry joint structure of the reinforcing bar 21, the coupling tool 22, the transfer blocks 18 and 19, and the bolt 20, the stress at the joint can be effectively designed.

Hereinafter, with reference to the accompanying drawings will be described in detail the junction structure of the present invention precast concrete pillars and cheolgolbo.

Figure 3 is a perspective view showing a joint structure of the present invention precast concrete pillars and cheolgolbo, Figure 4 is an exploded perspective view showing a joint structure of the present invention precast concrete pillars and cheolgolbo, Figure 5 is a precast concrete column and the cheolgolbo 2 6 is an exploded perspective view showing a two-way joint structure of the present invention precast concrete pillars and cheolgolbo, Figure 7a and 7b is a manufacturing process diagram of the precast concrete column according to the present invention, Figure 8 is a As a cross-sectional view of the coupler 22 according to the present invention, the precast concrete column according to the present invention is manufactured by the process as illustrated in Figs. 7A to 7B.

That is, as shown in FIG. 7A, both ends of the reinforcing bar 21 having threaded lines formed on the outer circumference thereof are screwed into the reinforcing fastening screw holes 23 ′ of the coupler 22. Subsequently, as shown in FIG. 7B, the reinforcing bars 21 having the coupling holes 22 are arranged in a set at a predetermined height, and concrete is poured into the precast concrete columns 16 to produce the coupling holes 22. The formed bolt fastening screw hole 23 is exposed to the outside of the pillar 16.

As shown in the cross-sectional view of FIG. 8, the coupler 22 is formed with a reinforcing screw hole 23 'and a screw fastening screw hole 23 formed therein. Since both ends of the assembly 21 are fastened to each other, the length of the rebar 21 is adjusted to correspond to the width of the column, that is, by using the rebar 21 having a thickness appropriate to the width of the column. The reinforcing bar 21 provided with the coupling tool 22 in the pillar can be employ | adopted.

On the other hand, as the cheolgolbo as shown in Figs. 3 and 4 is prepared cheolgolbo (17, 17 ') bonded to the transfer block (18, 19) having a through hole 26 on the upper surface or the lower surface of one side of the flange, In case of joining beams in two directions to the column, in addition to the above-described cheolgolbo (17, 17 '), a cheolgolbo (27) in which a transfer block 27 having a through hole 26 is bonded to the top or bottom of one side of the flange is prepared. do.

In this case, when the transfer blocks 18 and 19 are joined to the bottom surface of the one side of the flange, the cheolgolbo 27 is used to which the transfer blocks 18 and 19 are joined to the top surface of the flange. When the transfer blocks 18 and 19 are joined to the upper end surface of one side of the flange, the cheolgolbo 17 and 17 ', the use of the cheolgolbo 27 having the transfer blocks 18 and 19 bonded to the upper end of the flange may be used. By doing so, the precast concrete column 16 uses that the reinforcing bar 21 having a coupler 22 at a predetermined height of the body so that the screw hole 23 is exposed to one side is embedded in a set.

Precast concrete column 16 and steel cheolgolbo (17, 17 '27) prepared as described above through the through hole 26 formed in the transfer block (18, 19) as shown in Figs. Precast concrete pillars 16 and cheolgolbo by fastening the bolts 20 to the bolt fastening screw holes 23 formed in the coupling hole 22 of the reinforcing bar 21 embedded in the precast concrete pillars 16. (17, 17'27) is a strong bond. At this time, between the front end of the coupler 22 and the transfer blocks 18 and 19, and between the transfer blocks 18 and 19 and the bolt 20, a washer (in order to increase the connection area of the connector and reduce the construction error of the precast concrete column) 24, 25).

Although the present invention has been described as an example using precast concrete columns and cheolgolbo, the present invention is not limited thereto, and various modifications can be made without departing from the spirit of the invention. For example, in the case of the joining of precast concrete columns and precast concrete beams, the bolts are fastened to the threaded holes of the joints assembled in the joint member embedded in the column through the through-holes of the transfer block coupled to the reinforcing bar of the beam. Dry bonding of can be achieved.

As described above, the joint structure of the present invention precast concrete pillar and steel beam beam is composed of the assembly structure of the reinforcing bar and the coupling member, and by connecting the pillar and the beam by fastening the transfer block coupled to the beam as a bolt to the joint member Since the joints of the pillars and beams are not concentrated in one place, there is an advantage of achieving a strong joint with improved economy, constructability and efficiency.

In addition, the precast concrete pillars that were cast and cured at the factory are embedded with a joining member so that the two screw holes are exposed from one side of the top and bottom, and the transfer block is welded and fixed to the end of the beam. Therefore, by fastening the bolt to the threaded hole of the joining member through the transfer block there is an advantage that can be easily joined to the precast concrete pillars and cheolgolbo.

In addition, the joining member of the precast concrete column coupled with the beam can be achieved by fastening the coupler to the reinforcing bar. Therefore, by adjusting the length, thickness and strength of the reinforcing bar, it is possible to meet the required strength while accurately matching the width of the various columns. In the precast concrete plant, two joining members are formed in two directions in both directions, and are embedded in the pillar, and thus, there is a special advantage to more efficiently improve the production speed and precision.

The precast concrete column and the cheolgolbo is joined only four bolts can be connected to the cheolgolbo and splice joints can be at any height of the column, so the connection of the pillar, column and beam is not concentrated in one place, conventional precast concrete As in the connection of columns and beams, the connection reinforcing bars of the joints do not settle on weak toppings, and therefore, they are fixed in precast concrete, thereby providing a strong connection. In addition, the steel of the steel member, which is a prosthetic steel, has a significant increase in deformation rather than an increase in stress after yielding, but it does not immediately reach breakage. The structural material with high ductility until failure is reached is able to enhance the ductility effect when the torsional or flexural load is excessive in the span beam, and is particularly effective when the expected seismic load is excessive. In other words, since the deformation increases greatly around the viewing column, there is an advantage that the lateral deformation of the building is possible and the shock from the earthquake can be alleviated

1 is a perspective view of an embodiment schematically showing a bonding state of a conventional precast concrete pillar and beam,

Figure 2a is a front view schematically showing a bonding state of a conventional concrete column and cheolgolbo,

Figure 2b is a side view schematically showing a bonding state of a conventional concrete column and cheolgolbo,

Figure 3 is a perspective view showing the joint structure of the present invention precast concrete pillars and cheolgolbo,

Figure 4 is an exploded perspective view showing a joint structure of the present invention precast concrete pillars and cheolgolbo,

5 is a perspective view showing a two-way joint structure of the present invention precast concrete pillars and cheolgolbo,

6 is an exploded perspective view showing a two-way joint structure of the present invention precast concrete pillars and cheolgolbo,

7a to 7b is a manufacturing process of the precast concrete pillar according to the present invention

8 is a cross-sectional view of a coupler according to the present invention

<Explanation of symbols for main parts of drawing>

6: splice joint 7: cast-in-place concrete pillar

8,8 ': Cheolgolbo 9: Cheolgolbo Frenzy

10: cheolgolbo web 11: plate

12: angle member 13: anchor bolt

14: angle member 15: high tension bolt

16: precast concrete column 17: cheolgolbo

18: transfer block 19: transfer block

20: bolt 21: rebar

22: coupler 23,23 ': screw hole

24: washer 25: washer

26: through hole 27: cheolgolbo

Claims (4)

A precast concrete column 16 having a reinforcing bar 21 having a coupler 22 at a predetermined height of the body such that the screw hole 23 is exposed on one side thereof; Cheolgolbo (17, 17 ') to which the transfer blocks (18, 19) are respectively joined to the upper or lower surface of one end of the flange; The precast concrete pillar 16 and the cheolgolbo (17, 17 ') is configured to be joined by fastening the bolt 20 to the screw hole 23 through the through hole 26 of the transfer block (18, 19). Steel joint structure of precast concrete column and cheolgolbo characterized by. Precast concrete according to claim 1, wherein the reinforcing bar (21) is provided with a screw thread on its outer circumference, and both ends of the reinforcing bar (21) are screwed to the screw hole (23 ') of the coupler (22). Steel joint structure of column and cheolgolbo. A precast concrete column 16 cross-embedded with a set of reinforcing bars 21 having a coupler 22 at a predetermined height of the body so that the screw hole 23 is exposed on one side; A cheolgolbo (17, 17 ') to which the transfer blocks (18, 19) are respectively joined to an upper surface of one end of the flange; A cheolgolbo (27) to which the transfer blocks (18, 19) are respectively joined to the lower surface of one end of the flange; By fastening the bolts 20 to the screw holes 23 through the through holes 26 of the transfer blocks 18 and 19, the steel beams 17 and 17 'and the two steel beams in the precast concrete pillars 16 in two directions. Steel joint structure of the precast concrete pillars and cheolgolbo, characterized in that the (27) is configured to be bonded. 4. The transfer block (18, 19) is joined to the lower surface of one end of the flange of the cheolgolbo (17, 17 '), and the transfer block (18, 19) on the upper surface of one end of the flange of the cheolgolbo (27) Steel joint structure of precast concrete pillars and cheolgolbo characterized in that the joint.