KR102553582B1 - Connecting Structure of beam and column - Google Patents

Abstract

The present invention configures a girder joint member on the main bar protruding from the end of the girder to secure the fixing performance of the girder main bar and facilitates the connection between PC girders, and the girder main bar is connected to the perfobond hole of the rib of the girder joint member 2 It relates to a joint structure between a PC column and a PC girder to increase the synthesis effect of a joint by exerting a perfobond synthesis effect after differential synthesis.
In a preferred embodiment of the present invention, in the joint structure of the PC column and the PC girder, the PC column has a cross-sectional size expanded to have a column body of a certain size and a cross section larger than the column body at a certain distance below the upper end of the column body. It is composed of a bracket formed to be formed and a column main bar configured to protrude a certain length to the top of the bracket, and the PC girder has a girder body of a certain length, and reinforcements are placed on the upper and lower parts of the girder body in the longitudinal direction, respectively, and the ends protrude a certain length. It consists of a horizontal plate formed by threading the girder main reinforcing bars and column main reinforcing bars threaded at the end and vertically downward on both sides in the longitudinal direction of the horizontal plate, and a plurality of perfobond holes. It consists of a girder joint member that passes through the rib through the perfobond hole and is fixed with a positioning nut. The end of the PC girder is the upper part of the bracket of the PC column so that the column main reinforcing bar of the girder joint member passes through the through hole of the column main bar of the girder joint member at the top of the PC column. It is configured to be mounted on

Description

Connection structure of PC column and PC girder {Connecting Structure of beam and column}

The present invention relates to a joint structure between a PC column and a PC girder, and more particularly, by constructing a girder joint member on the main reinforcing bar protruding from the end of the girder to secure the fixing performance of the main reinforcing bar of the girder, while facilitating the connection between the PC girders , It relates to a joint structure between a PC column and a PC girder in which the girder main reinforcing bars are connected to the perfobond holes of the ribs of the girder joint member to exhibit the effect of perfobond synthesis after secondary synthesis to increase the synthesis effect of the joint.

In order to install a PC girder on top of a PC column, the main reinforcing bars of the PC girder are placed by avoiding the main reinforcing bar of the column of the PC column, and the position and spacing of the reinforcing bars of the existing PC girder and the PC column are the same to avoid overlapping the position of the reinforcing bars between the PC girders. Difficulties arise when manufacturing PC products, and since the spacing of the reinforcing bars is not the same, it is difficult to install due to the need to be careful when installing them. In addition, if an error occurs when arranging the reinforcing bars, there is a problem in that on-site assembly becomes impossible. In addition, PC pillars A PC girder is mounted on the top, and for the safety of the girder's fall, a CONNECTION BAR is installed on the upper surface of the PC column, connected to the girder, and then filled with non-shrinkage mortar. To this end, the size of the bracket at the top of the PC column increases, resulting in an unnecessary cross section and difficulties in manufacturing, transporting, and erecting.

As a background technology of the present invention, there is Patent Registration No. 1514572 "Wide type PC beam having a hollow cross section" (Patent Document 1). In the background art, 'it is installed between the pillars to support the slab, and the lower plate 11 and the side plates 12 and 12 on both sides extending upward with a certain angle θ at both ends in the width direction of the lower plate 11 are integrally configured. The space surrounded by the lower plate 11 and the side plates 12 and 12 on both sides has a cross-sectional shape in which a hollow 13 with an open top is formed, and both ends of the lower plate 11 accommodate the main reinforcing bars exposed to the top of the column. We propose a wide PC beam having a hollow cross section, characterized in that the groove 111 is formed and has a length corresponding to the distance between the pillars.

However, in the background art, in order to prevent the PC beam from falling off from the pillar, a fall prevention bolt insertion groove 112 is further formed, and a fall prevention bolt is installed corresponding to the position of the fall prevention bolt insertion groove 112 on the upper surface of the pillar. To prevent overturning, there was a problem that it was difficult to assemble the beam to the column.

The present invention is to solve the above problems, it is possible to exclude the interference of the main reinforcing bar at the PC girder and PC column junction, so that the construction is easy and the cross-sectional size of the bracket of the PC column can be minimized, and the synthesis of the joint The purpose is to provide a joint structure of PC columns and PC girders to increase the effect.

In the present invention, in the joint structure of the PC column and the PC girder, the PC column has a column body of a certain size, and a bracket formed so that the cross-sectional size is expanded to have a cross section larger than the column body below a certain distance from the upper end of the column body, , It is composed of column main bars configured to protrude a certain length to the top of the bracket, and the PC girder has a girder body of a certain length, reinforcement in the upper and lower parts of the girder body in the longitudinal direction, respectively, and the end is formed by protruding a certain length, and at the end It is composed of a horizontal plate formed by threading girder main reinforcing bars and column main reinforcing bars through holes, and vertical ribs formed vertically downward from both sides in the longitudinal direction of the horizontal plate, and having a plurality of perpobond holes through them. Characterized in that the end of the PC girder is mounted on the top of the bracket of the PC column so that the column main reinforcing bar passes through the column main reinforcing hole of the girder joint member at the top of the PC column. It is intended to provide a joint structure between PC columns and PC girders.

In addition, it is intended to provide a joint structure between a PC column and a PC girder, characterized in that the column main reinforcement through hole is made of a long hole in the width direction of the horizontal plate.

In addition, the PC girder and the longitudinally adjacent PC girder are configured to couple both ends of the joint plate to the horizontal plates of the longitudinally adjacent PC girder, respectively.

In addition, a plurality of column fixing members are formed in the PC column so as to protrude vertically upward from the inside of the PC column cross section in the horizontal direction from the column main reinforcing bar, and the column fixing member through hole is formed in the horizontal plate of the PC girder at a position corresponding to the column fixing member. It is intended to provide a joint structure between a PC column and a PC girder, characterized in that the column fixing member is configured by penetrating the column fixing member through hole.

In addition, the column fixing member through hole is to provide a joint structure between a PC column and a PC girder, characterized in that it consists of a long hole in the width direction of the horizontal plate.

In addition, to provide a joint structure of the PC column and the PC girder, characterized in that the end of the column fixing member is coupled through the joint plate.

The joint structure of the PC column and the PC girder of the present invention configures a girder joint member in which the girder main reinforcing bar penetrates and is coupled to the end of the PC girder, so that the column main reinforcing bar of the PC column penetrates vertically. By doing so, PC girder and PC When manufacturing columns, it is possible to improve work efficiency and shorten the production period by equally arranging the spacing and position of reinforcing bars, and in the event of an error in the arrangement of reinforcing bars in PC products, it is possible to improve workability by adjusting the position of the girder joint member, and each PC girder main reinforcing bar installed in 4 directions Not only can interference and PC girder main reinforcing bars and PC column main reinforcing bars be excluded, but also PC girders and PC columns are connected with girder joint members and the connected girder joint members are connected with joint plates to improve the composite effect, and the girder installed on the PC girder It has the effect of improving the synthesis effect with the bonding member perfobond rib.

In addition, by connecting the PC column main reinforcing bar and the column fixing member to the girder joint member, a separate fall prevention facility is unnecessary, so the manufacturing, transportation, and erection of the PC member can be improved by minimizing the bracket cross section.

In addition, construction phase (2-step) synthesis eliminates the need for additional installation such as shear walls and bracing, which are means of reinforcing lateral force when lateral force such as seismic force is applied, reducing construction time and construction costs. When the PC girder is installed, the PC column main reinforcing bar and the column joint member are connected to the girder joint member to secure the primary safety, and the secondary safety can be secured by connecting the connecting member.

In addition, it is possible to reduce the height of the girder by synthesizing it before placing the upper slab, and the height of the girder can be reduced, and the weight of the girder, which has the largest weight when installing PC members, is reduced, so equipment operation becomes more relaxed, and there is also an effect of increasing construction safety and work efficiency. there is.

The following drawings attached to this specification illustrate a preferred embodiment of the present invention, and together with the detailed description of the present invention serve to further understand the technical idea of the present invention, the present invention is limited to those described in the accompanying drawings. It should not be construed as limiting.
1 is a perspective view of a PC column of the present invention.
2 is a perspective view of the PC girder of the present invention.
3 is a perspective view of the girder joint member of the present invention.
Figure 4 is a side view showing the joint structure of the PC column and the PC girder of the present invention.
5 is a diagram showing the construction sequence of the joint structure of the PC column and the PC girder of the present invention.
6 is a perspective view showing the installation details of the PC girder of the present invention.
7 is a diagram explaining the shear resistance of the shear heat payment.

Below, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment will be described in detail.

1 is a perspective view of a PC column of the present invention, and FIG. 2 is a perspective view of a PC girder of the present invention.

In the present invention, the PC pillar 10 is a pillar body 11 of a certain size, and a bracket formed so that the cross-sectional size is expanded to have a larger cross section than the pillar body 11 at the lower part at a certain distance from the upper end of the pillar body 11 ( 12), and a pillar main reinforcing bar 110 configured to protrude a certain length upward from the bracket 12, and has the same shape as a general PC pillar.

The PC girder 20 has a girder main body 21 of a certain length, reinforcement in the upper and lower parts of the girder main body 21 in the longitudinal direction, respectively, and an end protruding a certain length, and a girder main reinforcing bar 210 threaded at the end. In particular, in the present invention, a separate girder joint member 220 is configured at the end of the girder main reinforcing bar 210 of the PC girder 20.

3 is a perspective view of the girder joint member of the present invention.

As shown in FIG. 3, the girder joint member 220 is composed of a horizontal plate 221 and a pair of vertical ribs 222 vertically downward on both sides of the horizontal plate 221 in the longitudinal direction, the shape of which is shown in FIG. As described above, the vertical ribs 222 are configured vertically downward from the outer end of the horizontal plate 221, or the vertical ribs 222 are spaced a certain distance from the lower surface of the horizontal plate 221 to the inside of the horizontal plate 221 ( 222) may be configured to have a Π shape.

Figure 4 is a side view showing the joint structure of the PC column and the PC girder of the present invention, Figure 5 is a view showing the construction sequence of the joint structure of the PC column and the PC girder of the present invention, Figure 6 is the PC of the present invention It is a perspective view showing the installation details of the girder.

In particular, in the present invention, the pair of vertical ribs 222 allow the girder main reinforcing bars 210 to pass through, and a plurality of perfobond holes 225 corresponding to the girder main reinforcing bars 210 pass through the girder main reinforcing bars 210. Thus, the girder main reinforcing bar 210 penetrates the perfobond hole 225 so that the position of the girder joint member 220 is adjusted and fixed with the position adjusting nut 211. As shown, the positioning nuts 211 are configured on both sides of the outer vertical rib 222 to fix the girder joint member 220 so that it does not move after being fixed to the girder main reinforcing bar 210. At this time, in order to fasten the positioning nut 211, the girder main reinforcing bar 210 is threaded.

In such a girder joint member 220, a column main bar through hole 223 is formed through a hole in the horizontal plate 221 corresponding to the column main bar 110, and the girder joint member 220 is formed on the top of the PC column 10. The end of the PC girder 20 is mounted on the upper part of the bracket 12 of the PC pillar 10 so that the pillar main bar 110 passes through the column main bar through hole 223 of ), so that the top of the PC pillar 10 It is to resist overturning when the PC girder (20) is installed, making it unnecessary to install a special overturning prevention facility.

At this time, the column main reinforcing bar through hole 223 is made of a long hole in the width direction of the horizontal plate 221, so that the installation error can be adjusted by converging in the long hole column main reinforcing bar through hole 223.

In addition, in the PC pillar 10, a plurality of pillar fixing members 120 are formed so as to protrude vertically upward from the inside of the PC pillar 10 cross section in the horizontal direction from the pillar main reinforcing bar 110, and the number of PC girders 20 The plate 221 is configured to pass through the pillar fixing member through hole 224 at a position corresponding to the pillar fixing member 120, so that the pillar fixing member 120 penetrates the pillar fixing member through hole 224, By allowing the column main reinforcing bars 110 and the column fixing member 120 to pass through the horizontal plate 221 of the girder joint member 220, respectively, the column main reinforcing bar 110 and the column fixing member 120 are connected to the girder joint member 220 is installed to penetrate in the vertical direction to resist overturning of the PC girder 20 when the PC girder 20 is installed, and to exhibit a perfobond synthesis effect after secondary synthesis to increase the synthesis effect of the junction.

Even at this time, the pillar fixing member through hole 224 may be made of a long hole in the width direction of the horizontal plate 221 to correct installation errors.

In this way, by using the girder joint member 220 installed at the end of the PC girder 20, the ends between the PC girders 20 adjacent in the longitudinal direction of the PC girder 20 are connected from the top of the PC pillar 10. can make it

That is, as shown, the PC girder 20 adjacent to the PC girder 20 in the longitudinal direction welds both ends of the joint plate 230 to the horizontal plate 221 of the PC girder 20 adjacent to the longitudinal direction, respectively, and bolts. to combine, etc.

In this way, by connecting the girder joint member 220 between adjacent PC girders 20 with the joint plate 230, it is possible to improve the bending resistance at the top of the joint during synthesis, as well as the composite member at the time of primary synthesis and the composite member at the time of secondary synthesis It serves as a composite member and a bending resistance member.

At this time, through-holes 231 corresponding to the pillar fixing member 120 pass through both ends of the joining plate 230 so that the end of the pillar fixing member 120 penetrates the joining plate 230, and the fixing nut 232 may be fastened to the pillar fixing member 120 to be fixed. At this time, the pillar fixing member 120 may be threaded to fasten the fixing nut 232 .

A schematic view of the construction sequence of the joint structure of the PC pillar and the PC girder of the present invention is as follows. As shown in FIG. 5A, the PC pillar 10 and the PC girder 20 manufactured in the factory are transported to the site. At this time, the girder joint member 220 is installed in the PC girder 20 and the column fixing member 120 is installed in the PC pillar 10 in advance.

Then, as shown in FIG. 5B, the PC girder 20 is installed on top of the PC pillar 10.

The column main reinforcing bar 110 and the column fixing member 120 of the PC column 10 are installed so as to penetrate the horizontal plate 221 of the girder joint member 220.

Then, as shown in FIG. 5C, the PC girders 20 adjacent in the longitudinal direction are combined using the joint plate 230 to perform primary synthesis.

Finally, concrete 40 is poured at the junction of the PC pillar 10 and the PC girder 20 to complete the secondary synthesis.

Referring to FIG. 6, the installation structure of the PC girder 20 will be described in detail.

First, as shown in FIG. 6A, the column main reinforcing bar 110 and the column fixing member 120 are passed through the girder joint member 220 to connect the PC girder 20 and the column main bar 110 of the PC column 10 And then, as shown in FIG. 6c, the PC girders 20 adjacent in the longitudinal direction are coupled using the joint plate 230.

7 is a diagram explaining the shear resistance of the shear heat payment.

The joint structure of the PC column and the PC girder of the present invention configures the girder joint member 220 on the girder main reinforcing bar 210 protruding at the end of the PC girder 20 to secure the fixing performance of the girder main reinforcing bar 210 In particular, after the girder main reinforcing bar 210 is connected to the perfobond hole 225 of the vertical rib 222 of the girder joint member 220, horizontal shear and vertical shear ( Vertical shear) resistance, shear resistance by the girder main reinforcing bar 210 passing through the perfobond hole 225, and shear resistance effect by acupressure at the end of the vertical rib 222, etc. to exhibit perfobond synthesis effects to synthesize the joint to amplify the effect.

The joint structure of the PC column and the PC girder of the present invention as described above configures a girder joint member in which the girder main reinforcing bar penetrates and is coupled to the end of the PC girder, so that the column main reinforcing bar of the PC column vertically penetrates, so that the PC When manufacturing girders and PC columns, it is possible to improve work efficiency and shorten the production period by equally arranging the spacing and position of reinforcing bars, and in the event of an error in the arrangement of reinforcing bars in PC products, it is possible to improve workability by adjusting the position of the girder joint member. PC girder main reinforcing bar interference and PC girder main reinforcing bar and PC column main reinforcing bar interference can be excluded, and the PC girder and PC column are connected with a girder joint member, and the connected girder joint member is connected with a joint plate to improve the composite effect. There is an effect of improving the synthesis effect with the installed girder joint member perfobond rib.

In addition, by connecting the PC column main reinforcing bar and the column fixing member to the girder joint member, a separate fall prevention facility is unnecessary, so the manufacturing, transportation, and erection of the PC member can be improved by minimizing the bracket cross section.

In addition, construction phase (2-step) synthesis eliminates the need for additional installation such as shear walls and bracing, which are means of reinforcing lateral force when lateral force such as seismic force is applied, reducing construction time and construction costs. When the PC girder is installed, the PC column main reinforcing bar and the column joint member are connected to the girder joint member to secure the primary safety, and the secondary safety can be secured by connecting the connecting member.

In addition, it is possible to reduce the height of the girder by synthesizing it before placing the upper slab, and the height of the girder can be reduced, and when installing PC members, the weight of the girder, which has the largest weight, becomes smaller, so equipment operation becomes more relaxed, which also has the effect of increasing construction safety and work efficiency. .

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and variations without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but is limited only by the claims appended below.

10: PC pillar
11: pillar body
12 : Bracket
110: column main bar
120: column fixing member
20: PC girder
21: girder body
210: girder main bar
220: girder joint member
230: junction plate

Claims (6)

In the joint structure of the PC column 10 and the PC girder 20,
The PC pillar 10 has a pillar body 11 of a certain size, and a bracket 12 formed so that the cross-sectional size is expanded to have a larger cross section than the pillar body 11 at a lower part at a certain distance from the upper end of the pillar body 11 And, it consists of a column main reinforcing bar 110 configured to protrude a certain length to the top of the bracket 12,
The PC girder 20 has a girder main body 21 of a certain length, reinforcement in the upper and lower parts of the girder main body 21 in the longitudinal direction, and an end protruding a certain length, and a girder main reinforcing bar 210 threaded at the end. ) and the horizontal plate 221 formed by passing through the column main rebar through hole 223 and the vertical rib 222 configured vertically downward on both sides of the horizontal plate 221 in the longitudinal direction and through which a plurality of perfobond holes 225 are formed. ) and the girder main reinforcing bar 210 passes through the vertical rib 222 through the perfobond hole 225 and is made of a girder joint member 220 fixed with a positioning nut 211,
The end of the PC girder 20 is attached to the bracket 12 of the PC column 10 so that the column main bar 110 passes through the column main bar through hole 223 of the girder joint member 220 at the top of the PC column 10. A joint structure of a PC column and a PC girder, characterized in that it is mounted on the upper part. The method of claim 1,
The joint structure of the PC column and the PC girder, characterized in that the column main reinforcing through hole 223 is made of a long hole in the width direction of the horizontal plate 221. The method of claim 1,
The PC girder 20 adjacent to the PC girder 20 in the longitudinal direction,
The joint structure of the PC column and the PC girder, characterized in that both ends of the joint plate 230 are configured to be coupled to the horizontal plate 221 of the adjacent PC girder 20 in the longitudinal direction, respectively. The method of claim 3,
In the PC column 10, a plurality of column fixing members 120 are formed so as to protrude vertically upward from the inside of the PC column 10 cross section in the horizontal direction from the column main bar 110,
In the horizontal plate 221 of the PC girder 20, a column fixing member through hole 224 is passed through at a position corresponding to the column fixing member 120,
The joint structure of the PC column and the PC girder, characterized in that the column fixing member 120 is configured to pass through the column fixing member through hole 224. The method of claim 4,
The column fixing member through hole 224 is a joint structure between a PC column and a PC girder, characterized in that it consists of a long hole in the width direction of the horizontal plate 221. The method of claim 4,
The joint structure of the PC column and the PC girder, characterized in that the end of the column fixing member 120 is coupled through the joint plate 230.

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