KR100308757B1 - Development Devices and Methods of Precast Reinforced Concrete Beam Reinforcements in Beam-Column Joint - Google Patents

Abstract

1. Technology to which the invention described in the claims belong

Precast beam reinforcing device and method in a beam-column internal joint.

2. The technical gist of the invention

The present invention is to be fixed by bending the lower reinforcement of the precast beam to be disposed on both sides of the column by 90 ° near the center line of the column, but to support the lower reinforcing bars of the precast beam bent at 90 ° to compensate for the lack of fixing strength The object of the present invention is to provide a precast beam reinforcing device and method having a strength of joints superior to a conventional fixing method while improving the site assembly of the precast member by fastening the bolts and fixing the bolts.

3. Summary of Solution to Invention

The present invention provides a fixing device for a lower reinforcing bar bent at right angles to both precast beams disposed opposite to each other in a beam-column joint in which a precast beam is joined to an upper surface of a column, and is opposed to both sides of the vertical lower rebar. Supporting means; And it provides a lower reinforcing bar fixing device of the precast beam including a means for providing a fixing force to the support means so that the lower reinforcing bar between the two support means.

4. Important uses of the invention

It is designed to reduce construction errors and simplify on-site assembly.

Description

Development Devices and Methods of Precast Reinforced Concrete Beam Reinforcements in Beam-Column Joint}

The present invention relates to a fixing device and a method of fixing the bottom of the reinforcing bar at the beam-column inner joint of the precast reinforced concrete structure, in particular in the field assembly by bolted fastening method in the fixing unit, it is superior to the conventional fixing method The present invention relates to a precast reinforcing bar fixing apparatus and method in a beam-column inner joint having a joint strength.

In general, in order to join a precast beam to a column in the construction of a beam-column inner joint, a method of fixing a beam lower reinforcing bar embedded in a precast beam to a beam-column joint over a predetermined length is used.

That is, as shown in Figures 1a and 1b, the precast beam 3, from which the beam lower reinforcing bar 4 protrudes, is placed on both sides of the upper surface of the column 1 on which the column head 2 protrudes. The bottom reinforcing bar 4 is bent by 90 degrees to fix it.

As such, the method of bending the lower reinforcing bar of the precast beam by 90 ° past the center line of the column should be such that the lower bars of the precast beam to be disposed on both sides of the column do not overlap each other in the column section. If there is an error in the reinforcement, there is a disadvantage that the field assembly is impossible. Therefore, when manufacturing the precast concrete beams, there is a difficulty in manufacturing while performing precision reinforcement so that the lower reinforcing bars of the precast beams disposed on both sides of the pillars may be staggered from each other to avoid the column roots. In addition, since the reinforcement of the beam-column joint is dense, not only the reinforcement itself is difficult, but also the on-site concrete casting is difficult.

In order to overcome such difficulties in the reinforcement in the prior art as shown in Figures 2a and 2b by bending in the longitudinal direction by a predetermined inclination angle to avoid mutual interference of the two lower beam reinforcement (4) bent vertically 90 ° A structure for fixing is proposed.

In addition, as shown in Figs. 3A and 3B, a structure is proposed in which the lower reinforcing bars 4 of the two precast beams are arranged in the same line, and then fixed by performing a high degree of welding.

However, the method of Figures 2 and 3 as described above is not only a lot of conditions due to the domestic construction site, but also the efficiency of various construction tasks, such as the need for special management in the production of reinforcing material is falling. This problem is briefly described as follows.

First, the method of staggering the lower reinforcing bars of the precast beam must avoid the interference of the columns and bi-directional reinforcing bars. The placement of the main bar should be reinforced to avoid interference with the upper and lower bars of the precast beam.

Secondly, in the case of reinforcing bars by welding, rebar welding is virtually impossible due to the lack of welding performance of reinforcing bars produced in Korea. In addition, even when using reinforcing steel bars, field work is difficult and expensive, and when welding the lower bars of horizontal beams, the lower bars of longitudinal beams intersecting at the column cannot be welded. There is this.

Third, the method of bending and arranging in the column section to avoid the mutual interference of the lower bar of the precast beam is a method of applying less results due to the difficulty of processing and manufacturing rebar.

Meanwhile, in order to solve the above problems, a method of reducing the number of reinforcing bars using a large diameter reinforcing bar has been used, which not only has many difficulties in reinforcing steel but also has limitations in sticking performance and overlapping joints. There are additional problems, such as the practical application is limited.

Accordingly, the present invention was devised to solve the above-mentioned problems, to be fixed by bending the lower reinforcing bar of the precast beam to be disposed at the left and right of the pillar at 90 ° near the center line of the pillar to compensate for the lack of anchorage strength Reinforcement of precast beams with better bearing strength than conventional fixing methods while improving the assembly of precast members by placing a support on the lower bars of precast beams bent at 90 ° and fastening them with bolts. It is an object of the present invention to provide an apparatus and method.

In addition, the present invention is to fix the bottom reinforcing bar using the support and bolts can reduce the error of the fixing length and the reinforcement spacing of the precast reinforcing bar, do not need precision reinforcement, easy to manufacture and construction of precast beam Another object is to provide a precast beam reinforcing device and method.

1a and 1b is an exemplary view showing a precast prosthesis fixing method in the beam-column inner joint according to the prior art.

2a and 2b is another exemplary view showing a precast prosthesis fixing method in the beam-column inner joint according to the prior art.

3a and 3b is another exemplary view showing a precast prosthesis fixing method in the beam-column inner joint according to the prior art.

4a and 4b is a front cross-sectional view and plan view showing an embodiment configuration of a precast reinforcing bar fixing apparatus in the beam-column inner joint according to the present invention.

5 is an exemplary view showing the construction procedure of the precast reinforcing bar fixing apparatus in the beam-column inner joint according to the present invention.

Figure 6 is a perspective view showing a coupling state of the precast reinforcing bar fixing device in the beam-column inner joint according to the present invention.

7a to 7e is an exemplary view showing a combined state of the support and the bolt which is the main part of the present invention.

8a to 8d are cross-sectional views and perspective views showing various cross-sectional shapes according to the combination of the support and the precast prosthetic reinforcement that is the main part of the present invention.

9A and 9B are a perspective view and a sectional view showing another embodiment of the support which is the main part of the present invention.

Figure 10 is another embodiment showing a state in which the reinforced concrete beam fixing device according to the present invention is applied to a composite structure consisting of steel beams, the vertical direction is reinforced concrete beams in the beam-column junction.

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

1: pillar 2: column

3: precast beam 4: beam lower rebar

5: support 6: fixing bolt

7: beam shear reinforcing bar 8: steel beam

In the present invention for achieving the above object, in the beam-column joint portion in which the precast beam is joined to the upper surface of the pillar, in the fixing device of the lower reinforcing bar bent and projected at right angles to the sides of both precast beams disposed opposite to each other, Means for abutting and supporting both sides of the vertical bottom rebar; And it provides a lower reinforcing bar fixing device of the precast beam including a means for providing a fixing force to the support means so that the lower reinforcing bar between the two support means.

In addition, the present invention comprises the steps of arranging the lower reinforcing bar bent 90 ° at a predetermined interval not intersecting the column root and pouring concrete to produce a precast beam; Placing the lower reinforcing bars of both side precast beams on opposite sides of the columnar surface; Installing a support so as to face both sides of the lower reinforcing bar of the precast beams, and fastening with a fixing bolt; And blocking the side space of the precast beam generated by the difference in the size of the pillar and the width of the precast beam in a separate form, and pouring the concrete.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings of FIG. 4.

Precast beam reinforcing device and method in the beam-column joint according to the present invention is implemented to increase the fixing strength while reducing the error of the reinforcing rod length and reinforcement spacing of the precast beam, in the present invention As shown in FIGS. 4 to 6, the pillars 1 having a plurality of pillar roots 2 protruding upright on the upper periphery and the beam bottom reinforcing bars supported on both sides of the upper surface of the pillars 1 vertically bent. In the beam-column joining structure in which (4) is provided to protrude and joins the precast beam (3) with beam shear reinforcing bar (7) at the top, the lower reinforcing bar (4) of the two precast beams (3). A pair of supports 5 are provided to abut against both sides of the correspondingly aligned portion to support the center of the upright portion of the corresponding beam lower reinforcing bar 4, and the pair of supports 5 in the longitudinal direction. Fixing bolt (6) for fixing through The rain. Here, the fixing bolt 6 is located between the lower beam reinforcement (4) to prevent interference with the lower beam reinforcement (4) that is supported by a pair of supports (5).

The support 5 in the present embodiment has a structure formed of a template bent in the letter "A" as shown in Figure 8a, but is not limited to this, in the case where the cross section of the pillar (1) is large According to the horizontal length of the beam lower reinforcing bar 4, that is, the basic fixing length, the one having the appropriate shape is adopted. In the present embodiment, in addition to the a-shaped plate, as shown in Figs. 8b to 8d, it may be a c-shaped, c-shaped, and flat plate, and each of these different types of plates may be the lower side of the upright part of the lower beam reinforcing bar 4. Is located in.

These, a, c-shaped plate and flat plate are both of their upright surface in contact with the bottom end reinforcing bar (4), and fastened through the fixing bolt (6) through the upright surface.

In addition, when the cross section of the pillar 1 is small and the basic fixing length of the lower beam reinforcing bar 4 is short, the support 5 is disposed between the lower beam reinforcing bar 4 as shown in FIGS. 9A and 9B. It consists of a pair of A-shaped plate disposed so as to face to, or an ellipse plate formed with a first hole into which the beam bottom reinforcing bar 4 is inserted and a second hole into which the fixing bolt is inserted.

Here, the A-shaped plate support (5) is supported by the horizontal portion of the A-shaped plate is abutted to the 90 ° bent portion of the lower beam reinforcement (4), the fixing bolt (6) is fastened to the upright portion of the A-shaped plate in the transverse direction do. At this time, the fixing bolt is to be located close to the center distance of the 90 ° bend with the beam bottom reinforcement (4).

In addition, in the case of the support plate 5 of the elliptic plate shape is installed on both sides of the fixing length of the lower reinforcing bar 4 is to support the lower reinforcing bar 4 in the section of the fixing bolt (6).

Referring to the construction method of the present invention configured as described above are as follows.

First, as shown in FIG. 5, a beam lower reinforcing bar 4 bent at 90 ° at a predetermined interval not intersecting with the main root 2 of the column 1 is arranged, and a beam shear reinforcing bar 7 is disposed at the upper end. After placement, the concrete is poured to produce the precast beams (3).

Then, the precast beams 3 manufactured as described above are hypothesized to face each other on both sides of the upper surface of the column 1, and the upright portions of the lower reinforcing bars 4 on both sides of the precast beams 3 correspond to each other. . In this case, preferably, the upright portion of the lower reinforcing bar 4 protruding from the precast beam 3 is positioned at the center line of the column 1, and the corresponding lower reinforcing bar 3 is positioned in a straight line with each other. Hypothesis

When the precast beam 3 is installed on the upper surface of the pillar 1, the support 5 is installed to abut on both sides of the lower reinforcing bars 4 of the two precast beams 3 which are in contact with each other in a straight line. Then, the fixing bolt 6 is passed through. Here, in order to increase the fixing strength, the lower reinforcing bar 4 of the precast beam 3 may be connected to one support 5, and may be fastened using a small amount of fixing bolts 6. In addition, the fixing bolt 6 is to be fastened through the support (5) in a position that does not interfere with the upright lower reinforcing bar (4).

When the fastening of the support 5 and the fixing bolt 5 is completed, the side space of the precast beam (3) generated by the difference in the width of the pillar size and the precast beam (3) in a separate mold, Pour concrete.

In the construction method as described above, when the cross section of the pillar 1 is large and the basic fixing length of the lower reinforcing bar 4 is long, the support 5 is divided and supported as shown in FIG. 7B. In this figure, a support 5 for supporting two lower reinforcing bars 4 and a support 5 'for supporting one lower reinforcing bar 4' among the two divided supports are shown, but the present invention is not limited thereto. Rather, it is well known that even or odd bottom reinforcing bars can be selectively supported, respectively, according to the column cross-sectional size.

In addition, when the beam lower reinforcing bars 4 corresponding to each other are not positioned in a straight line and are difficult to be fastened by one support 5, the beams are fixed in the same manner as in FIGS. 7C to 7E.

That is, the method shown in Fig. 7C shows a method of fastening by using two supports 5 when the corresponding beam lower reinforcing bars 4 are not positioned in a straight line and any part is shifted.

In the manner shown in Fig. 7D, the support 5 is positioned at a predetermined inclination angle when a portion of the corresponding lower beam reinforcing bar 4 is positioned by a predetermined distance or when the centers of the prosthetic bar are in contact with each other. 7E shows a state in which the area of the beam lower bar 4 is enlarged and fastened when the beam bottom reinforcing bars 4 are displaced in a straight line and completely intersect.

As described above, the method of fixing the reinforcement by the support 5 and the fixing bolt 6 is a steel beam at the upper end of the pillar 1 at the beam-column junction centering on the pillar 1 as shown in FIG. 10. 8) (I-shaped steel is shown in the beam) and the precast beam 3 is also constructed in a composite structure in which the precast beam 3 is placed on both sides of the lower flange 8b of the steel beam 8. It is possible to apply a fixing device. That is, the lower end of the reinforcing bar (4) on both sides of the rib surface (8a) of the steel beam (8) and the support (5) to the butt through the fixing bolt (6) to be fastened.

Here, the fixing method shown in Figure 10a shows a method of fastening using the support (5) shown in Figure 8a, Figure 10b shows a method of fastening using the support (5) shown in Figure 9a. An example is shown.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and alterations are possible within the scope without departing from the technical spirit of the present invention. It is obvious to those who have knowledge of the world.

As described above, according to the present invention, by combining the support and fixing bolts to fix the lower reinforcing bar, it is unreasonable in the arrangement of the reinforcing bar, unlike the method of securing the fixing length by bending 90 ° past the centerline of the column, which is a conventional method. It can solve the, there is an effect that can further improve the adhesion of the rebar due to the irregularities of the support and fastening bolts of various forms. In addition, since the fixing method of the reinforcing bar is made by the support and the fixing bolt, it is possible to flexibly accommodate various construction errors. In addition, the manufacturing process of the precast beam can simplify the complicated manufacturing process to avoid the interference of both side precast reinforcing bar, and because the easy on-site assembly has the effect of reducing the manpower and shorten the air. In addition, the price is cheaper than the method of welding the rebar, there is an effect that can reduce the construction cost.

Claims (7)

A precast beam reinforcing device in a beam-column joint structure for joining a pillar in which a plurality of main roots protrude upright, and a precast beam supported on both sides of an upper surface of the pillar, the precast beam reinforcing device Rebars exposed in a vertically bent state, with both vertical muscles contacting each other or positioned at arbitrary intervals; A pair of supporting means which are opposed to both sides of the vertical bars of the reinforcing bars, and has a plurality of through-holes formed at predetermined intervals on each surface thereof; And fixing means for penetrating the through holes of both supporting means in a transverse direction to provide a fixing force to the supporting means so that the reinforcing bars are fixed. The precast reinforcing bar fixing apparatus according to claim 1, wherein the pair of supporting means has a shape of any one of a flat plate, an angled plate, and a U-shaped plate, and the fixing unit is a combination of a bolt and a nut. The method of claim 2, wherein the pair of supporting means is formed of a L-shaped plate, the horizontal portion of the cross-section is supported against the vertical portion of the reinforcing bar, at the position close to the center distance of the 90 ° bent portion of the reinforcement Precast prosthesis fixing device characterized in that the fastening means penetrates in the transverse direction through the through-hole formed in the upright portion of the template. The precast beam reinforcing device fixing device in a beam-column joining structure according to claim 1, wherein the pillars protruding upright from the plurality of main roots and the precast beams supported on both sides of the upper surface of the pillars are provided. Rebars exposed vertically bent on one surface of each of the cast beams, the vertical bars being in contact with each other or positioned at arbitrary intervals; A pair of support means having a first hole formed at one side to be fitted into the transverse muscle of the reinforcing bar, and having a second hole formed at a predetermined distance from the first hole at the other side; And fixing means for penetrating the second hole of the pair of supporting means laterally to provide the fixing force to the supporting means so that the reinforcing bar is fixed. A first step of exposing reinforcing bars bent at a predetermined interval not intersecting with column pillars from one side, arranging shear bars on the top, and then pouring concrete to produce precast beams; A second step of placing the reinforcing bars of the both side precast beams on both sides of the columnar surface; A third step of installing the support so as to face both sides of the vertical muscles of the both side precast prosthesis, and fastening with fixing bolts; And a fourth step of blocking both side spaces of the precast beam with a separate mold and placing concrete. The method of claim 5, wherein the second step comprises: a first process of allowing the vertical bars of the rebars to be positioned at the pillar center lines; And a second process of allowing the reinforcing bars of the opposite precast beams to be aligned in a straight line after performing the first process. The method of claim 5, wherein the fifth step of placing the cheolgolbo on the upper surface before performing the second step; And performing a sixth step of forming a through-hole of the fixing bolt in the rib of the cheolgolbo, wherein the second step includes placing the vertical muscles of the rebar on both sides of the rib surface of the cheolgolbo in the sixth step. Precast prosthesis fixing method characterized in that.