KR20110038587A - A structure of reinforcing rods cages - Google Patents

Abstract

PURPOSE: A rebar cage structure is provided to enable a rebar to be fixed without welding since vertical rebars are alternately fixed to a frame by a nut. CONSTITUTION: A rebar cage structure comprises a frame(10), a horizontal plate(11), a vertical plate(12) and a connecting frame(30). The frame is formed in a circular or polygonal shape. The frame is fixed by the intersection of the vertical plate with the horizontal plate. The frame comprises an end frame(20). A plurality of ribs(13) are installed between the vertical plate and the horizontal plate. The horizontal plate comprises a screw groove. The connecting frame is formed by the insertion of a vertical rebar(16) into the screw groove and by the fastening with a nut(18). Band rebars(17) are fixed to the outside of the vertical rebar by a bonding wire at regular intervals.

Description

A structure of reinforcing rods cages}

The present invention relates to a rebar cage structure that is easy to install, and more particularly, the upper and lower ends of the vertical rebars are fixed to the frame, and the reinforcing cages can be easily installed by providing the reinforcing cages connected to each other. The present invention relates to an easy-to-install reinforcing cage structure that can be formed into a circle or polygon to produce a variety of pillars.

The basic form of the bridge is divided into direct foundation, pile foundation, and casing foundation. Recently, as the vehicle performance is improved and the speed and size are increased, large structures are required, and the structure of the bridge is also gradually increased, leading to the long bridge. As a result, the type of pile foundations uses a lot of large-caliber cast-in-place piles.

The site-casting pile is constructed by forming a large diameter vertical hole on the foundation ground, inserting a reinforcing steel cage manufactured at the manufacturing site, and placing concrete.

The construction of the site-pouring pile method is largely classified into the Benoto method, the earth drill method, and the reverse circulation drill method. Benoto method is to excavate the inside while injecting casing into the ground to prevent the collapse of the ground, and reverse circulation drill method to stabilize and maintain the empty wall by injecting nisu without the casing. The earth drill method is to use the ground breaking prevention casing near the surface of the ground when the ground is soil and weathering zone, and the following is a method of excavation without the casing.

Reinforcing cages for cast-in-place piles are applied to all methods using casing among the three methods. Conventionally, the reinforcing cage used in the above method is completed as one reinforcing cage having a certain shape by assembling the vertical reinforcing bars and the band reinforcing bars integrally in the manufacturing workshop.

However, the reinforcing cage, which is manufactured as described above, is transported by equipment such as a crane and inserted into the cavity of the casing installed on the foundation ground. Of deformation occurs.

In other words, the contractor of the land, which cannot be identified because the construction is performed in the ground, expects the reinforcing cage to be inserted into the casing to stand straight in the center of the casing, but the reinforcing cage is several tons depending on the size of the pile to be constructed. Since it has a very large self-weight at tens of tons, the reinforcing cage is not actually self-reliant, but its shape bends like a toe by its own weight, and the reinforcing bar relies on the inner wall of the casing.

As a result, the reinforcing cage does not maintain the original vertical and horizontal shape and is constructed differently from the drawings, resulting in structural problems, and the reinforcing steel is eventually corroded because the reinforcing bar thickness required for the foundation pile concrete cannot be secured. It is a situation that results in a reduction in the bearing capacity and durability of the pile.

Reinforcing cages are generally constructed by welding, lap joints, or couplers in the construction site, but the reinforcing cages are difficult to align vertically, and work takes a lot of time, resulting in delayed work and inconvenience.

The present invention is to provide a solution to the above-described problem, to provide a simple reinforcement cage structure configured to make a frame in a circular or polygonal shape according to the cross-sectional shape of the column, and to connect the frames by fixing the vertical rebar to the frame with a nut I would like to.

The frame has a donut shape in which a space is formed in the center, and tries to increase the supporting force by fixing the support bar to the space.

In the frame structure, a plurality of ribs are fixed between the horizontal plate portion and the vertical plate portion to increase the support strength of the frame.

The purpose of the construction is to simplify the construction by remarkably reducing or eliminating the time-consuming welding, overlapping, or coupler process by completing the installation of the reinforcing cage by simply tightening the nut in the field.

The present invention is provided with a frame formed in a circular or polygonal in order to achieve the above object is used as the end frame and the connecting frame, the frame is fixed to the vertical plate portion orthogonal to the inner end of the horizontal plate portion, the horizontal and vertical plate portion Ribs are fixed at regular intervals between the plate parts, and a plurality of threaded grooves penetrating the horizontal plate parts at a predetermined interval are formed at regular intervals. In the outer side of the vertical reinforcing bar, the band reinforcing bar (circular or spiral) is fixed to the binding line at regular intervals. It can be welded in the state, and the connecting frame is installed so that the two upper and lower sides to be in contact with each other, the vertical reinforcing bar and the upper Negative vertical rebars are alternately inserted into the screw grooves of two overlapping connecting frames and fixed with nuts, or one connecting frame is positioned between the upper and lower vertical bars connected to each other, and upper and lower vertical bars are alternately inserted into the screw grooves of the connecting frame. It is characterized in that it is fixed with a nut, the frame provides a simple reinforcement cage structure, characterized in that the support bar of the cross shape is fixed to the inside.

As described above, the present invention can be fixed without the need for welding because the vertical rebars of the upper and lower vertical bars are alternately fixed to each other in the frame, and the frame firmly holds the vertical reinforcement and at the same time has the effect of fixing the position have.

It can be connected to a single frame without the need for a separate individual coupler, and the frame can act as a band reinforcing bar at the same time.

There is an effect that can adjust the structural strength by adjusting the thickness of the frame.

In addition, the reinforcing cage can be easily lifted by the crane rope, which not only significantly reduces the construction cost, but also allows rapid completion of subsequent processes, thereby completing the overall process economically.

1 is a perspective view showing a rebar cage structure easy to install of the present invention,
Figure 2 is an exploded perspective view showing a simple structure of a rebar cage structure of the present invention,
Figure 3 is a front view showing a simple reinforced cage structure of the present invention,
Figure 4 is a plan view showing a frame used for easy reinforcing cage structure of the present invention,
Figure 5 is a perspective view showing that the shape of the frame in a rectangular cage structure easy installation of the present invention,
Figure 6 is a perspective view showing that the shape of the frame is connected to one of the connection frame in the rectangular cage structure easy installation of the present invention,
Figure 7 is a perspective view showing that the shape of the frame in the reinforcing cage cage structure of the present invention is rhombus, and
Figure 8 is a perspective view showing that the shape of the frame is connected to one of the connection frame in the reinforcing cage structure of the present invention easy installation.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the specification and claims should not be construed as being limited to the ordinary or dictionary meanings, and based on the principle that the concept of terms can be properly defined to explain the present invention in the best way. It should be interpreted as meanings and concepts corresponding to the technical idea of the present invention.

The present invention is provided with a frame 10 of a circular or polygonal, the frame 10 is used as the end frame 20 and the connecting frame 30 in accordance with the installation position to the vertical reinforcement 16 is connected to the vertical structure To fix the vertical rebar 16 to the frame 10 with a nut.

As shown in FIGS. 1 to 4, when the frame 10 is formed in a circular shape, the vertical plate portion 12 is fixed to the inner end of the horizontal plate portion 11 of the hollow donut-shaped circle by welding or the cross section. The "L" shaped plate member is formed by bending or casting, and a plurality of screw grooves 14 penetrating the upper and lower portions of the horizontal plate member 11 are formed at regular intervals.

5 and 6 show that the shape of the frame 10 is rectangular, and FIGS. 7 and 8 show that the shape of the frame 10 is a rhombus.

Thus, since the frame 10 can be formed in a circular or polygonal shape, it can be suitably applied and used according to the cross-sectional shape of a column.

The frame 10 is used as the end frame 20 and the connecting frame 30 according to the installation position. In the state where the lower end of the vertical reinforcing bar 16 is inserted into the screw groove 14 formed in the end frame 20, which is the frame 10 positioned at the ground end portion, as shown in FIG. 3, the welded portion 16-2 is welded. ) Is formed.

In the frame 10, the vertical plate 12 is orthogonally fixed to the inner end of the horizontal plate 11, and the ribs 13 are fixed at regular intervals between the vertical plate 12 and the horizontal plate 11. Is fixed. The rib 13 firmly fixes the vertical plate portion 12 to the horizontal plate portion 11 to distribute the force acting on the vertical plate portion 12.

A plurality of screw grooves 14 formed to penetrate the horizontal plate portion 11 up and down are formed along the horizontal plate portion 11 at a predetermined interval, and the vertical rebar 16 having the screw portion 16-1 formed on the upper and lower ends thereof. The end is inserted into the screw groove 14 of the connecting frame 30 and fastened with the nut 18.

A strip reinforcing bar 17 is positioned at a predetermined interval on the outside of the vertical reinforcing bar 16 and fixed to the binding line 17-1.

And after the frame 10 is manufactured in the factory, the frame 10 is placed vertically on the assembly stand at the temporary production site of the site, and then the band reinforcing bar 17 is placed on the assembly stand at regular intervals, and the vertical reinforcement 16 is placed. Insert it into the frame 10 to fasten the nut 18.

The nut 18 is fastened to the frame 10 on both sides to fix the vertical reinforcement 16, thereby tying the middle strip reinforcing bar 17 with the binding line 17-1.

The connecting frame 30 of the frame 10 is installed so that the two upper and lower sides to be in contact with each other, the lower vertical reinforcement and the upper vertical reinforcement are alternately inserted into the screw groove 14 of the two overlapping connecting frame 30. Is fixed with the nut 18.

6 and 8 illustrate an embodiment in which the vertical reinforcing bars 16 are fixed to one connection frame 30 at the same time.

One of the connecting frames 30 of the frame 10 is positioned between the upper and lower vertical bars 16 connected to each other, and the upper and lower vertical bars 16 are alternately inserted into the screw grooves 14 of the connecting frame 30 so that the nut ( 18) is fixed.

As described above, the vertical rebars are fixed to the connection frame 30 alternately with each other and are fixed to each other in a balanced manner. And since the nut 18 is fastened up and down about the horizontal plate body 11 of the connecting frame 30 is firmly fixed.

The frame 10 has a cross-shaped support bar 15 fixed inside thereof to increase the supporting force. The support bar 15 may be formed in any of a circular rod shape and a plate shape, and only the cross bars may be maintained.

The end frame 20, which is the frame 10 in contact with the ground tip, is welded to the end of the vertical rebar 16 and the frame to form a vertical.

The frame 10 configured as described above is transported to the site and fastened by fixing the nut 18.

10 frame 11: horizontal plate part
12: vertical plate portion 13: rib
14: screw groove 15: support bar
16: vertical rebar 16-1: threaded portion
16-2: welding part 17: strip reinforcing bar
18: nut 20: end frame
30: connecting frame

Claims (9)

In the frame 10 formed in a circular or polygonal shape, the vertical plate portion 12 is orthogonally fixed to the inner end of the horizontal plate portion 11, and a plurality of vertical plate portions 12 and the horizontal plate portion 11 are disposed therebetween. Ribs 13 are fixed at regular intervals, and a plurality of screw grooves 14 penetrating up and down the horizontal plate body 11 are formed at regular intervals, and vertical reinforcement bars 16 having upper and lower threads 16-1 formed thereon. End of the rod) is inserted into the screw groove 14 of the connecting frame 30 and fastened with the nut 18, and the band reinforcing bar 17 is provided at the outside of the vertical reinforcing bar 16 at regular intervals. Reinforcing cage structure, characterized in that fixed to.
The method of claim 1,
The frame 10 includes an end frame 20 positioned at the ground tip portion, which is welded with the lower end of the vertical reinforcement 16 inserted into the screw groove 14 to form the weld portion 16-2. Reinforcing cage structure characterized by the above-mentioned.
The method of claim 1,
The connecting frame 30 of the frame 10 is installed so that the two upper and lower sides to be in contact with each other, the lower vertical reinforcement and the upper vertical reinforcement are alternately inserted into the screw groove 14 of the two overlapping connecting frame 30. Reinforcing cage structure, characterized in that is fixed to the nut (18).
The method of claim 1,
The connecting frame 30 of the frame 10 is located between the vertical bars 16 of the upper and lower sides connected to each other, and the vertical bars 16 of the upper and lower sides are alternately inserted into the screw grooves 14 of the connecting frame 30 so that the nut 18 Reinforcing cage structure, characterized in that fixed to).
The method of claim 1,
Frame 10 is a reinforced cage structure, characterized in that the support bar (15) of the cross shape is fixed to the inside.
The method of claim 1,
Frame 10 is a reinforced cage structure, characterized in that is produced by bending the line having a "L" shaped cross section.
The method of claim 1,
Reinforcing cage structure, characterized in that the frame 10 is made of an integral casting.
The method of claim 1,
Strip reinforcing bar 17 is a reinforcing cage structure, characterized in that consisting of a circular or spiral winding.
The method of claim 8,
A strip reinforcing bar 17 is a steel cage structure, characterized in that made of steel wire.

Images