KR101239899B1 - Structures and production methods column mesh of slurry wall and construction method using a column mesh of slurry wall - Google Patents

Abstract

The present invention relates to a slurry wall for constructing an underground structure, and since the assembly frame of the reinforcing steel bar forming the slurry wall is used, it is possible to install the site after the production of the plant and to prevent the deformation of the steel reinforcing wire. In addition, when concrete is placed in the excavation hole, the slime concrete rising from the bottom of the excavation hole to the upper part is discharged through the induction pipe to the slime treatment hole, which can shorten the work process and air and form a slurry wall of high quality. The present invention relates to a reinforcing steel structure of a slurry wall and a method of manufacturing the slurry wall using a reinforcing steel network.

Description

Structural and production methods column mesh of slurry wall and construction method using a column mesh of slurry wall}

The present invention relates to a slurry wall for constructing an underground structure.

In general, during the excavation of the ground, in order to excavate the ground safely to perform the earth wall construction, the slurry wall (slurry wall) construction method is widely used as the earth wall.

In the slurry wall construction method, the excavation hole is excavated to a predetermined depth while supplying a stabilizing liquid such as bentonite to prevent the collapse of the excavation surface, and then the rebar network is installed by inserting and installing the reinforcing bars assembled at a predetermined interval from the ground. This is done, and the concrete is poured to build the retaining wall.

However, since the reinforcing bar is very long and heavy, it is manufactured to be separated into two or more in consideration of workability, and when the reinforcing bar is manufactured, sufficient space is required so that the work is performed in a narrow site of an urban area. There was a problem that the efficiency was lowered, and the extra reinforcing bars such as bar chairs were used for the reinforcement of the reinforcing bar with a large unit weight. There was a problem.

In addition, after binding the binding member such as U-BOLT to the fabricated rebar network, when lifting the rebar network through the lifting equipment while the hook of the lifting equipment is fixed to the binding member, local deflection and warping caused by the rebar net weight There was a problem that the reinforcing bars were separated due to deformation, and to solve this problem, the reinforcing bars were fixed by reinforcing bars. there was.

In addition, since the concrete placed in the excavation hole is mixed with the stabilizer, the slime concrete that is pushed up from the bottom of the excavation hole is included and hardened, so that it is not suitable for use as a structure of the slurry wall. In order to install the beam, hardened slime concrete chipping work is needed on the upper part of the slurry wall, but the cost of the work and environmental problems such as civil complaints and waste disposal due to noise and dust are generated. There was a problem of deterioration in quality due to damage of reinforcing bars embedded in the slurry wall.

In view of the above-described conventional defects, the object of the present invention is to reinforce a plurality of reinforcing bars in the installation grooves of the assembly frame spaced at regular intervals, and to support the reinforcing bars so that the installation grooves accommodate the reinforced bars. Reinforcing steel mesh structure and manufacturing method of slurry wall to prevent local deflection and torsional deformation caused by self-weight of reinforcing steel net by making reinforcing steel mesh fixed to fixing frame and fixed with fixing member and combining lifting frame to reinforcing steel mesh And it provides a method of constructing a slurry month using a reinforcing bar network.

In addition, another object of the present invention, there is no deformation and twisting and slipping of the reinforcing bar is formed by the reinforcing bar is installed in the installation groove of the assembly frame, so that the field installation is possible after the factory production, improve the utilization and working conditions of the work space The present invention provides a method and method for constructing a slurry wall of a slurry wall, and a method of constructing a slurry wall using a reinforcing steel network.

In addition, another object of the present invention, after pouring concrete to the drilling hole to form a slurry wall, by releasing the slime concrete rising from the bottom of the drilling hole to the outside of the drilling hole, to eliminate the slime concrete chipping operation The present invention provides a method and method for constructing a slurry wall of a slurry wall, and a method of constructing a slurry wall using a reinforcing steel network.

Rebar network structure of the slurry month of the present invention,

An excavation hole excavated in the ground;

A rebar network inserted into and installed in the excavation hole;

It is configured to include concrete to be hardened by being poured into the excavation hole so that the reinforcing bar network is buried,

The rebar network,

A plurality of assembly frames formed to a size smaller than the diameter of the excavation hole;

A plurality of reinforcing bars having a bent portion at the upper end while being arranged on the assembly frame;

Characterized in that it comprises a support for fixing to the assembly frame to prevent the separation of the plurality of reinforcing bars.

According to the present invention, a plurality of installation grooves are spaced apart at regular intervals in the upper and lower frames of the assembly frame to reinforce the projection grooves of the reinforcement, the support groove is fixed to the fixing member so that the receiving groove is accommodated in the reinforcement reinforcement After fabricating the reinforcing bar, the lifting frame is coupled to the lifting frame so as to be hooked to the bent portion of the reinforcing bar reinforced to the reinforcing bar, so that the sliding of the reinforcing bar does not occur without causing local sagging and warping deformation due to the weight of the reinforcing bar. Therefore, after the construction of the slurry wall, it is possible to reduce the construction error of the dowel bar at the time of gulto may have the advantage of improving the quality of the slurry wall.

In addition, according to the present invention, since the projection groove of the rebar is caught in the installation groove of the upper and lower frames and the support member does not cause slippage, it is possible to install the site after manufacturing the factory, so the working conditions are improved by utilizing the working space and improving the working efficiency. Will have the advantage to improve.

In addition, according to the present invention, when placing concrete in the drill hole in which the reinforcing bar is inserted, the slime concrete is mixed with the stabilizer and rises from the bottom of the drilling hole to the upper part is discharged to the slime treatment port through the induction pipe, the slime concrete chipping work By eliminating the operation process and the air and at the same time forming a slurry wall of superior quality, the user can have the advantage of improving the reliability of the product.

1 is a perspective view of the present invention rebar network
Figure 2 is a side configuration diagram of the present invention rebar network
3 is an enlarged partial view of FIG.
Figure 4 is a cross-
Figure 5 is a cross-sectional view showing another embodiment of the support of the present invention
6a to 6h is a construction process diagram of the present invention

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the rebar network of the present invention, Figure 2 is a side configuration diagram of the rebar network of the present invention.

Rebar network structure of the present invention slurry wall (W), the excavation hole 100 is excavated in the ground is configured, the reinforcement net 200 is inserted into the excavation hole 100 is configured, the reinforcement net 200 It is configured to include a concrete 300 is poured into the excavation hole 100 so as to be buried, the reinforcing bar 200, a plurality of assembly frame formed to a size smaller than the diameter of the excavation hole 100 210 is configured, a plurality of reinforcing bars 220 formed with a bent portion 222 at the upper end while being arranged in the assembly frame 210, the assembly frame to prevent the departure of the plurality of rebars 220 ( It is configured to include a support 230 to be fixed to the fixing member 240 to the 210, as described in more detail as follows.

The assembly frame 210, the upper and lower frames 211, 212 is provided with an installation groove (211 ', 212') spaced apart a predetermined interval to accommodate the reinforcing bar 220, the upper. A support frame 213 is provided to be fixed between the lower frames 211 and 212 to maintain a constant gap.

The support 230 is an installation groove 231 ′ to accommodate the reinforcing bars 220 arranged in the upper and lower frames 211, 212 and the installation grooves 211 ′ and 212 ′ of the assembly frame 210. It is preferable that the formed support member 231.

The support 230 is a 'U'-shaped bolt for receiving the reinforcing bars 220 arranged in the upper and lower frames 211, 212, the installation grooves 211', 212 'of the assembly frame 210 ( 232) may be used.

The fixing member 240 is preferably a bolt, nut.

It is provided to include a lifting frame 250 coupled between the reinforcing bars 220 arranged on the assembly frame 210 to be caught by the bent portion 222, which can hang the hook of the lifting equipment to the lifting frame 250 It is preferable that the lifting hole 251 is formed.

The following describes the manufacturing process of the present invention configured as described above.

First, forming the assembly frame 210 at intervals smaller than the diameter of the excavation hole 100 to be excavated to the ground to be located on the ground at a predetermined interval, the assembly frame 210 is the installation groove 212 'is formed at a predetermined interval The support frame 213 is fixed to the lower frame 212 at a predetermined interval, and the mounting frame 211 ′ is fixed to the support frame 213 by mounting the upper frame 211 formed at a predetermined interval.

Here, the frames 211, 213, 212 may be fixed by clamps or the like, but may be fastened with bolts / nuts through through holes (not shown) formed in the frames 211, 213, 212. It is preferable to fix it.

When the assembly frame 210 is formed in the above process, as shown in Figures 3 to 4, the installation grooves 211 formed at regular intervals in the upper and lower frames 211, 212 of the assembly frame 210. ') (212') is bent to the reinforcing bars 220 formed on the upper end of the bent portion 222, respectively, the projection groove 221 formed at a predetermined interval on the outer circumferential surface of the reinforcing bar 220 is the installation groove 211 '( 212 ′), the support 230 is seated on the upper and lower frames 211 and 212 to fix the reinforcing bars 220 installed in the installation grooves 211 ′ and 212 ′. It is fixed by the fixing member 240 in the state.

At this time, the support 230, the upper and lower frames 211 (2) (2) to accommodate the reinforcing bars 220 installed in the installation grooves (211 ', 212') of the upper and lower frames (211, 212) ( The support member 231 in which the installation grooves 231 'are formed may be seated at the same interval as the installation grooves 211' and 212 'of the 212, and as shown in FIG. It is also possible to use multiple 'U' shaped bolts 232 to accommodate.

Fastening bolts / nuts of the fixing member 240 through a through hole (not shown) through the same line to the upper frame 211 and the support member 231 and the lower frame 212 and the support member 231. It may be fixed, and after protruding the 'U'-shaped bolt 232 through the through hole (not shown) through the upper and lower frames 211, may be fixed by fastening the nut of the fixing member 240 It is.

After forming a rectangular reinforcing bar 200 to reinforce a plurality of reinforcing bars 220 'spaced apart at regular intervals so as to be orthogonal to the reinforcing bars 220 on the reinforcing bars 220, it can be moved to the installation site, the reinforcing bars The network 200 may be used by connecting at least one or more depending on the interval of the excavation hole.

It describes the process of constructing the slurry wall (W) using the reinforcing bar 200 formed by the above process.

First, as shown in FIG. 6A, a pair of guide walls W 'are formed on the ground on which the slurry wall W is formed by being excavated from the ground to be spaced apart by the interval of the excavation hole 100. Induction discharge pipe 400 to guide the discharge of the slime concrete (C) is preferably installed in any one of the guide wall (W) of the pair of guide walls (W).

When the guide wall (W ') is formed, the excavation hole 100 through the excavation equipment is excavated between the guide wall (W'), supplying a stabilizer such as bentonite to the excavation hole 100 of the building structure Excavate deeper than basement and basement.

When the excavation hole 100 is excavated, the upper and lower frames 211 and 212 installation grooves (ie, between the reinforcing bars 220 arranged in the reinforcing steel bar 200 manufactured by the above process, that is, the assembly frame 210) After coupling the lifting frame 250 between the reinforcing bars 220 arranged in 211 ′) 212 ′, the upper surface of the lifting frame 250 is bent 222 of the lifting frame 250 by moving the lifting frame 250. ).

The bent portion 222 lifts the rebar network 200 vertically by moving the lifting equipment in the state in which the hook of the lifting equipment is coupled to the lifting hole 251 of the lifting frame 250, and then moves to the excavation hole. 100 moves to the upper position, in this state by the operation of the lifting equipment is to be inserted into the excavation hole 100 while moving the rebar network 200 to the bottom.

The reinforcing bar 200 is preferably a spacing control frame (not shown) so that the reinforcing bar 200 is located in the center of the excavation hole (100).

When the reinforcing bar 200 is inserted into the excavation hole 100, the support rod 252 is coupled to the lifting hole 251 while the ring of the lifting equipment is dismantled in the lifting hole 251 of the lifting frame 250. After the sequential implementation, the support rod 252 is seated on the upper surface of the guide wall (W ') to be supported.

In this state, the slime treatment sphere 400 'is formed at a position lower than the induction discharge pipe 400, and the slime treatment sphere 400' is to excavate the ground, or to store the slime concrete on the excavated ground to facilitate the treatment. It is possible to position the member of.

When the induction discharge pipe 400 is in communication with the slime treatment unit 400 ′, the concrete is poured into the excavation hole 100, which is mixed with a stabilizer such as dirt and bent knight under the excavation hole 100. Slime concrete (C) is formed, this slime concrete (C) is moved to the upper drilling rig 100 by the concrete poured in the excavation hole (100) and the slime treatment sphere 400 'through the induction pipe (400) To be discharged.

When the slime concrete (C) is discharged to the slime treatment unit 400 ′, the pouring of the concrete is stopped in the excavation hole 100, the cured concrete 300 is cured, and after curing the concrete 300, the lifting frame ( A slurry wall (W) is formed while leaving the lifting frame 260 to the reinforcing bar 200 in a state in which the support bar 262 of the 260 is separated from the lifting hole 261.

In addition, since the concrete is not poured on the reinforcing bar 220 of the upper portion of the slurry wall (W), a cap beam may be easily installed, and the damage of the reinforcing steel 200 disposed on the slurry wall W may be prevented. To improve the quality of the structure.

As described above, the present invention, although described by the limited embodiments and drawings, terms or words used in the present specification and claims are not limited to the ordinary or dictionary meanings and should not be interpreted, the technical spirit of the present invention It must be interpreted to mean meanings and concepts. Therefore, the configuration shown in the embodiments and drawings described herein are only one embodiment of the present invention, and do not represent all of the technical spirit of the present invention, various changes within the scope of the claims of the present invention It should be understood that there may be equivalents and variations.

100: excavation 200: rebar network
210: assembly frame 220: rebar
230: support 240: fixing member
250: lifting frame 400: induction discharge pipe
400 ': Slime treatment

Claims (10)

An excavation hole excavated in the ground;
A rebar network inserted into and installed in the excavation hole;
It is configured to include concrete to be hardened by being poured into the excavation hole so that the reinforcing bar network is buried,
The rebar network,
A plurality of assembly frames formed to a size smaller than the diameter of the excavation hole;
A plurality of reinforcing bars having a bent portion at the upper end while being arranged on the assembly frame;
It characterized in that it comprises a support for fixing the reinforcing bar is installed in the upper and lower frame installation grooves of the assembly frame to prevent the separation of the plurality of reinforcement to the assembly frame by receiving the installation groove of the support member Rebar network structure of slurry wall.
The assembly frame according to claim 1,
An upper and lower frames formed with spaced intervals in which installation grooves are received to accommodate the reinforcing bars;
Reinforcing steel network structure of the slurry wall, characterized in that provided with a support frame fixed to maintain a constant interval between the upper and lower frames.
delete The method according to claim 1,
The support is a slurry wall structure of the slurry wall, characterized in that the 'U'-shaped bolt for receiving the reinforcing bar reinforcement in the upper and lower frame installation groove of the assembly frame.
The method according to claim 1,
The fixing member is a bolt, nut reinforcing steel structure of the slurry wall, characterized in that.
The method according to claim 1,
Reinforcing bar network structure of the slurry wall, characterized in that it comprises a lifting frame coupled between the reinforcing bar reinforced to the assembly frame to be caught in the bent portion.
The method of claim 6,
Reinforcing bar network structure of the slurry wall, characterized in that the lifting hole is formed to hang the hook of the lifting equipment in the lifting frame.
Disposing an assembly frame formed by fixing a support frame between upper and lower frames formed at predetermined intervals in the installation groove at a predetermined interval;
Reinforcing the bar with the bent portion formed in the installation grooves of the upper and lower frames;
Mounting the support holes on the upper and lower frames so that the installation grooves of the support member accommodate the reinforcing bars arranged in the installation grooves;
Fixing the supporter and the upper and lower frames with a fixing member;
Reinforcing steel mesh fabrication method of the slurry wall characterized in that it comprises a step of fixing a plurality of reinforcing bars to be orthogonal to the reinforcing bars fixed to the upper and lower frames.
Forming a guide wall on which the guide discharge pipe is installed at one side while being spaced apart by an interval of the excavation hole on the ground;
Digging the ground between the guide walls with an excavator to form an excavation hole;
Coupling the lifting frame between the bars of the assembly frame in which the rebar network is manufactured by the method of claim 8 so as to be caught in the bent portion;
Combining the lifting equipment's hooks with the lifting holes of the lifting frame to lift the rebar network, and inserting the lifted rebar network into the excavation hole;
When the reinforcing hole is installed in the excavation hole, after dismantling the ring of the lifting equipment in the lifting hole of the lifting frame, by coupling a support rod to the lifting hole to be seated on the guide wall upper surface;
Excavating the ground to be located below the induction discharge pipe to form a slime treatment tool;
When the slime treatment tool and the induction discharge pipe communicate with each other, placing concrete in the excavation hole and mixing the poured concrete, soil, and stabilizer so that the slime concrete rising from the lower excavation hole is discharged to the induction discharge pipe and stored in the slime treatment hole;
If the slime concrete is discharged and stored in the slime treatment port through the induction discharge pipe, curing the concrete placed in the excavation hole in the state of stopping the concrete pouring into the excavation hole;
After the concrete curing, the construction method of the slurry wall using a reinforcing bar, characterized in that comprising the step of leaving the lifting frame at the bent portion of the reinforcing bar.
The method according to claim 9,
Method of constructing a slurry wall using a reinforcing bar network, characterized in that further comprising the step of installing a cam beam on the reinforcing bar upper portion of the slurry wall.

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