KR101216716B1 - Diaphragm wall and this construction technique - Google Patents

Abstract

According to the present invention, after excavating the trench by a temporary earth wall method having an intermediate function between a Soil Cement Wall (SCW) method and an underground continuous wall (Slurry Wall), the trench hollow wall is maintained using a bentonite stabilizer, and the steel pile is in the trench. After inserting the low strength concrete, the underground continuous wall is constructed, and it has excellent degree of stiffness and the rigidity of the cross section. The purpose of the present invention is to provide a continuous ground wall and its construction method which are safe in the worst ground conditions because of excellent workability, easy verticality management, and excellent access and water tightness.
The underground continuous wall construction method according to the present invention for achieving the above object comprises the steps of: (I) to form a shallow trench by excavating the ground at a predetermined position and the predetermined position for the underground continuous wall construction; Installing the formwork at regular intervals on both sides of the shallow trench, placing reinforcement to the formwork, and placing and curing concrete to form guide walls (II); Excavating the inner wall of the guide wall to have a predetermined depth downward to form a deep trench (III); (IV) installing a grating-shaped guide frame on the shallow trench; Assembling a steel pile consisting of a plurality of H beams (V); Inserting a steel file into a deep trench in the guide frame (VI); (I) inserting a trailing tube into a shallow trench into which the steel pile is inserted; It is characterized by constructing a continuous underground wall by sequentially performing the step (Ⅷ) of placing and curing low-strength concrete in a deep trench using the tremi tube.
In addition, the underground continuous wall according to the present invention for achieving the above object is characterized in that it was constructed by the underground continuous wall construction method of claim 1.

Description

Diaphragm wall and this construction technique

The present invention relates to an underground continuous wall and a construction method thereof, and in particular, after excavating a trench by a temporary earth wall method having an intermediate function between a SCW (Soil Cement Wall) method and a slurry wall, a bentonite stabilizer is used. By maintaining the trench hollow wall, and inserting the steel pile into the trench, the present invention relates to an underground continuous wall and a construction method thereof for forming concrete continuous walls by pouring concrete.

In general, the underground continuous wall method provides a stabilizer to prevent the collapse of the excavation surface by supplying a stabilizer, to block the inflow of groundwater, and to excavate a bucket or trench cutter designed for earth excavation to a predetermined depth. After that, the reinforcing concrete wall is formed in the ground by repeating the operation of pouring the reinforcing bar network and placing concrete.

It is used as a foundation for dams, or plays an excellent role as a seismic barrier or vibration barrier.

In addition, when excavating earth and sand to construct the underground structure of the building, it can serve as a temporary earth wall, and is utilized as a main body wall rather than a temporary wall.

When excavating the soil in the trench, the stabilizer is more specific than water, preventing the collapse of the excavation surface, penetrating into the soil pores of the excavation surface and forming a barrier film to obtain the order effect of groundwater.

In the construction method, after the guide wall is installed according to the thickness and position of the designed wall, it is divided and set for each element, and when excavation is completed to a predetermined design depth, surging is performed to remove the remaining granules in the trench.

After entering the assembled reinforcing bar network, install the trem tube, and then finish the one element by recovering the stabilizer while pouring concrete from the excavated bottom.

Conventional underground continuous wall construction method consisting of the steps as described above has the following problems.

First, the conventional underground continuous wall construction method has a relatively expensive problem compared to the general earth process.

Second, the stability of the trench excavation surface is secured by the stabilizer, but there is a problem that the stability is impaired depending on the condition of the soil or groundwater.

Third, slime mixed with suspended solids in the stabilizer settled down in the trench with the passage of time, and it is called slime. It may cause water leakage or stick to the joint.

Thus, the present invention was devised to solve the problems described above, after excavating the trench by a temporary earth wall method having an intermediate function between the SCW (Soil Cement Wall) method and the slurry wall (Slurry Wall), The bentonite stabilizer is used to maintain the trench hollow wall, insert the steel pile into the trench, and then install the low strength concrete to construct the continuous wall of the underground. It is suitable for urban construction because of low noise and vibration, and it has excellent workability on the sand layer containing amber stone, easy to manage verticality, and excellent access and water tightness. The purpose is to provide a construction method thereof.

The underground continuous wall construction method according to the present invention for achieving the above object comprises the steps of: (I) to form a shallow trench by excavating the ground at a predetermined position and the predetermined position for the underground continuous wall construction; Installing the formwork at regular intervals on both sides of the shallow trench, placing reinforcement to the formwork, and placing and curing concrete to form guide walls (II); Excavating the inner wall of the guide wall to have a predetermined depth downward to form a deep trench (III); (IV) installing a grating-shaped guide frame on the shallow trench; Assembling a steel pile consisting of a plurality of H beams (V); Inserting a steel file into a deep trench in the guide frame (VI); (I) inserting a trailing tube into a shallow trench into which the steel pile is inserted; It is characterized by constructing a continuous underground wall by sequentially performing the step (Ⅷ) of placing and curing low-strength concrete in a deep trench using the tremi tube.

In addition, the underground continuous wall according to the present invention for achieving the above object is characterized in that it was constructed by the underground continuous wall construction method of claim 1.

As described above, the underground continuous wall and its construction method according to the present invention has the following effects.

First, the present invention is excellent in the degree of orderability and rigidity of the cross section to protect the adjacent structure and suppress the ground subsidence.

Second, the present invention is suitable for downtown construction because of less noise and vibration.

Third, the present invention is excellent in workability in the history layer containing amber stone.

Fourth, the present invention is easy to manage the verticality.

Fifth, the present invention is excellent in access and watertightness and is a safe method even in the worst ground conditions.

1 to 12 is a process chart showing the underground continuous wall construction sequence according to the present invention.

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

1 to 12 is a process chart showing the construction sequence of the underground continuous wall according to the present invention.

As shown in these drawings, the underground continuous wall construction method according to the present invention excavates the ground 10 at a predetermined position to build the underground continuous wall (W) to a predetermined width and depth to form a shallow trench 12 Step (I); Forming the molds 14 on both sides of the shallow trenches 12 at regular intervals, placing the reinforcement 16 on the formwork 14 and placing and curing the concrete 18 at the same time, the guide wall 20 Step (II); Excavating the inner wall of the guide wall (20) to have a predetermined depth downward to form a deep trench (III); (IV) installing a grid-shaped guide frame (24) on top of the shallow trench (12); Assembling the steel pile 28 composed of the plurality of H beams 26; Inserting a steel pile (28) into the deep trench (22) in the guide frame (24); Inserting a trailing tube (30) into the shallow trench (12) into which the steel pile (28) is inserted; The step (Ⅷ) of pouring and curing the low-strength concrete 32 in the deep trench 22 by using the tremic tube 30 is sequentially performed to construct the underground continuous wall (W).

Here, after forming the deep trench 22, a step of injecting bentonite stabilizer into the deep trench 22 is added.

In addition, the low strength concrete 32 is composed of 1 to 2 parts by weight of cement, 0.35 to 0.45 parts by weight of bentonite, and 9.15 to 9.53 parts by weight of water.

Then, the above-mentioned steps (I to VII) are sequentially performed to construct the unit wall (W1), and the above-mentioned steps (I to VII) are repeated at different positions from the unit wall (W1) to repeat the other unit walls. Construct (W2), and repeat the above-mentioned steps (I to VII) between the unit wall (W1) and the other unit wall (W2) to construct the connecting wall (W3) to construct the underground continuous wall (W). do.

That is, the underground continuous wall construction method according to the present invention is the shallow trench 12 forming step (I), the guide wall 20 forming step (II), the deep trench 22 forming step (III), the guide frame 24 Installation stage (Ⅳ), steel pile 28 assembly stage (Ⅴ), steel pile 28 insertion stage (VI), tremi tube 30 insertion stage ((), low-strength concrete (32) pouring and curing step ( Ⅷ) is to be carried out sequentially to construct underground continuous wall (W).

Here, the trench 12 forming step (I) is a step of excavating the ground 10 at a predetermined position for the construction of the underground continuous wall (W) to a predetermined width and depth, as shown in FIG.

Subsequently, in the forming step (II) of the guide wall 20, as shown in FIG. 2, formwork 14 is installed at both sides of the shallow trench 12 at regular intervals, and reinforcement is formed in the formwork 14. At the same time as placing (16), the concrete 18 is poured and cured to form.

Subsequently, the deep trench 22 forming step (III) is excavated to have a constant depth downward in the inner side of the guide wall 20, as shown in FIG.

Here, after forming the deep trench 22, a step of injecting bentonite stabilizer into the deep trench 22 is added.

Subsequently, in the installation step (IV) of the guide frame 24, the guide frame 24 is installed in a lattice shape on the top of the shallow trench 12.

Subsequently, assembling the steel pile 28 (V), as shown in FIG. 5, is woven into the plurality of H beams 26 to form the steel pile 28.

Subsequently, the steel pile 28 insertion step VI inserts the steel pile 28 into the deep trench 22 in the guide frame 24, as shown in FIG.

Subsequently, as shown in FIG. 7, the trailing tube 30 is inserted into the shallow trench 12 into which the steel pile 28 is inserted.

Subsequently, as shown in FIG. 8, the low-intensity concrete 32 is placed in the deep trench 22 by injecting the low-intensity concrete 32 into the tremic tube 30. 32) The unit wall W1 as shown in FIG. 9 is completed by pouring and curing.

On the other hand, the above-mentioned steps (I to VII) are carried out sequentially to construct the unit wall (W1), and repeat the above-mentioned steps (I to VII) at a position spaced apart from the unit wall (W1) by another unit. Construct the wall W2, and repeat the above steps I to V in the middle between the unit wall W1 and the other unit wall W2, and as shown in Figs. 10 and 11, the connecting wall W3. ), The underground continuous wall (W) as shown in Figure 12 is constructed.

10: Floor 12: Shallow Trench
14: Formwork 16: Rebar
18: concrete 20: guide wall
22: deep trench 24: guide frame
26: H beam 28: steel pile
30: tremi tube 32: low strength concrete
W1: first unit wall W2: second unit wall
W3: connecting wall W: underground continuous wall

Claims (5)

Excavating the ground 10 at a predetermined position for the construction of the underground continuous wall W to a predetermined width and depth to form a shallow trench 12 (I); Forming the molds 14 on both sides of the shallow trenches 12 at regular intervals, placing the reinforcement 16 on the formwork 14 and placing and curing the concrete 18 at the same time, the guide wall 20 Step (II); Excavating the inner wall of the guide wall (20) to have a predetermined depth downward to form a deep trench (III); After forming the deep trench (22), injecting bentonite stabilizer into the deep trench (22); (IV) installing a grid-shaped guide frame (24) on top of the shallow trench (12); Assembling the steel pile 28 composed of the plurality of H beams 26; Inserting a steel pile (28) into the deep trench (22) in the guide frame (24); Inserting a trailing tube (30) into the shallow trench (12) into which the steel pile (28) is inserted; Placing and curing the low-strength concrete (32) consisting of 1 ~ 2 parts by weight of cement, 0.35 ~ 0.45 parts by weight, 9.15 ~ 9.53 parts by weight of water in the deep trench (22) using the tremi tube (30) ) To sequentially construct the unit wall (W1), and repeating the above-mentioned step (I ~ 에) at the position spaced apart from the unit wall (W1) by a predetermined interval to construct another unit wall (W2), Underground continuous wall, characterized in that the construction of the continuous wall (W) by constructing the connecting wall (W3) by repeating the above steps (I ~ Ⅷ) between the unit wall (W1) and the other unit wall (W2). Construction method. delete delete delete An underground continuous wall constructed by the underground continuous wall construction method of claim 1.

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