KR101897143B1 - The upper structure and a method of capping a continuous barrier wall construction for underground - Google Patents

Abstract

In the present invention, capping of 1.2 to 1.5 m in width is carried out for protecting and reinforcing underground continuous water walls and regulating parts on the upper part of the underground continuous water wall composed of conventional water, cement and bentonite, And an upper capping structure for an underground continuous water wall and a construction method thereof.
To achieve the above object, according to the present invention, there is provided an upper capping structure for an underground continuous water barrier wall, comprising: a water barrier wall formed by mixing predetermined water, cement and bentonite, And a top capping (T) having a length is formed.
According to another aspect of the present invention, there is provided a method for constructing an underground continuous water wall for mixing water with cement and bentonite to construct a water wall W, (W); Installing a mold (F) at both ends of the cut off water wall (W); And forming an upper capping (T) by placing and curing a top capping mixture composed of water, cement and bentonite in the mold (F).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an upper capping structure for an underground continuous water wall,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an upper capping structure for an underground continuous water wall and a method of constructing the same, and more particularly, to an undercapacity continuous water wall, The present invention relates to an upper capping structure for an underground continuous water barrier wall and a method of constructing the capping structure for capping with a width of 1.2 to 1.5 m for protection and reinforcement of a cap.

Here, the present invention is clearly made clear that the invention is based on the registered patent No. 10-1179867 owned by Daejin SCB, the owner of the present invention. (At the same time as completion of construction of other facilities, you can check it on the site currently under construction.)

Generally, a CIP method, a high pressure injection injection (grouting) method, a sheet pile method and the like are used for the water wall construction method.

Here, the CIP (Cast In Place) method is a method in which a foundation is excavated by a boring machine, a pre-assembled reinforced bar and coarse aggregate is filled in the excavation hole, and a mortar is injected to construct a pile on the site. , The noise and vibration are small, and the substitution method is excellent in stiffness and independence, but there is a problem that air for construction and construction cost are increased.

In addition, the high-pressure injection injection (grouting) method is a kind of induction injection method in which a ground is crushed by using an ultra-high-pressure water injection method in the ground and a cavity is filled with a grout material, and a jet nozzle is mounted on the rod end, The injected material of high pressure is injected horizontally from the nozzle while the nozzle is rotated constantly, and the gap of the cutting form is formed by injecting the injection material in the horizontal direction, and the injection material is filled therein. It is a method to make payment.

The above-mentioned high-pressure injection injection (grouting) method can be applied to all kinds of soil regardless of the ground, but it is difficult to construct the gravel all-weather stone layer with many attached equipments and the flow rate in the ground, .

In addition, the sheet file method is a method of forming a wall by continuously connecting sheet files, which has a high water repellency and thus has a problem in that the construction cost is particularly high as compared with a construction method suitable for a soft foundation or other construction methods.

In order to solve the above-mentioned problems, a method of constructing an underground water wall using a rock layer excavation bucket has been proposed.

In the method of constructing the underground water wall using the conventional rock slab excavation bucket, the geologic structure of the target ground G is investigated in depth to confirm the state of the target ground G, and the vicinity of the excavator, the pond, (S1) of installing various equipment such as a bentonite storage tank, a movable water storage tank, a positive displacement pump, and a mixed plant to prepare for installation of an underground water wall (W); The target ground G is divided into a predetermined cylinder 10; A blades (20) having a plurality of blades extending integrally at the tip of the cylinder (10); A step (S2) of forming a trench (T) by excavating at a predetermined width and depth with a rock layer excavation bucket (E) welded to the back surface of the cylinder (10) and composed of an extensional stick (30) formed in a tip shape; (S3) charging the trench (T) with bentonite (B); Wherein the bentonite (B) is filled with a backfill material composed of a cement mixture (C) or a soil mixture (S), the cement mixture (C) consisting of 1,000 liters of water, 200 kg of cement and 60 kg of bentonite, The above-mentioned gypsum mixture S is prepared by mixing 25 to 100 kg of cement and 15 to 100 kg of bentonite in 50 to 200 kg of excavated soil, adding 35% of water to the total weight of these constituents, S) (S4); And a step S5 of curing the backfill material for a certain period of time to sequentially construct the water-distributing walls W.

The method of constructing the underground water wall using the conventional rock layer excavation bucket having the above structure can not find any problem in terms of construction of the underground water wall.

However, there is a problem in that a method of constructing an underground water wall using a conventional rock layer excavation bucket is required to protect and reinforce the underwater water wall upper part and the control part after the construction, and also the embankment, loss, and deformation of the underground water wall occur .

Registration No. 10-1179867 (Registration date: August 30, 2012)

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an underground continuous water wall composed of water, cement and bentonite, A capping structure having a width of 1.2 to 1.5 m for deformation and the like, so that the degree and stability of the hydraulic structure can be ensured at the same time, and an object of the present invention is to provide a construction method of the upper capping structure.

In order to achieve the above object, an upper capping structure for an underground continuous water barrier wall according to the present invention is a water barrier wall W formed by mixing predetermined water, cement and bentonite, wherein an upper portion of the water barrier wall W has a width of 1.5 m and a thickness And a length of at least 1 m. The water wall W is composed of a mixture of water, cement and bentonite, and the blending ratio of the mixture is 200 liters of water, 60 kg of bentonite And the upper capping T is composed of a mixture of water, cement and bentonite, and the mixing ratio of the mixture is composed of 400 kg of cement and 60 kg of bentonite in 1000 L of water, The upper capping T is formed to have a predetermined width and thickness, and then the surface of the upper capping T is covered with a certain height to maintain the state of the ground .

In accordance with another aspect of the present invention, there is provided a method of constructing an underground continuous water wall for mixing water, cement and bentonite to form a water wall W, , And the mixing ratio of the mixture is set to 1000 L of water, and a water wall W is formed as a mixture for a water wall consisting of 200 kg of cement and 60 kg of bentonite; Cutting a predetermined thickness of 40 cm on the upper part of the water wall W; Installing a mold (F) at both ends of the cut off water wall (W); The mixture of water, cement and bentonite in the mold (F) was blended with a mixture of cement and bentonite in 1000 liters of water. The upper capping mixture was poured and cured to have a width of 1.5 m and a thickness of 0.5 m Forming a top capping (T) having a length of at least 1 m and a strength at least two times higher than that of the lower wall (W); And filling the upper portion of the upper capping T with a predetermined width and thickness.

That is, the present invention is characterized in that the upper part of the existing ground water wall is partially cut off, and the upper capping is integrated with the subsequent upper capping without separating the material (water wall + upper capping).

As described above, the upper capping structure for underground continuous water barrier wall and the construction method thereof according to the present invention are capable of permanent wall construction by the upper capping for protection and reinforcement of underground continuous water wall and regulating part.

1 is a perspective view showing a conventional rock layer excavation bucket,
2 is a basic conceptual diagram for constructing an underground water wall using a conventional rock layer excavation bucket,
3 is a process diagram showing a process of constructing an underground water wall using a conventional rock layer excavation bucket,
FIG. 4 is an exemplary view showing an installed water wall constructed using a conventional rock layer excavation bucket,
Fig. 5 is an illustration showing an upper capping for an underground continuous water barrier wall according to the present invention,
6A to 6D are process drawings showing a process of constructing upper capping for an underground continuous water wall according to the present invention.

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

5 is an exemplary view showing top capping for an underground continuous water barrier wall according to the present invention.

As shown in this drawing, the upper capping structure for an underground continuous water barrier wall according to the present invention is a water barrier wall W constructed by mixing predetermined water, cement and bentonite, and has a predetermined width An upper capping T having a thickness and a length is formed.

Here, the above-mentioned water barrier wall W is described in the prior art document 10-1179867 of the present invention, and the further explanation will be omitted.

However, the upper capping structure for an underground continuous water barrier wall according to the present invention is a structure and a method for applying upper capping to a conventional water barrier wall.

Here, the water wall W is composed of a mixture of water, cement and bentonite, and the blending ratio of the mixture is composed of 200 liters of cement and 60 kg of bentonite in 1000 liters of water.

Also, the upper capping T placed on the water wall W is composed of a mixture of water, cement and bentonite, and the blending ratio of the mixture is composed of 400 kg of cement and 60 kg of bentonite in 1000 L of water.

That is, the upper capping T has a strength at least twice as high as that of the lower wall W.

The upper capping T is made of 1.5 m wide and 0.5 m thick and has a length of 1 m or more.

Hereinafter, the construction of the upper capping for an underground continuous water barrier wall constructed as described above according to the present invention will be described.

6A to 6D are process drawings illustrating a process of constructing upper capping for an underground continuous water barrier wall according to the present invention.

As shown in these drawings, the method of constructing the upper capping for underground continuous water barrier wall according to the present invention is a method for constructing an underground continuous water barrier wall in which predetermined water, cement and bentonite are mixed to construct a water barrier wall W, Cutting a predetermined thickness of the upper portion of the substrate; Installing a mold (F) at both ends of the cut off water wall (W); After the mold (F) is installed, an upper capping mixture composed of water, cement and bentonite is placed and cured to form an upper capping (T).

Here, the construction of the above-mentioned water-bearing wall W is described in the prior art document 10-1179867 of the present invention, and the further explanation will be omitted.

However, at the time of construction of the water barrier wall W, in the present invention, the material of the water barrier wall W is composed of a mixture of cement and bentonite, and the blending ratio of the mixture is composed of 200 kg of cement and 60 kg of bentonite in 1000 L of water.

Also, the upper capping T is composed of a mixture of water, cement and bentonite, and the blending ratio of the mixture is composed of 400 kg of cement and 60 kg of bentonite in 1000 L of water.

That is, the upper capping T has a strength at least twice as high as that of the lower wall W.

The upper capping T has a width of 1.5 m and a thickness of 0.5 m, and the length of the upper capping T is a total length of the extension.

On the other hand, the upper portion of the upper capping T is finished to have a certain width and thickness, and is then covered with a certain height to maintain the ground state.

That is, the upper capping method for underground continuous water wall according to the present invention is composed of a mixture of cement and bentonite, and the mixing ratio of the mixture is 1000 l of water, and is mixed with 200 kg of cement and 60 kg of bentonite. Construction.

Subsequently, as shown in FIG. 6A, a predetermined thickness of about 40 cm on the upper part of the water wall W is cut.

Subsequently, as shown in FIG. 6B, a mold F is installed at both ends of the cut off water wall W.

Next, as shown in FIG. 6C, the mold F is composed of a mixture of water, cement and bentonite, and the mixture ratio of the mixture is 1000 liters of water, and a top capping mixture composed of 400 kg of cement and 60 kg of bentonite is laid .

Then, as shown in Fig. 6D, after curing the upper capping mixture, the mold is demoulded to form a top capping T consisting of 1.5 m wide and 0.5 m thick, the length of which is a full extension.

After completion of the upper capping T, the upper surface is covered with a local soil so as to be maintained in a ground state.

As described above, the upper capping construction method for an underground continuous water barrier wall according to the present invention is characterized in that protection (subsidence, loss, deformation, etc.) of an underground continuous water barrier wall and a damper is performed on an upper part of an underground continuous water barrier wall composed of water, cement and bentonite, , And capping with a width of 1.2 to 1.5 m for reinforcement is installed to secure the degree and stability of the hydraulic structure at the same time.

The preferred embodiments described in the specification of the present invention are intended to be illustrative, not limiting, and the scope of the present invention is indicated by the appended claims, and all modifications that come within the meaning of the claims are included in the present invention. .

10: cylinder 20: blade
30: Extension stick B: Bentonite
C: Cement mixture E: Excavation bucket
F: Form G: Ground
S: Soil mixture T: Upper capping
W:

Claims (7)

In a water-receiving wall (W) formed by mixing predetermined water with cement and bentonite,
An upper capping T having a width of 1.5 m and a thickness of 0.5 m and a length of 1 m or more is formed on the upper part of the water wall W,
The water wall W is composed of a mixture of water, cement and bentonite,
The compounding ratio of the mixture is composed of 1000 kg of water, 200 kg of cement and 60 kg of bentonite,
The upper capping (T) consists of a mixture of water, cement and bentonite,
The blending ratio of the mixture is composed of 1000 kg of water, 400 kg of cement and 60 kg of bentonite,
The upper capping T has a strength at least twice as high as that of the lower wall W,
Wherein an upper portion of the upper capping (T) is finished to have a predetermined width and thickness, and is then covered with a predetermined height to maintain the original ground state. delete delete A method of constructing an underground continuous water wall (W) by mixing predetermined water, cement and bentonite to construct a water wall (W)
A mixture of cement and bentonite, and the mixing ratio of the mixture is in the range of 1000 L of water, and the water wall W is formed as a mixture for a water wall consisting of 200 kg of cement and 60 kg of bentonite;
Cutting a predetermined thickness of 40 cm on the upper part of the water wall W;
Installing a mold (F) at both ends of the cut off water wall (W);
The mixture of water, cement and bentonite in the mold (F) was blended with a mixture of cement and bentonite in 1000 liters of water. The upper capping mixture was poured and cured to have a width of 1.5 m and a thickness of 0.5 m Forming a top capping (T) having a length of at least 1 m and a strength at least two times higher than that of the lower wall (W);
And filling the upper portion of the upper capping (T) with a predetermined width and thickness. delete delete delete

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