KR0155195B1 - Compaction grouting method - Google Patents

Abstract

This hollow pile is inserted into the ground by using a drilling machine or a rock drill while continuously connecting a hollow pile 2 having a predetermined length with the inner surface of the hollow with the bit 1 inserted in the bottom. (2) in the grouting method in which the reinforcing filler 3 is a conveying pipeline and the reinforcing filler is filled so that filling is carried out from the bottom to the upper layer step by step.

Pressing the soft ground of the ground with high viscosity cement mortar injection filling close to the slump 0 transported to the ground through the hollow pile (2) while forming a space in the ground, the building, construction or buried sedimented by the sequential downward charging method Compact grouting method by cement mortar injection to accurately restore or protect at any point without grout penetrating.

Description

Compact grouting method by cement mortar injection

1 is a process chart in the practice of the present invention.

Figure 2 (a) is a schematic diagram of driving the hollow pile according to the present invention on the soft ground concrete is poured.

(B) of FIG. 2 is a state example when performing the top-down grouting step by step through the hollow pile driven to a certain depth.

Figure 3 (a) is a concept of the compact grouting state of the present invention.

(B) and (c) of FIG. 3 are state conceptual diagrams grouted by the conventional method.

(A) (b) (c) (d) of FIG. 4 is an example of an embodiment in each situation to which the present invention is applied.

5 is an explanatory diagram when restoring the inclined construct by the top-down injection grouting of the present invention with respect to FIG.

* Explanation of symbols for main parts of the drawings

1: Soft ground 2: File

3: reinforcing filler 4: support layer

5: landfill 7: bit

6: upper grout formation

The present invention grouting by cement mortar injection that is implemented when it is determined that there is a great risk or may cause the safety of buildings or structures due to groundbreaking reinforcement of soft ground or ground subsidence of already constructed buildings or structures. It is about public law. In other words, when a building or a structure changes its surrounding environment due to a long period of time, or when the ground subsides, or when a building or a construction is constructed on a soft ground from the beginning, the structure is in danger of being collapsed or collapsed due to the existence of a soft ground. In order to minimize this risk, a grouting method using cement mortar injection according to the present invention is a method for drilling cement into the ground and forcibly filling and solidifying cement to build a firm structure.

Conventional cement mortar grouting method is to fill the cement mortar by filling the foundation to reinforcement, this method is a convex form that penetrates into various gaps of the soft ground when the cement mortar is injected into the shape of a tree branch When filling the chemical liquid (formed in FIG. 3 (b)) or rapidly (pure) like an epoxy resin, the chemical liquid penetrates between the particles of the soft ground to form a so-called penetrating solid form ((c) in FIG. 3). Due to the various ground structures and constituent soils, the strength difference between the ground and the chemically-reinforced fillers was severe, and the formation of bubbles, etc., resulted in not only satisfactory strength as a desired basis, but also sufficient to satisfy various conditions to be reinforced. There were a lot of points.

In addition, many structures and pipelines buried under the ground are damaged by ground subsidence, so to reinforce a certain point in the ground where such structures or pipelines are buried deeply, they are exposed to structures and pipelines. After the reinforcement work in the state of making it work, it was necessary to rebuild the land and recover it.

In the case of buildings or structures with heavy loads, it is difficult to reinforce the foundation of the building uniformly due to the large area.If the building is tilted to some extent, it is virtually impossible to restore the inclined building horizontally. The time, manpower, and expenses of the new construction were enormous.

In addition, the conventional chemical liquid injection method by the injection of pure and finished agents, such as the basic strength for strengthening the basic strength is insufficient, and also due to the solidification of the chemical liquid is diffused in the ground and solidified, so Basically, it is impossible to improve the ground (usually more than 90kg / cm2) that requires high strength and to accurately improve the ground at any location.

Accordingly, the present invention is inserted into the ground using a drilling machine or a rock drill while continuously connecting the hollow pile of a certain length, the bit is inserted and detached to the bottom basically and hollowed out as shown in FIG. The hollow pile (2) is to be a pipeline for the reinforcement filling, and then the reinforcing filling is filled, and the filling is performed stepwise from the top to the lower layer or vice versa if necessary, but the slump is almost zero. The present invention relates to a compact grouting method by injecting cement mortar into a high viscosity filling reinforcement such as cement mortar so that buildings and structures can be accurately restored at any point without penetrating into the grout.

An embodiment thereof will be described in detail with reference to the accompanying drawings.

2 and 4 and 5 show an embodiment of the present invention.

In order to insert a predetermined length of the hollow pile 2 equipped with a well-known bit 7 freely detachable at the end corresponding to various structures in the ground, the ground is driven by a punching machine (rock drill). Strike the ground while continuing to connect the hollow piles 2 until the reinforcement is located at the predetermined ground position.

It is a prerequisite that the desired underground location should be selected in advance by reinforcement and location by performing foundation, structure or geological or soil tests of the structure as in the process shown in Figure 1 of the accompanying drawings. When the bit 7 lowered to the position where the reinforcing material (filler) 3 is to be filled, when the hollow pile 2 is slightly raised after reaching the solid strata, the bit 7 is inserted into the end of the hollow pile 2 freely. The hollow pile is separated from the hollow pile end in the inserted state, and the hollow pile serves as a pipeline for injecting and transporting the reinforcing filler 3, that is, the cement mortar from this time.

In the drawings, reference numeral 4 denotes solid ground, and 5 denotes landfill soil.

Now, cement, water and sand should be mixed with cement mortar in consideration of the location and surrounding environment to reinforce the soft ground (1), but the grade such as Fly Ash, Bentonite, or Epoxy Selectively add and mix according to the environment to reinforce the settlement and stir in a state of physical non-fluidity with viscosity of near slump 0 to form reinforcing filler such as cement mortar and the hollow pile 2 as a transfer path. The soft ground (1) is discharged by a pump.

The reinforcing filler (3) discharged into the ground is physically high in viscosity and is usually less than slump 3 and close to 0. Therefore, the reinforcing filler 3 is pushed out of the ground while being strongly pressed against the soft ground without confining or penetrating into the soft ground. Therefore, grout is filled while forming a space in the soft ground. This point is completely different from the general filling method by chemical grout.

(B) of FIG. 2 is explanatory drawing which showed the compact grouting of this invention at the time of restoring a slanted structure etc. as mentioned above. That is, the soft ground 1 is drilled to a solid underground support layer (symbol 4 in FIG. 2 (b)), and grout is injected into the injection tube 2 which is a hollow pile. At this time, compact grouting is performed in the ground under high pressure. As shown in FIG. 2 (b), first stage injection (i) is performed from above, and the next solidified or solidified first stage injection grout is drilled. After the second step injection (ii), the same method as the third step injection (iii) and the fourth step injection (iv) in the top-down injection in order to form a solidified cement mortar grout at the same time the surrounding soft geological layer Is compressed to strengthen the space to form a solidified body 3 having uniform strength in the space.

Of course, the bottom-up injection method grouting from the bottom to the step-by-step injection as in the prior art is also possible, but this case is also used in other cases than the restoration of the tilted construction.

When filled with a certain amount of volume about one hollow pile (2) length, the hollow pile (2) is separated by the length of one hollow pile (2), and the filler (3) is discharged again on the already filled upper portion to form a reinforcement part. By repeating a series of operations to achieve a unique grouting effect only the present invention.

An example that can be implemented by the above-described method will be described in detail with reference to (a), (b), (c) and (d) of FIG. 4.

Example 1

When the hard soil layer becomes the surface layer and the hard soil bottom is formed of the soft ground, and it is necessary to reinforce the soft ground (1), when the construction of the present invention is applied by applying the method of the present invention, the hard top soil layer is widened as shown in FIG. The hollow pile (2) penetrating the hard soil layer is inserted into the soft ground (1) by the calculated depth without the need for destruction, and the reinforcing filler (3) is selectively filled only in the soft ground (1) to form a solid body in the ground. When the filling is finished, the construction is finished by removing only the hollow pile (2).

Example 2

On the basis of the inclined surface of the hard ground (4) when the structure is covered with a solid ground and a soft ground and the structure is inclined to the settlement of the soft ground such as landfill soil (5), as shown in (b) and 5 of FIG. Fill the reinforcing filler (3) such as cement mortar to be laminated to an appropriate height, and then quench it so that the reinforcing filler serves as a pile, and finally, the upper grout space is closed to the surface layer to make the upper cement mortar. Consolidation of the grout 6 restores the tilted construction horizontally.

In addition, when there is a heavily inclined structure such as the dotted line in FIG. 5, cement mortar grouting is performed by bottom-up injection to both sides of the structure to a solid ground 4 in the ground. Shielding to eliminate the possibility of communication, or grout fluid leakage, and cement mortar grafting with top-down injection underneath the building, such as b, c, d, under a tilted building, so that the structure no longer sinks or tilts, As shown in FIG. 5E, the top down grouting method is performed by first drilling a solidified or solidified grout under the inclined portion, inserting an injection tube into it, and grouting the lower portion. As in b), the cement mortar grout is formed from the top and descends down to the solid ground, When continuing the grouting cement mortar exiting the injection tube to the ultra-high pressure is compacted down to the inclined climbing soar into the soft ground (1) between existing grout layer d and f construct is elevated to push up the construct. That is, by compacting the grout to form the upper grout space portion of the cement mortar grout (6) is to push up the construction to the ultra-high pressure.

Example 3

As shown in (c) of FIG. 4, ground reinforcement is possible by filling the reinforcing filler 3 inclined toward the ground even in a narrow room such as an existing structure or a basement.

Example 4

When the pipe is buried at the bottom of the ground as shown in (d) of FIG. 4, when the pipe is soft and the pipe joint is dissociated, the periphery of the pipe is locally reinforced without the need to excavate the ground and expose the pipeline. By filling, it is easy to reinforce underground installations such as buried pipes. That is, the compact grouting by cement mortar according to the present invention, as shown in Fig. 4 (d), reinforcement of buried ground by cement mortar injection and consolidation injection of ultra-high strength, and from the exact point to the correct point within a short time Cement mortar injection is sufficient for the convenience of construction and the protection of underground buried material.

As the chemical liquid grout by the conventional chemical liquid injection method, the chemical liquid such as water glass, which is extremely low in the ground, penetrates into the ground, and is easily diffused to form irregular grout, and especially when there is a lot of water in the ground, the chemical liquid penetrates into a weak gap. As it spreads and spreads, it is difficult to grout while securing accurate design space as in the present invention.In addition, it is absolutely lacking in strength and viscosity in building restoration, etc. can not do it.

As mentioned above, the present invention is a particularly useful method that enables the construction of a slanted structure or building on soft ground or subsided ground, which makes it impossible to do with any conventional grouting method.

Claims (1)

This hollow pile is inserted into the ground by using a drilling machine or a rock drill while continuously connecting a hollow pile 2 having a predetermined length with the inner surface of the hollow with the bit 1 inserted in the bottom. In the grouting method of (2) to be the pipeline for the transfer of the reinforcing filler (3), and then to fill the reinforcing filler and filling step by step, to the slump 0 transferred to the ground through the hollow pile (2) It is used for cement mortar injection, which compresses the soft ground of the ground with high-viscosity cement mortar injection charging of high viscosity to form spaces in the ground and restores the settlements and structures that are settled by successive downward charging method at any point without grout penetration. Compact grouting method.