CZ277994A3 - Method of performing sealed walls in earth - Google Patents

Abstract

The invention relates to a method for making leaktight walls in the ground, of the type in which a pile is driven vertically into the ground along the path of the wall to be produced, by vibration, and raised back up, injecting, at low pressure, at the base of the pile, a conventional slurry and a jet of very high pressure liquid substantially in the plane of the wall and in the direction of the part of the wall to be produced. As the pile (1) is raised back up, a jet of very high pressure liquid directed towards that part (2) of the wall which has already been produced is sent to the bottom part of this pile, the very high pressure liquid which is sent to the lower part of the pile as it is lowered and as it is raised back up consists of a fluid slurry based on water, bentonite, additives, and cement, while a thick conventional slurry based on water, bentonite, cement, additives and an aggregate which gives it its consistency is injected at the base (6) of the pile as it is lowered and raised back up. <IMAGE>

Description

Method of creating tight walls in the ground

Technical field

The invention relates to a new improved method for forming thin sealing walls in the ground.

BACKGROUND OF THE INVENTION

It is known to use thin-walled solid wall formations in the ground to form particularly continuous waterproof barriers. Such walls can be, for example, several tens of centimeters thick and twenty meters high.

The Applicant has already proposed in European Patent Application 91402175.3 a method of forming such walls in which a beam is struck by vibrations into the ground, provided at the bottom with a low-pressure injection device into the ground with a liquid composition which when solidified forms a thin wall. at least one very high pressure liquid stream oriented substantially in the plane of the wall to be formed.

A liquid discharged under very high pressure is understood herein to mean a liquid discharged at pressures of, for example, 200 to 600 kg per square centimeter.

SUMMARY OF THE INVENTION The present invention is directed to an improvement of the method described above which would allow to significantly improve the quality of the obtained tight wall and increase the rate of formation thereof.

SUMMARY OF THE INVENTION

The invention provides a method of forming tight walls in the ground by vertically pumping the vibrations and subsequently lifting the beam in the ground along the path of the wall to be formed, injecting under low pressure a conventional liquid composition and a very high liquid stream pressure substantially in the plane of the wall and towards the wall portion that

-2 is to be formed by releasing, in the lower part of the beam, a stream of very high pressure liquid towards the part of the wall which has already been formed, and a very high pressure liquid which is discharged in the lower part the beam during its lowering and lifting consists of a thin liquid composition based on water, bentonite, additives and cement, while at the bottom of the beam, a regular dense liquid composition based on water, bentonite, cement, additives, and a filler component that confers its consistency.

As used herein, the term "beam" means a rigid metal profile, in particular of steel, which is driven into the ground gradually along the path of the wall to be formed.

By the term additive is meant within the meaning of this description liquid or powdered products, the incorporation of which in a small dose causes changes in certain properties of the liquid composition in a fresh or cured state. The main ingredients are:

- solidification retarders, such as those based on sodium or ammonium lignosulfonate,

- liquefiers, such as those based on sodium lignosulfonate, sodium polyacrylate, naphthalene sulfonate and melanin,

- mineral activating agents such as sodium bicarbonate,

filtrate reducers, such as carbomethyl cellulose organic polymers.

The additives may also be constituted by any other product intended to treat the rheology of the liquid compositions under conditions occurring on the site (e.g. anti-gel products).

Contrary to what might be feared, injecting a thin liquid composition at high pressure while lifting the beam towards a portion of a wall already formed of a dense liquid composition does not disturb the structure of the so formed wall,

On the other hand, it allows to obtain, if necessary, a perfect continuity of the wall, excluding parts of the soil that could reach its thickness when the beam is driven.

The invention thus makes it possible to give the wall a perfect connection and thus to improve its quality. In addition, it has been shown that the injection of high pressure liquid at lowering of the beam, which consists of a thin liquid composition, facilitates the achievement of a thin wall of good quality.

It should be pointed out that according to the invention, the liquid composition injected under low pressure in the lower part of the beam during punching and lifting it has a relatively high consistency so that the strength, flexibility and impermeability of the wall and its erosion resistance can be achieved.

Conversely, a liquid composition that is injected under very high pressure into an already formed wall when the beam is lifted is a liquid composition that is very thin and fluid, based solely on water, cement, bentonite and additives, so there is a legitimate concern injection of such a liquid composition under very high pressure would not result in loss of the essential properties of the already formed wall portion, such as its strength, flexibility, impermeability, and erosion resistance.

Contrary to these concerns, it has been shown in practice that such a liquid composition discharged under very high pressure into an already formed wall when the beam is lifted again blends perfectly with the dense liquid composition that served to form the wall, improving homogeneity and other properties of the wall.

According to the invention, it is preferable that the axis of the nozzles mounted on the lower part of the beam from which the thin liquid composition is discharged under very high pressure is slightly inclined towards

-4 down, for example 8 to 20% relative to the horizontal direction.

According to the invention, it is preferable that the nozzles which do not discharge the liquid composition under very high pressure at different stages of the process, in addition, allow a low flow out of the liquid composition under low pressure to prevent their clogging.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall diagram of the process of the invention; FIG. 2 shows a detail of the lower part of the beam used in the process of the invention; Fig. 2, Fig. 4 shows an injection scheme performed at the bottom of the beam when it is driven in; and Fig. 5 an injection scheme corresponding to Fig. 3 but carried out when the beam is lifted again.

DETAILED DESCRIPTION OF THE INVENTION

Figure 1 is a schematic representation of the means used to practice the invention. The device comprises a beam 1 intended to be driven into the ground to form a thin wall 2. For this purpose, the beam is provided at its upper part with a vibrating tester 3 / operated, for example, by a powerful hydraulic motor that vibrates the beam 1 to be driven into the ground.

The vibration stopper 3 is supported by a mast of a schematically illustrated lifting machine 5, shown schematically. The beam 1 is guided on its descent by a device connected to a lifting machine 5, which is not shown for the sake of simplicity of the drawing. The diagram in FIG. 1 shows the hammering of the beam 1 indicated by the arrow F.

According to the invention, under the beam, a conventional thick wall-forming dense liquid composition is discharged under low beam pressure, discharged through the nozzle 6, while blowing under high pressure backwards, i.e. to the right in the drawing, towards the soil in which the thin wall is to be formed. , injects a thin liquid composition 7.

FIG. 2 shows a particular embodiment of a beam 1 having a central web 8 and two flanges 9. The central web 8 has a reinforcing thickness reinforcement 8a in its lower part. Likewise, the flanges 9 are provided with reinforcing thicknesses 9a.

As seen in FIG. 2, the left flange 9 and its reinforcement thickness 9a are extended downward beyond the range of the central web 8. On the outside of the left flange of the beam 1 is a wing 10 extending in the extension of the central web 8 so as to move in the part 2 of the thin wall that has already been formed and stabilizes the path of the beam during its descent.

Below the central part of the beam is a double nozzle 6, fed by a duct 11 with a dense low pressure fluid composition, while the left flange comprises two nozzles 12 and 13 in reverse directions, each fed with a thin fluid composition under very high pressure. via pipes 14 and 15.

FIG. 3 shows the central web 8 and the beam flanges 9, as well as the reinforcement thicknesses 8a and 9a and the vane 10. The nozzles 6, 12 and 13 and their supply lines 11, 14 and 15 are also visible.

Fig. 4 schematically shows the lower part of the beam as it sinks into the ground during its driving. In this movement, the beam 1 is guided so that it preferably lies at the interface between the part of the wall 2 which has already been formed and the part of the soil to be sealed lying to the right in the drawing.

During the descent of the beam, the double nozzle 6 is discharged

A dense, liquid composition of the type commonly used to form sealing walls, based on water, bentonite, cement and filler, under a pressure of several tens of kilograms per square centimeter. This discharge of the dense liquid composition is essentially intended to facilitate the penetration of the beam into the ground by the vibrations given to it.

At the same time, a thin liquid composition is injected onto the bulk of cement, bentonite, additives and water under very high pressure, for example 600 kg per square centimeter, through the nozzle 12 to the right towards the soil in which the wall is to be formed. According to a particular embodiment of the invention, the axis is inclined approximately 15% downwards with respect to the horizontal.

During descent of the beam, the thin liquid composition is also fed into the nozzle 13, which is oriented towards the already formed wall 2, but only under a pressure of a few kilograms per centimeter square and only so as not to block the pipe 15 and the nozzle 13.

In this first phase of the method of the invention, the thin liquid composition which is discharged under very high pressure by the nozzle 12 causes the soil to be disrupted and impregnated under the beam, which greatly facilitates and accelerates the descent of the beam to create space in which the wall will be formed.

FIG. 5 shows the lower part of the beam and the injection molding carried out according to the invention during the stroke of the beam. During this second phase, the dense liquid composition under the beam is still discharged by the double nozzle 6 at a pressure of several tens of kilograms per square centimeter, so that the cavity left in the soil by the recess a stream of the thin liquid composition under very high pressure to the left towards a thin wall 2 that has already been formed.

and pushes the descent of the beam.

It is noteworthy that the liquid composition thus discharged is intimately mixed with the dense liquid composition which has been applied by the nozzle 6 during the previous descent and the lifting of the beam, thus substantially improving the quality of the wall thus obtained.

During the lifting of the beam, the liquid composition under pressure of several kilograms per square centimeter also continues to be discharged through the nozzle 12 to prevent the nozzle and its feed line 14 from clogging.

The method according to the invention, which has been described, makes it possible to form a wall of excellent quality in a ground at considerable speed, which has a good connection and tightness.

It will be understood, of course, that the described embodiment is not limiting in nature and that it can be subjected to any desired variation without departing from the scope of the invention.

PATENT CLAIMS

Claims (4)

PATENT CLAIMS A method of forming tight walls in the ground, in which it is vertically driven by vibration and subsequently lifted up the beam in the ground along the path of the wall to be formed, injecting under low pressure at the bottom of the beam a conventional liquid composition and a very high liquid stream a pressure substantially in the plane of the wall and towards the part of the wall to be produced, characterized in that, when the beam (1) is being lifted again, a very high pressure liquid flow towards the wall portion (2) is discharged in the lower (13) which has already been formed, and wherein the very high pressure liquid which is discharged at the lower part of the beam during its lowering and during its lifting is constituted by a thin liquid composition based on water, bentonite, additives and cement, 6) when dropping and lifting the beams, a regular thick liquid composition based on water, bentonite, cement, d, and a filler component that confers its consistency. Method according to claim 1, characterized in that the stream of the thin liquid composition which is injected under very high pressure to the already formed wall when lifting the beam is substantially horizontal. Method according to claim 1, characterized in that the stream of the thin liquid composition which is injected under very high pressure when the beam is lowered is slightly inclined downwards. 4. The method of claim 1 wherein the stream of the thin liquid composition is inclined downward by 8 to 20%. O