CS251052B2 - Watertight underground wall and method of its formation - Google Patents

Abstract

A method of constructing a fluid impermeable wall in the ground. A first trench is dug and simultaneously filled with a cementitious bentonitic mud, which is sufficiently viscous to prevent the sides of the trench from caving in. This first trench forms a first section of the wall. Before the mud of the firt section has set, a second trench is dug adjacent to and continuing or extending from the first trench, to form a second wall section, and the second trench is also simultaneously filled with cementitious bentonitic mud. The abuttting end sections then bond firmly together upon setting to form a continuous wall.

Description

The invention relates to a watertight underground. a wall which is continuous and of any length, formed in the trench in the foundation soil, and a method for forming it. The invention also encompasses a cylindrical wall enclosed over its entire length and provided either with a single joint or without joints.

Protective sealing walls are used when opening a foundation pit or ensuring the protection of dams, weirs and similar works below groundwater.

One known method of protection consists in that the underground wall is formed by joining the plates formed by excavating the trench in the foundation soil and replacing the rinsing liquid with a concrete mixture, the joining of the successive plates being carried out by joints, possibly supplemented with wedges.

This method has a number of drawbacks: it is necessary - during operation - to constantly return back to the construction site, the irrigation liquid must be replaced with concrete mixture, the joints must be precisely drilled and possibly replenished with wedges and the liquid must be continuously regenerated over a relatively long time.

Furthermore, a method is known which makes it possible to form an underground wall without joints and consists in forming a narrow groove in the soil, which is formed. filled with very fine concrete. . the groove being formed by embedding elements in the soil to protect the groove walls. However, this method makes it possible to produce only sealing walls of a small thickness and depth and thus of low strength.

The subject of the invention is a waterproof underground wall formed by ground pouring, characterized in that it has a thickness of 0.2 to 1 m, a depth of 1 to 60 m and is made of a self-hardening irrigation liquid composed of a mixture of bentonite slurry and cement. which remains stable, homogeneous and fluid for at least 24 hours, the wall being homogeneous, impermeable and free of joints of any length.

In contrast to known underground walls, which either cannot withstand even minor pressures of the surrounding soil or have connections that increase their production cost, the sealing wall according to the invention is relatively cheap to manufacture and has the required strength; experiments have shown that the addition of cement to the bentonite slurry retains not only the thixotropic properties of the bentonite slurry and its viscosity, but also the setting properties of the cement.

The invention also provides a method of forming a watertight underground wall by dividing the total length of the formed wall into sections, excavating the first section while filling with a slowly curing mixture of bentonite slurry and cement, wherein the setting time of the mixture is T, and then forms adjacent panels after a time that is shorter than KT, where K is a factor ranging from 0.5 to 0.9.

Numerous experiments have shown that the use of slow-setting bentonite-cement mixtures makes it possible to create walls whose lateral edges are sufficiently strong after 24 to 48 hours so that they do not need to be supported by the surrounding soil while digging a groove for the adjacent wall. so that they cannot adjoin the adjacent wall.

Experience has also shown that the same objective is achieved when using any type of cement by compensating the excess solidification rate of the bentonite slurry-cement mixture with a retarder.

Addition; While the invention overcomes the disadvantages of the prior art, it has the advantage that it can be performed in many variations. For example, it is possible to excavate the first section of the trench, then proceed to excavate the second section at a distance from the first section so that the third section adjacent to the first and second sections can be excavated, the third section being excavated and filled with the same slow-setting mixture. bentonite slurry and cement prior to final solidification of the mixture in the first section.

Equally well, the first section and then the immediately adjacent section can be gradually excavated first and then proceeded analogously. It is also possible to work simultaneously in several places with several dredging machines, or - to proceed continuously - using a single machine.

Experience has shown that in all cases, a perfectly impermeable open or closed wall is formed which is capable of deformation and thus resists weak movements of the surrounding soil while maintaining its impermeability.

The method according to the invention solves the problem of forming a gas-impermeable wall by inserting plastic films which are glued or welded to the contact surfaces in a slow-setting mixture.

It goes without saying that aggregate, steel reinforcement or prefabricated concrete can be laid to create a wall. For this purpose, it is sufficient to place a steel reinforcement - or a prefabricated concrete - in a groove filled with self-hardening drilling fluid and wait for the wall to set.

For example, a slurry containing a certain amount of cement, for example 50 to 300 kg, can be used directly as drilling liquid according to the invention. m ³ according to the required strength, preferably 50 to 100 kg. m ^_ 3 for the impermeable wall -a more than 100 kg. m3 if the wall is to have a certain strength; the mixture is selected such that the drilling fluid retains the same viscosity for at least 40 hours and thus remains homogeneous in this interval. The hardening time can be shortened if the speed of the work required. at any setting time, this time must be chosen such that the bentonite slurry and cement mixture used to excavate the first impermeable wall groove allows to produce inexpensive and homogeneous impermeable walls with high strength.

maintain homogeneity and viscosity until the indentation of the adjacent groove or adjacent grooves. The work on the adjacent trench can therefore be carried out without risk and danger, since the same mixture is used, so that its density is the same.

It goes without saying that, due to a number of types of cement, there are a large number of types of mixtures that meet this requirement; these mixtures may contain, depending on the type of cement used, retarders, the amount of which depends on the type of cement. Retarders are known per se and do not form part of the invention.

In the case of conventional ground clinker cement and blast furnace slag, the greater the amount of retarder used, the greater the percentage of clinker the cement contains; it is also possible to use an aqueous mixture of colloidal clay and clinker-free cement, i.e. pure slag, without the addition of retarders.

On the other hand, if, for any reason and at any point in the construction site, all or part of the mixture of bentonite slurry and cement hardens quickly, it is sufficient to add a certain amount of setting accelerator, for example slag-free cement, to the trench. This can be the case when the excavation of adjacent sections is not carried out continuously.

The process according to the invention is very flexible

Example 1

As a self-curing rinse liquid, a mixture may be used which, in 1 m @ 3 of water, contains 30 kg of bentonite and 100 kg of slag cement containing approximately 80% by weight of slag and 20% by weight of clinker. The mixture remains liquid for 30 to 40 hours, inter alia depending on ambient temperature. If, for technical reasons, the length of time the mixture remains fluid, for example due to the great depth of the wall or the hardness of the soil in which the trench is excavated, a retarder can be added to the mixture to maintain fluidity and homogeneity of the mixture within 48 hours.

Example 2

According to the invention, a mixture containing 28 kg of bentonite and 230 kg of cement in 1 m ^{3 of} water can be used as a self-curing rinse liquid. The mixture remains liquid for 10-20 hours, depending on local conditions. In most cases it is therefore necessary to add a retarder to the mixture in an amount. depending on the time for which the mixture is to remain fluid (20 to 48 hours).

SUBJECT

Claims (8)

SUBJECT Waterproof underground wall made by pouring a groove in the soil, characterized in that its thickness is from 0.2 to 1 m, its depth is from 1 to 60 m, and is made of a drilling fluid of self-hardening containing a mixture of bentonite slurry and cement. is 50 to 300 kg. m ~ ³ , which remains stable, homogeneous and fluid for at least 24 hours, the wall being homogeneous, impermeable and without joints at any length. 2. Waterproof underground wall according to claim 1, characterized in that it comprises at least one continuous plastic foil, the direction of which is parallel to the wall or to the steel reinforcement, concrete prefabricated elements or aggregates in the mass of the wall. 3. A method of forming a watertight underground wall as in claim 1, wherein the total length of said wall is divided into sections, said first section being filled with a slowly setting mixture of bentonite slurry and cement having a setting time of T and forming an adjacent wall section. is applied after a time shorter than KT, where K is a coefficient ranging from 0.5 to 0.9, using a mixture containing 50 to 300 kg of cement. 4. The method of claim 3, wherein the first section of the trench is filled with the slowly setting mixture, then a second section filled with the same mixture is formed at a sufficient distance from the first section to allow the third section to be filled with the same mixture. prior to the final solidification of the mixture in the first groove section. 5. Method according to claim 4, characterized in that the uncured edges of the adjacent walls are cut off during the excavation of the third section. 6. Method according to claim 3, characterized in that, after the excavation of one section of the groove, the adjacent section is immediately excavated. 7. A method according to claim 6, characterized in that the successive sections are excavated continuously and an accelerator, for example slag-free cement or retarder, is added to the slow-setting mixture of bentonite slurry and cement, which fill the previous groove section. 8. A method according to any one of claims 3 to 7, characterized in that plastics films whose edges are glued or welded according to the rate of introduction into the groove or steel reinforcement are inserted into grooves whose slow-setting filler mixture of bentonite slurry and cement is not hardened. with overlap in unhardened areas, precast concrete or aggregate.