HU217308B - Process for making of impermeable walls in the ground - 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

FIELD OF THE INVENTION The present invention relates to a method of forming watertight walls in soil by vertically lowering a pile slab into the soil by vibrating along a path of the wall to be realized, injecting at low pressure, a slab base and a very high pressure and towards the lower part of the wall to be realized.

The essence of the process is that a very high pressure liquid jet is introduced to the lower part of the latter during the lifting of the sheet (1) in the direction of the already implemented part (2) of the wall, and that the very high pressure liquid During the lowering and lifting, it consists of a cement-based liquid filler mortar containing water, bentonite, additive, while water, bentonite, additive and a cementitious filler containing water, bentonite, additive and , inject regular dense filler mortar.

HU 217 308 B

The length of the description is 8 pages (including 4 pages)

HU 217 308 Β

FIELD OF THE INVENTION The present invention relates to a method of forming watertight walls in soil by vertically sinking a sheeting into the soil by vibrating along a path of the wall to be realized and injecting at low pressure into the base of the sheeting, a conventional filling mortar and a and towards the lower part of the wall to be realized.

These walls can have a thickness of about 10 cm and a height of about 20 m.

The Applicant discloses in EP 91402175.3 a method of forming such walls, by vibrating a beam or batten into the soil, the lower part of which has a structure for injecting a filler mortar into the soil at low pressure and, after solidification, the thin wall while at least one jet of liquid is fed horizontally to the lower part of the beam at very high pressure, directed towards the plane of the wall to be formed.

SUMMARY OF THE INVENTION It is an object of the present invention to improve the above process by which the quality of the resulting impermeable wall and the speed of its creation can be increased.

This object of the present invention is accomplished by a method of forming watertight walls in soil by vertically sinking a tile beam into the soil by vibration along a path of the wall to be realized and injecting it at low pressure into the base of the tile panel using a conventional filler. at high pressure, a jet of liquid, in the plane of the wall and towards the lower part of the wall, which means that a very high pressure jet of liquid is introduced to the lower part of the latter when lifting the sheet, towards the already realized part of the wall; the liquid supplied to the underside of the gutter consists of water, bentonite, aggregate and cement based liquid filler mortar, while the gutter base, during sinking and unloading, injection of cement-based dense filler mortar containing water, bentonite, additive and consistency agent.

By very high pressure fluid is meant a fluid which is introduced at a pressure of 200 to 600 kg / cm ² .

By sheeting is meant a rigid metal profile, usually made of steel, which is sunk into the soil along the path of the wall to be realized.

By additive is meant liquid or powder products whose incorporation in small quantities in the filler mortar changes some of its properties when fresh or hardened.

The main additives are:

- hardening retardants such as products based on the sodium or ammonium salt of lignin sulphonic acid,

- liquefying agents such as sodium salt of lignin sulphonic acid, sodium salt of polyacrylic acid, naphthalene sulphates and melanin-based products,

- mineral activators such as sodium bicarbonate,

filtrate reducers such as organic polymers of the carboxymethylcellulose family.

Additives can be formed from any other product that conforms to the theology of the filler mortar under the conditions in the construction site (e.g., antigen products).

Contrary to what we would expect, injecting a sheet filler - injecting a liquid filler mortar at very high pressure toward a wall already made of a thick filler mortar - does not disrupt the wall structure, but on the contrary allows it to be restored when needed. complete continuity, eliminating the continents that have been embedded in the thickness of the wall during the crushing of the sheet.

In this way, the invention provides perfect continuity of the wall and improves its quality.

Experience has shown that injecting a very high-pressure liquid during a sinking operation consisting of a liquid filler mortar facilitates the creation of a high quality, thin wall.

It is to be emphasized that, according to the invention, the consistency of the filler mortar injected into the lower part of the sheet during lowering and lifting, plays an important role in providing the wall strength, elasticity, water resistance and erosion resistance.

In contrast, a mortar that is injected at very high pressure into the already formed wall during the lifting of the sheet, is a very liquid mortar based solely on water, bentonite, aggregate and cement, so we could actually ask that such a mortar at very high pressure. injection does not compromise the intrinsic properties of the existing wall in terms of strength, flexibility, water resistance and resistance to erosion.

Contrary to fears, practice has shown that during the extraction of a tile slab, the liquid filler mortar introduced into the already formed wall under very high pressure is perfectly mixed with the dense filler mortar used to form this wall and improves its homogeneity and properties.

According to the invention, it is preferred that the axes of the nozzles located at the underside of the tile panel, which supply the liquid filler mortar under very high pressure, are inclined slightly downwards, 8 to 20% relative to the horizontal.

According to the invention, it is advantageous for the nozzles, which are not supplied with a filler mortar under very high pressure, to pass through a small amount of the filler mortar during the various stages of the process under low pressure to prevent their blocking.

DETAILED DESCRIPTION OF THE INVENTION The present invention will be described in more detail with reference to the drawings, which illustrate an embodiment of the process of the invention.

HU 217 308 Β

Figure 1 schematically illustrates a partially sectional view of an embodiment of the method of the invention.

Figure 2 is a side view of the bottom of a sheeting panel used in the process of the invention.

Figure 3 is a sectional view taken along line III-III in Figure 2.

Figure 4 shows schematically the injection operations carried out at the lower part of the sheet, during crushing.

Figure 5 illustrates the operations of Figure 4 during the lifting of the sheet.

Figure 1 schematically shows the structural elements required for carrying out the process of the invention.

The panel 1 is lowered into the ground to form a thin wall. For this purpose, it is provided with a vibrator 3 at the top of the sheet 1 which is driven, for example, by a high-power hydraulic motor which vibrates the sheet 1 until it sinks into the ground. The vibrator 3 is carried by the support rod 4 of the lifting motor 5 shown schematically in the drawing.

The sheet 1 is guided in its downward movement by a device fixed to the hoisting motor 5, which is not shown in the drawing for the sake of clarity. The

Fig. 1 is a schematic drawing showing the crushing or lowering of the sheet 1 in the direction of arrow F.

According to the invention, a conventional dense filler mortar is introduced at low pressure through a nozzle 6 located under the roofing sheet 1, while a liquid mortar 7 is introduced under a very high pressure under the roofing sheet 1, forward, i.e. to the right of the drawing we're trying to shape the wall.

Fig. 2 shows a special design of the lower part of the sheet 1, consisting of a central central part 8 and two wings 9. The lower part of the central central portion 8 has a thickened reinforcement portion 8a. The wings 9 also have such thickened reinforcement portions 9a.

As shown in Fig. 2, the left wing 9 and its attachment portion 9a extend downwardly below the central central portion 8.

A barrier plate 10 is attached to the outside of the left wing 9 of the sheet 1, extending the central portion 8 so as to move in a portion 2 of the already thin wall and stabilize the course of the sheet 1 as it descends.

Below the center of the roof panel 1 is a double nozzle 6 fed by a low pressure dense filler mortar, while at the bottom of the left wing 9 two nozzles 12 and 13 are disposed in opposite directions, each of which is a very high pressure, liquid is supplied with a filler mortar through the individual tubes 14 and 15.

Fig. 3 shows again the wings 9 of the central part 8 and the sheet 1, as well as their thickened fastening parts 8a, 9a and the aileron plate 10. The same figure shows the nozzles 6, 12, 13 and the tubes 11, 14, 15 feeding them.

Fig. 4 schematically shows the lower part of the sheet 1 as it sinks into the ground. During this movement, the sheet 1 is guided in such a manner that it is preferably located between the already prepared part 2 of the thin wall and the ground to be sealed, which is to the right of the drawing.

During the lowering of the sheet 1, a cementitious dense filling mortar, usually containing water, bentonite and aggregate, is generally injected through the double nozzle 6 at a pressure of several times 10 kg / cm ² .

Injecting the dense filler mortar in this manner essentially serves to facilitate the penetration of the sheet 1 into the soil by the vibration applied to it.

At the same time, a liquid filler mortar containing cement-based bentonite additive and water is injected at very high pressures, for example 600 kg / cm ² , through the nozzle 12 to the right, to the ground in which the wall is to be formed.

According to a preferred embodiment of the invention, the axis of the nozzle 12 is inclined 15% downward from the horizontal.

During lowering of the sheet 1, liquid filling mortar 13 is also introduced into the nozzle 13, which is directed towards the already implemented wall 2, but only at a pressure of a few kg / cm ² , and only to prevent clogging of the tube 15 and the nozzle 13.

Thus, in this first phase of the process according to the invention, the liquid filling mortar, which is introduced under very high pressure through the nozzle 12, has the task of removing and impregnating the ground under the roof 1 which facilitates and greatly accelerates the landing of the roof 1. creates a trench into which the wall can then be built.

Fig. 5 shows the lower part of the sheet 1 and the injections made in accordance with the invention when the sheet 1 is lifted. In this second phase, the dense filler mortar continues to be poured under the slab 1 through the double nozzle 6 at a pressure of a few kg / cm ² to fill the empty space remaining in the soil after retracting the slab 1 and returning soil that has been loosened during lowering of the sheet 1.

At the same time, according to the invention, a jet of very high pressure liquid filler mortar is fed through the nozzle 13 to the left in the direction of the already thin wall.

It is very interesting to observe that the infill mortar thus introduced is completely mixed with the dense infill mortar which has penetrated through the nozzle 6 during the previous lowering and lifting of the slab 1, thereby significantly improving the properties of the wall thus obtained. pressure of a few kg / cm ² through the nozzle 12 to prevent the latter or the tube 14 from becoming clogged.

The process according to the invention provides a high quality wall in the soil at a very high speed,

EN 217 308 Β with excellent continuity and waterproofing.

Of course, the invention is not limited to what has been said, but many changes can be made without departing from the scope of the invention.

Claims (4)

PATENT CLAIMS 1. A method of forming watertight walls in a soil by dropping a sheeting vertically into the soil by vibration along a path of the wall to be realized, injecting under low pressure, using a standard filler mortar and a very high pressure, in the direction of the lower part of the wall to be realized, characterized in that a very high pressure liquid jet is introduced to the lower part of the latter in the direction of the already realized part (2) of the wall, and that the very high pressure liquid supplied to the lower part of the sheet (1) during lowering and removal, consisting of a cement-based liquid filling mortar containing water, bentonite, additive, and to the base (6) of the sheet (1) during lowering and lifting, water, bentonite, additive Consistency injection of cementitious, conventional, dense filler mortar. Method according to claim 1, characterized in that the jet of liquid filler mortar is injected at very high pressure, in the direction of the already formed wall, substantially horizontally, during the lifting of the sheet. Method according to claim 1, characterized in that the jet of liquid filler mortar is injected at very high pressure and slightly inclined downwardly during lowering of the sheet. A method according to claim 1, characterized in that the radius of the liquid filler mortar is tilted downwards by 8-20%.