CH688135A5 - Sealing for concrete works - Google Patents

Abstract

To develop a concrete works, with a sealing layer, the sealing layer (5) is sprayed or applied in a liquid or semi-liquid condition to the wall of the first concrete layer (2). Alternatively it is poured or applied directly on to a dry wall or support. The sealing layer is polymerised, and the second concrete layer (6) is applied over it by spraying or pouring. The sealing layer is contained between the two concrete layers, or between the second layer and the dry wall or support. The sealing layer is a synthetic resin or foam, resistant to water, which polymerises at ambient temperatures.

Description

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Description

The present invention relates to a method of constructing concrete structures with a sealing layer, and more particularly to a sealing layer which is applied in the liquid or semi-liquid state to a concrete wall or to a rough wall and on which, after the layer has polymerized, concrete is sprayed or poured so that the two layers of concrete are separated by the sealing layer.

In the field of construction of road tunnels, hydraulic galleries, reservoirs or basements of buildings, that is to say of works which are in contact with water, good sealing of the walls or slabs is essential. In the case of the construction of a tunnel, for example, the drills pierce the tunnel, and then one or more layers of concrete or mortar are sprayed onto the raw wall so as to constitute a final wall. However, the simple spraying of concrete is not acceptable since many cracks may appear upon drying of the concrete or after a certain time which causes water infiltration. In the medium or long term these water infiltrations can cause deterioration of the wall of the wall or of the slab and in the worst case these infiltrations can cause significant floods.

Construction methods have therefore been developed to prevent infiltration.

The known construction methods consist in spraying a first layer of concrete on the rough borehole wall. A sealing layer of plastic laminate or bituminized paper is then placed on the wall of the first layer of concrete, and this sealing layer is fixed by studs for example. A second layer of concrete is sprayed onto the sealing layer so as to constitute the final wall of the tunnel.

These known construction methods have several drawbacks. An important drawback consists in the fact that the laying of the layers of laminate or of bituminized paper requires operations which are long and fairly delicate. It is indeed necessary to guarantee perfect joints between the laminate layers which are juxtaposed, and the quality of the joints is particularly difficult to obtain because of the milk which the sealing layers are placed on a wall which has a lot of unevenness. . Another important drawback is that the layers of laminate or bituminous paper cannot perfectly match the wall which has significant unevenness. In many places, there can therefore be large spaces between the wall and the sealing layer, spaces which constitute pockets in which water can accumulate, which can cause deterioration of the wall. In addition, during the installation of laminates or bituminous paper, it is common for tears to occur, in particular at the place of passage of the fixing studs, and these tears do not make it possible to guarantee a good seal.

The object of the present invention therefore consists in

remedy the aforementioned drawbacks of known methods.

The object is achieved according to the principle of the invention as described in claim 1.

The construction method according to the principle of the invention consists in spraying a first layer of concrete on the rough borehole wall. A drainage fabric, which may consist of a very flexible synthetic fiber fabric or a mat, for example, is laid on the wall and is fixed by nails, for example. A liquid or semi-liquid sealing layer, of resin or synthetic foam for example, is then sprayed onto the wall. When the resin is polymerized, a second layer of concrete is sprayed. The liquid or semi-liquid sealing layer can also be applied with a roller.

The construction method, according to the principle of the invention has many advantages. An advantage consists in the fact that the process completely eliminates the problems of joining, which on the one hand reduces the working times and on the other hand which completely eliminates the problems of sealing at the joints. Another very important advantage is constituted by the fact that the application of a liquid or semi-liquid sealing layer allows this layer to perfectly fit all the inequalities of the wall, which makes it possible to completely remove the spaces which may constitute pockets, and consequently eliminating the risk of infiltration. The process also makes it possible to completely eliminate the risks of tears which exist when laying laminate or bituminized paper. The process also makes it possible to use resins or other materials which retain a certain elasticity after polymerization, which makes it possible to compensate for the tensions between the layers of concrete which could cause cracks. In the case where the first layer of concrete has a few cracks, the application of a sealing layer in the liquid or semi-liquid state has the important advantage of plugging or bridging these cracks.

The accompanying drawings illustrate schematically and by way of example the principles of the invention.

Fig. 1 is a sectional view of the wall of a road tunnel.

Fig. 2 is a sectional view of the wall of a hydraulic gallery.

Fig. 3 is a sectional view of the wall and of a raft from a tank.

First of all with reference to FIG. 1, the raw wall 1 is obtained by drilling or any other mechanical means making it possible to pierce a tunnel. A first layer of concrete 2 is sprayed onto the rough wall 1. A drainage fabric 3 is placed on the wall of the first layer of concrete 2, and is fixed by nails 4, for example. A liquid or semi-liquid waterproofing layer 5 is sprayed or applied to the wall of the first concrete layer 2 which includes the drainage fabric 3. When the waterproofing layer 5, for example synthetic resin, is polymerized , a second

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concrete layer 6 is sprayed onto the sealing layer 5. The second layer of concrete can also be poured into a formwork when the wall must not present unevenness for various reasons. The drainage fabric 3 is connected to a drainage conduit 7 which makes it possible to evacuate the water which could have seeped into possible cracks in the first layer of concrete.

Fig. 2 shows an embodiment for a hydraulic gallery. The rough wall 8 is obtained by drilling or other mechanical operations. Nails 10 are fixed in the rock. Washers 11 and nuts 12 are mounted on the nails 10, which in this case have a thread, and are intended to hold in position a first metal frame 9. A first layer of concrete 13 is sprayed onto the wall 8. A layer sealing 14 is projected or applied to the wall of the first layer of concrete 13. The sealing layer is also applied to a portion 15 of the nail 10. A second metal frame 16 is mounted and is held in position by washers 17 and nuts 18 which are mounted on the nails 10. Nuts are shown in FIG. 2, but it is also possible to use elastic locking rings in place of the nuts. As soon as the sealing layer 14 is polymerized, a second layer of concrete 19 is sprayed. This second layer of concrete can also be obtained by pouring into formwork.

Fig. 3 shows an application of the method to a tank. A first slab 20 is poured with concrete onto the ground 21. A first wall 22 which has a metal frame 23 held by studs 24, is poured with concrete into a formwork. A sealing layer 25 is sprayed or applied to the interior faces of the first slab and the first wall. Metal fittings 26, 27, 28, 29 and 30 are installed. As soon as the sealing layer 25 is polymerized, a second slab 31 is poured, and a second wall 32 is poured into a formwork.

Fig. 3 demonstrates an essential advantage of the principle of the invention which is that the application of the sealing layer in liquid or semi-liquid form makes it possible to match all the shapes without joints, for example at the interior angle of the slab and the wall.

Many liquid or semi-liquid chemicals can be used to form the sealing layer, for example polyurethane resins or various other kinds of synthetic resins or foams, that is to say substances whose particularities are that '' they must be resistant to water, they polymerize at room temperature after application, and they are compatible with the materials with which they are intended to be in contact, so that the adhesion between the layer waterproofing and concrete layers is optimal.

Figs. 1 to 3 show some possible applications of the principle of the invention, but the principle of the invention is not limited to these few examples. Indeed, the principle of the invention can be applied to all works comprising concrete or mortar elements, for example roads, aerodrome runways, basements of buildings or retention tanks.

Figs. 2 and 3 show metallic reinforcements. The purpose of these reinforcements is to reinforce the concrete structure. As a replacement for these reinforcements, it is possible to spray or pour concrete loaded either with synthetic fibers or with metallic particles, the loaded concrete being able to achieve the necessary qualities of mechanical resistance.

Fig. 1 shows the application of a sealing layer on the wall of a first layer of concrete. In some cases it is possible to apply the waterproofing layer directly on the rough wall obtained from drilling for example.

It is mentioned that the first layer of concrete is sprayed or poured on a rough wall. In other cases than tunnels or galleries, the first layer of concrete can be sprayed on a support or poured into a formwork.

Claims (5)

Claims 1. Method for constructing concrete structures with a sealing layer, characterized in that a sealing layer (5) is sprayed or applied in the liquid or semi-liquid state on the wall of a first layer concrete (2) which has been sprayed or poured on a raw wall or on a support, or directly on a wall or on a raw support, and by the fact that as soon as the waterproofing layer is polymerized a second layer of concrete (6) is projected or poured onto the sealing layer, the sealing layer thus being arranged between the first and the second layer of concrete, or between the second layer of concrete and the wall or the raw support. 2. Construction method according to claim 1, characterized in that a drainage fabric (3) is applied to the wall of the first layer of concrete, of the wall or of the raw support, the sealing layer being subsequently projected or applied to this drainage fabric, and by the fact that the drainage fabric and connected to a drainage conduit (7). 3. Construction method according to claim 1, characterized in that a portion of nails intended to hold metallic reinforcements is coated with a sealing layer, this in the portion of the nail which is located at the front and behind the waterproofing layer which is placed between the two layers of concrete. 4. Construction method according to claim 1, characterized in that the sealing layer consists of a synthetic resin. 5. Construction method according to claim 1, characterized in that the sealing layer consists of a synthetic foam. 5 10 15 20 25 30 35 40 45 50 55 60 65 3