ITMI20111041A1 - ARMOR / INJECTION HOSE FOR THE CONSOLIDATION OF SOIL - Google Patents

Description

DESCRIPTION

The present invention relates to a reinforcement / injection pipe for the consolidation of land.

It is known, in the technical sector of building works that involve excavation, full section or partial, for the construction of natural or similar tunnels, the need to preliminarily consolidate the face or the contour of the excavation in order to avoid landslides during the actual excavation.

It is also known that in order to carry out the pre-support of the contour of the excavation or the pre-consolidation of the excavation face, consolidated techniques are used which essentially provide for:

the preliminary execution of drilling in the ground around / or in the face of the excavation, the insertion in the longitudinal direction in the previously prepared hole of a reinforcing element of suitable length, usually in fiberglass,

- the injection of suitable material such as grout or the like to obtain the bond of the resistant element to the ground, with consequent transfer to the latter of the stresses induced by the excavation.

This reinforcement element is generally constituted by a fiberglass pipe, associated with PVC or polyethylene pipes for injection of the grout and for venting the air contained in the hole, a vent necessary to determine a correct and controlled flow of the grout and therefore a complete and void-free injection.

Alternatively, it is also known, for the purpose, the use of structural elements composed of fiberglass plates in turn equipped with polyethylene tubes or with a PVC or polypropylene (PP) tube for injections and low o high pressure, being in this case provided that the pipe is equipped with non-return valves.

In both cases, the operations of introducing the known devices into the perforation and the subsequent injection of the grout require high implementation times which are highly penalizing against the ever-increasing speed of execution required by the clients of the works. In addition to this in both cases, during the excavation of the tunnel, in addition to the excavation material, the material constituting the consolidation, previously carried out, is also removed, consequently the resulting material, obtained during the excavation, contains fragments of Polyvinyl chloride (PVC) , polypropylene (PP) or polyethylene (PE) which, being chemically unstable, are polluting and therefore contrary to the anti-pollution requirements constantly imposed by the need to respect the environment even during the execution of road embankments and large civil works.

This obliges the recovery and storage, in special landfills for polluting materials, of this waste material (so-called "spoil") containing chemically unstable materials, with a consequent very high cost increase.

Therefore, the technical problem arises of creating a device for the reinforcement / consolidation of the ground in conjunction with excavation operations of the same, which guarantees high mechanical characteristics of resistance to stress, and therefore of consolidation, simplicity and speed of application, high precision of the injection, while not using thermoplastic or polluting materials, thus allowing an economical removal and reuse of the excavated material.

Within the scope of this problem, it is also required that this device be compact in size, easy and inexpensive to produce and assemble, and can be easily installed at excavation sites by means of normal standardized tools.

These results are obtained according to the present invention from a reinforcement / injection pipe for soil consolidation according to the characteristics of claim 1.

More details can be found from the following description of a non-limiting example of embodiment of the object of the present invention made with reference to the attached drawings, which show:

in figure 1: a schematic perspective view of a tube for consolidation according to the present invention;

in Figure 2: a section along the plane marked II-II of Figure 1;

in figure 3: a schematic longitudinal section of the tube of fig. 1 during a direct filling step;

in Figure 4 a perspective view of the tube of Figure 1 during a reverse filling step;

in figure 5 a schematic section of the tube according to the invention with supply / vent head;

in figure 6 a perspective view of a pipe according to the invention with non-return valves;

in figure 7 a section along the plane of line VII-VII of fig.6;

in figure 8 a schematic section of a pipe according to the present invention equipped with a head for drilling the ground;

in figure 9 a schematic section of a further example of use of the tube for consolidation according to the present invention;

in figure 10 a schematic section along the plane X-X of fig. 9;

in figure 11,12: schematic sections relating to the use of the pipe according to the invention for the injection of soil consolidation e

in figure 13,14: schematic sections of the tube according to the invention in a further different use thereof.

As illustrated in figs. 1 and 2, a reference frame with longitudinal X-X directions coinciding with the axis of development of the tube, transversal Y-Y and vertical Z-Z, as well as a front part corresponding to the part of the pipe external to the ground after insertion and an internal part opposite to the previous one, the reinforcement / injection pipe according to the present invention substantially comprises:

+) a body 10 with a substantially lobe shape 20, developed according to a longitudinal direction X-X, which has:

+) a through hole 11, substantially coaxial to the body 10 and of a given diameter D1;

+) a duct 21 made in correspondence of each lobe 20 and of a given diameter D2 preferably less than or equal to D1;

said ducts 21 are preferably blind from the inside of the tube and have radial openings 22 arranged at predetermined distances along the longitudinal direction X-X from the external mouth 11a of the hole 11.

With this configuration, the operation of the armature / injection pipe is as follows:

+ made the circular perforations in the ground 1 to be excavated in order to determine a cavity such as to contain both the longitudinal and transverse dimensions of the pipe,

+ the tube is inserted lengthwise into the perforation,

+ the injection mixture, or grout, is injected into the ducts 21 of the lobes;

as illustrated in fig. 3 the grout that penetrates into the ducts 21 comes out of them through the radial openings 22 and, continuing its advance towards the bottom of the perforation, flows outwards through the internal opening 11b at the bottom of the central hole 11, passing through, starting the return path up to the exit from the front mouth 11a of the hole itself.

Although described in detail for a shape of a tube with three lobes 20, it is envisaged that the tube according to the invention can be made in a minimum configuration with a single lobe, or with two lobes, preferably arranged symmetrical with respect to the central hole.

As illustrated in fig. 4 also provides for a use of the tube with reverse operation with respect to what is described in relation to fig. 3; in this case the grout is fed through the central hole 11 with its exit into the cavity of the perforation through the internal opening 11b; the return of the grout to the external part of the pipe occurs through the radial openings 22 into which the grout reenters during the return path.

Advantageously (fig.5) the tube according to the invention can be equipped with a head 50, which can be recovered or disposed of, comprising a body 51 with multiple couplings 52 for axial coupling with the tube 10 and the injection lobes 20; said couplings are crossed by axial channels 53 to allow the simultaneous connection of the individual channels 11, 21 of the pipe to injection pumps (not shown), advantageously the head comprises an annular channel 53a for connecting the pipes 21.

It is also envisaged that the longitudinal hole 11 of the pipe can be associated with a diaphragm valve 60 equipped with a septum 61 calibrated to resist up to a predetermined injection pressure and arranged at the front mouths 11a of the hole 11, and / or, if provided, inside the head 50, so that the venting of the air, compressed by the thrust of the grout during the return towards the outside, does not start until the breaking pressure of the calibrated septum is exceeded, which, opening, it allows the vent; this solution favors a more regular flow of the grout during the injection phase, allowing an improved filling, void-free, of the perforation with the injection mixture and therefore a more effective consolidation of the soil.

Similarly, a diaphragm valve 60 can be arranged in correspondence with the ducts 21 of the lobes 20 if the same are used for venting as described in relation to the reverse operation (fig.4) of the pipe.

In a further preferred embodiment (fig. 3) the tube 10 is associated with an annular element 70 that is inflatable, with axial sealing, equipped with a corresponding inflation valve 71 and made integral with the tube 10 at a predetermined distance in the longitudinal direction from its anterior mouth Ila; when the tube is inserted into the perforation, the annular element 70 will be inside the latter so that its subsequent inflation expands it to form an annular, hermetic seal between the tube and the ground which guarantees the correct flow of the grout along the established paths and therefore a correct filling without unwanted grout leaks from the front front part.

In a further embodiment of the pipe according to the invention (Figs. 6,7) it is provided that the same comprises non-return button valves 80, made in the thickness of the pipe 10 in correspondence with the central duct 11.

The grout injections along the central hole 11 kept free by applying a closure cap to the internal end 11b, can also be performed at a later stage, by means of an injection (known as a packer) inserted in the central hole kept free with leakage. selective grout through the different valves 80 arranged at various depths.

In order to further simplify the consolidation operations it is envisaged (fig. 8) that, in correspondence with its internal end 11b, the pipe may have a self-perforating shoe 90, with a disposable ring nut 91, connected to the tip of a rod 93 of partial recovery perforation.

In figs. 9 and 10 illustrate a further use of the pipe according to the invention which in this case is used as a pole / micropile 210 for foundations 200 which, resting on ground 201 which is not sufficiently resistant and cannot be sunk up to the level 202 of resistant soil , require suitable devices that allow the transfer of loads in depth.

As illustrated, the poles / micropiles 210 are implemented by means of tubes according to the invention inserted in the vertical direction Z-Z and through which, once the injection is complete, it is possible to obtain, with a single operation, both the consolidation of the ground and the formation of supporting micropiles. of foundations.

In figs. 11 and 12 illustrate a further use of the pipe according to the invention which is, in this case, used for deep injection in soils 201 for which only a widespread improvement of the solidity of the same is required even without the transfer of loads. ; in this case, once the necessary perforations of the soil 201 have been carried out, possibly coated in a known way, the pipe is inserted deeply in the vertical direction Z-Z and the grout is injected as already described, obtaining the consolidation of the soil. Figures 13 and 14 show another different use of the tube according to the invention; in this use, a first plurality of pipes 10 are inserted in the vertical direction Z-Z in relative perforations 201a of the ground 201, made at a relative distance from each other; once the grout injected into the vertical pipes has been injected and consolidated, perforations 201b are made in the longitudinal direction X-X in the space between one vertical pipe and the other, a second plurality of pipes is inserted in the same longitudinal direction, a transverse beam 300 is placed provided with holes 301 resting on the vertical poles and a nail 302 is inserted in the holes so that it penetrates inside the hole 11 of the pipe; the grout is injected and once it has dried, the ground will be consolidated by the vertical tubes reinforced by the bond formed by the transverse beam 300 integral with the longitudinal tubes.

It therefore appears that the consolidation pipe according to the invention has high mechanical characteristics, allowing simultaneous, selective, gravity and / or medium and / or high pressure injections to be carried out, at different distances from the mouth of the insertion hole, being able to be adopted both for horizontal consolidations (at the front of tunnels, around the excavation or radially, for soil-nailing / clouage interventions, ...) and vertical (micropiles, consolidations), all with great precision and a high reduction in dead times of construction site.

In addition to this, the implementation of the pipe without auxiliary pipes in chemically unstable material makes the pipe non-polluting, allowing the reuse of the excavated material without the need for a preliminary selection with storage of the polluting parts, as is the case for devices of the known technique. .

Although described in the context of some embodiments and some preferred examples of embodiment of the invention, it is intended that the scope of protection of the present patent is determined only by the following claims.

Claims (16)

CLAIMS 1. Reinforcement / injection pipe for soil consolidation characterized in that it comprises a body (10) developed according to a longitudinal direction (X-X) and equipped with a through hole (li), substantially coaxial to the body (10) and assigned diameter (DI), said body being integral with at least one lobe extension (20) crossed by a longitudinal duct (21) of assigned diameter (D2). 2. Pipe according to claim 1 characterized in that the diameter (DI) of the central hole (10) is greater than or equal to the diameter (D2) of the duct (21) of the lobe (20). 3. Pipe according to claim 1 characterized in that it comprises two or more lobes (20,21). 4. Pipe according to claim 3 characterized in that said two or more lobes (20,21) are arranged symmetrically with respect to the longitudinal hole (11) of the pipe itself. 5. Pipe according to claim 1 characterized in that said ducts (21) of the lobes (20) have radial openings (22) arranged at predetermined distances from the front mouth (11a) of the pipe along the longitudinal direction (X-X). 6. Pipe according to claim 1 characterized in that said ducts (21) are blind from the internal part (11b) of the pipe. 7. Pipe according to claim 1 characterized in that it is associated with diaphragm valves (60) equipped with a calibrated septum (61) and arranged at the front mouth (11a, 21a) of the hole (11) or ducts (21) vent. 8. Pipe according to claim 1 characterized in that it comprises non-return button valves (80), arranged in the thickness of the pipe (10) in correspondence with the central duct (11) at relative distances along the longitudinal direction (X-X) â– 9. Pipe according to claim 1 characterized in that it comprises a head (50), with a body (51) with multiple couplings (52) for axial coupling with the pipe (10) and the lobes (20), said couplings being crossed by channels (53) axial and by an annular channel (53a) for connecting the ducts (21) of the lobes (20), for the simultaneous connection of the individual ducts (11,21) of the injection pump pipe. 10. Pipe according to claim 9 characterized in that the axial vent channels (53) of the head (50) are intercepted by a diaphragm valve (60) equipped with a calibrated septum (61). 11. Pipe according to claim 1 characterized by the fact that it comprises an annular element (70) that is inflatable, with axial sealing, arranged externally to the pipe (10) at a predetermined distance from its front mouth (11a) in the longitudinal direction (X-X) and equipped with a corresponding inflation valve (71). 12. Pipe according to claim 1 characterized by the fact that at its internal end it has a shoe (90), self-drilling, with ring nut (91) mounted on a drilling rod (93) coaxial to the hole (11) of the body (10). 13. Use of a pipe according to claim 1 for the consolidation / anchoring / horizontal and / or inclined reinforcement of soils. 14. Use of a pipe according to claim 1 as a foundation and / or support micropile. 15. Use of a pipe according to claim 1 as a selective injection tool for soil consolidation. 16. Use of pipes according to claim 1 inserted in the vertical direction according to a transversal dislocation at predetermined relative distances and in the longitudinal direction (X-X) in the transversal spaces between the vertical pipes coupled with transversal beams (300) constrained to said longitudinal pipes for consolidation vertical and longitudinal to support excavation fronts or slopes.