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EP-4739845-A1 - METHOD AND DEVICE FOR IMPERMEABILIZING THE BOTTOM OF A WATER BASIN

EP4739845A1EP 4739845 A1EP4739845 A1EP 4739845A1EP-4739845-A1

Abstract

A method for impermeabilizing the bottom (3) of a water basin (1) provided with banks (2) made of concrete or natural soil, comprising spreading a substrate (4) of inert mineral mate¬ rials on the bottom (3) of the water basin (1) comprising the following steps: - making respective grooves (6) in respective interface zones (11) between the substrate (4) and the banks (2) of the water basin (1), wherein each groove extends longitudinally along a respective bank (2); - spreading an impermeable covering element (5) on the substrate (4) and inserting the impermeable covering element (5) in said respective grooves (6), forming a respective bend (7) in each groove (6); - fixing the impermeable covering element (5) to the banks (2) of the water basin (1) using fixing elements (16). An impermeabilization device for impermeabilizing a bottom (3) of a body of water (1) comprising an impermeable covering element (5), configured to be spread on a substrate (4) made of inert mineral materials spread on the bottom (3) of a water basin (1), comprising at least one support layer (13) and an impermeable layer made of composite material (14), characterised in that a portion of said impermeable covering element is folded in order to form a bend (7), which can be inserted into a groove (6) which extends into an interface zone between the bottom (3) and banks (2) of the water basin (1).

Inventors

  • SCUERO, Alberto Maria

Assignees

  • Carpi Tech B.V.

Dates

Publication Date
20260513
Application Date
20240703

Claims (14)

  1. 1. A method for impermeabilizing the bottom (3) of a water basin (1) comprising spreading a substrate (4) of inert mineral materials on the bottom (3) of the water basin (1), characterized in that it comprises the following steps: - making respective grooves (6) in respective interface zones (11) between the substrate (4) and banks (2) of the water basin (1), wherein each groove extends longitudinally along a respective bank (2); - spreading an impermeable covering element (5) on the substrate (4) and inserting the impermeable covering element (5) into said respective grooves (6), forming in each groove (6) a respective bend (7), that forms an accumulation portion of the impermeable covering element (5), suitable for compensating relative movements between the substrate (4) and the banks (2); - inserting into each of said grooves (6), between a first rectilinear portion (9) and a second rectilinear portion (10) of the respective bend (7), a strip (8) made of non-woven geotextile material, or of PTFE, or equivalent material, folded on itself, positioned for keeping separate the mutually facing surfaces of the bend (7), wherein the strip (8) made of nonwoven geotextile material or of PTFE, has a low coefficient of friction and it is arranged for facilitating mutual sliding of said mutually facing surfaces of said bend (7), avoiding damage/wear thereto; - fixing the impermeable covering element (5) to the banks (2) of the water basing (1) using fixing elements (16).
  2. 2. Method according to claim 1, comprising making the impermeable covering element (5) with a geomembrane (14) comprising a layer of PVC, PVC with ELVALOY, TPO, or EPDM.
  3. 3. Method according to claim 2, further comprising heat laminating on said layer of PVC, PVC with ELVALOY, TPO, or EPDM, at least one layer of non-woven geotextile material.
  4. 4. Method according to claim 3, further comprising heat laminating on opposite faces of said layer of PVC, PVC with ELVALOY, TPO, or EPDM, a respective layer of non- woven geotextile material.
  5. 5. Method according to one of claims 2 to 4, further comprising positioning the geomembrane (14) on an underlying reinforcing layer (13) made of technical textile material.
  6. 6. Method according to one of the preceding claims, further comprising spreading a layer (15) of impermeabilizing material on the impermeable covering element (5).
  7. 7. Impermeabilization device for impermeabilizing a bottom (3) of a water basin (1) comprising an impermeable covering element (5), configured to be spread on a substrate (4) of inert mineral materials spread on a bottom (3) of the water basin (1), comprising at least one support layer (13) and an impermeable layer made of composite material (14), characterised in that a portion of said impermeable covering element is folded to form a bend (7), which can be inserted into a groove (6) which extends into an interface zone (11) between the bottom (3) and banks (2) of the water basin (1); wherein between a first rectilinear portion (9) and a second rectilinear portion (10) of said bend (7) a strip (8) of non-woven geotextile material, or of PTFE, or of equivalent material, folded on itself is inserted, positioned for keeping separate the mutually facing surfaces of the bend (7), wherein the strip (8) made of non-woven geotextile material or of PTFE, or of equivalent material has a low coefficient of friction and it is arranged for facilitating the mutual sliding of said mutually facing surfaces of said bend (7), preventing damage or wear thereto.
  8. 8. Impermeabilization device according to claim 7, wherein the impermeable covering element (5) comprises a geomembrane (14) comprising a layer of PVC, PVC with ELVALOY, TPO, or EPDM.
  9. 9. Impermeabilization device according to claim 8, wherein at least one layer of nonwoven geotextile material is heat-laminated on said layer of PVC, PVC with ELVALOY, TPO, or EPDM.
  10. 10. Impermeabilization device according to claim 9, wherein a respective layer of nonwoven geotextile material is heat-laminated on opposite faces of said layer di PVC, PVC with ELVALOY, TPO, or EPDM.
  11. 11. Impermeabilization device according to one of claims 8 to 10, wherein the geomembrane (14) is fixed to an underlying support layer (13) made of technical textile material.
  12. 12. Impermeabilization device according to one of claims 7 to 11, wherein the impermeable covering element (5) is fixed to the banks (2) of the body of water (1) using fixing elements (16).
  13. 13. Impermeabilization device according to one of claims 7 to 12, further comprising a layer (15) made of impermeabilizing material, spread on said impermeable covering element (5), in particular bituminous concrete or cement.
  14. 14. Impermeabilization device according to claim 15, wherein the non-woven geotextile material laminated on the geomembrane (14) is soaked up by the bituminous concrete or by the cement, creating a tenacious and impermeable bond between the two materials.

Description

Method and device for impermeabilizing the bottom of a water basin BACKGROUND OF THE INVENTION [0001] The present invention relates to a method and to a device for impermeabilizing natural or artificial water basins with natural soil or concrete banks, in which the bottom and the banks of the basin can be subjected to deformations caused by the interaction with the water in the basin, by differential settlements, due to seismic events or other causes, which produce relative movements between the concrete banks and the bottom of the basin which generally consists of soil or rock, which are covered with a base layer of mineral substances to obtain a flat, compact and homogeneous bottom. STATE OF THE ART [0002] Impermeabilizing the bottom of artificial or natural basins by spreading on the bottom of the basin an impermeable membrane, which extends up to the banks of the basin, for example banks made of concrete, or made of excavated and therefore strongly consolidated material, to which the membrane is anchored, is known. [0003] The bottom of the basin may be covered by a base layer of mineral substances, so as to obtain a flat, compact, and homogeneous smooth substrate on which the impermeable membrane can be spread and fixed or simply placed. [0004] The banks of the basin and the substrate on the bottom of the basin behave differently towards mechanical stresses, for example due to ground settlement movements, caused and not caused by the action of the water present in the basin, or by telluric movements. [0005] As a matter of fact, the banks of the basin are relatively rigid, while the substrate on the bottom of the basin can be considered as an elastic layer; therefore, the deformations to which the substrate is subjected on the bottom of the basin due to the mechanical stresses are much higher, considering the same stresses, than the deformations of the banks. [0006] Upon the occurrence of the deformations mentioned above, as a result this leads to the impermeable membrane, which is integral with the substrate on the bottom of the basin for possible anchoring systems or ballast, for water load and the banks, being subjected to deformation stresses which may also reach values such to cause breaking of the impermeable membrane, with resulting loss of impermeabilization of the bottom of the basin. [0007] An object of the present invention is providing an impermeabilization of the bottom of a natural or artificial water basin by means of an impermeable membrane, eliminating the risk of breaking of the impermeable membrane, due to deformations of different magnitude, to which the bottom of the basin and the banks are subjected to, due to mechanical stresses. SUMMARY OF THE INVENTION [0008] The object of the invention is achieved through a method for impermeabilizing the bottom of a water basin according to claim 1, as well as through an impermeabilization device according to claim 6. In particular, according to a first aspect of the invention, there is provided a method for impermeabilizing the bottom of a water basin which envisages providing a groove in the interface zone between the bottom and the banks of the basin, spreading an impermeable covering element on the bottom of the basin, inserting the impermeable covering element into said groove, forming a bend, and fixing the impermeable covering element to the banks of the basin using fixing means. According to another aspect of the invention there is provided an impermeabilization device comprising at least one support layer and an impermeable layer made of composite material, wherein an area of the covering device is folded to form a bend and it is inserted into a groove which extends into an interface zone between the bottom and the banks of the basin. The presence of the bend in the impermeable cover, inserted into a groove in the interface zone between the bottom and the banks of the basin, enables the impermeable cover to compensate for any deformations of different magnitude which may occur in the bottom and in the banks of the basin. As a matter of fact, the bend allows the membrane to extend, due to the deformations mentioned above, without being subjected to tensile stresses, therefore eliminating the risk of breaking of the membrane. BRIEF DESCRIPTION OF THE DRAWINGS [0009] Further characteristics and advantages of the invention will be apparent from the description of embodiments of the invention below, provided by way of non-limiting example, with reference to the attached drawings, wherein: figure l is a schematic cross-sectional view of the bottom and of the banks of a water basin, which shows the installation of an impermeable covering device according to the invention; figure 2 is an enlarged detail of figure 1; figure 3 is a cross-section like that of figure 1, which shows a variant of the installation of an impermeable covering device according to the invention. DETAILED DESCRIPTION OF THE INVENTION [0010] Figure 1 schematically show