PL11919S2 - A bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks - Google Patents

Description

Bottom mattress for reinforcing hydrotechnical structures, particularly the bottom and underwater parts of shores. The subject of the industrial design is a bottom mattress for reinforcing hydrotechnical structures, particularly the bottom and underwater parts of sea coastlines, inland water bodies, and large watercourses and canals. The industrial design covers the construction of geotextile bottom and shore hydrotechnical mattresses, filled with inorganic loading materials of natural origin and having the character of spatial, multi-segment solid structures. Numerous designs for geotextile mattresses are known, taking the form of spatial, multi-segmented structures used to reinforce the seabed and underwater portions of coastlines, inland water bodies, and waterways. They are designed as a flexible geotextile bag with a flanged or sleeve-shaped inlet. Known geotextile mattresses are filled with a liquid concrete mixture, injected under pressure or gravity, and immersed in the water, where, after the concrete has set, they remain as a permanent, non-removable, and non-demountable element of seabed or shore reinforcement, protecting them from the destructive effects of erosion, tides, or sea currents, including the wakes of passing or mooring vessels. Polish patent PL 180819 describes a method for securing shorelines and reinforcing the seabed or other bodies of water and streams, as well as for constructing artificial islands and water thresholds. This method uses formwork made of partially water-permeable technical fabrics in the form of single- or multi-chamber rectangular bags. According to this patent, the bags are sewn from several panels using multiple stitching and contain stiffening folds on the edges, as well as tensioning, transport, and connection cuffs with openings and securing elements. The bags are laid on the ground after being completely filled and connected into bundles using a cord passing through the openings in the cuffs, thus creating any spatial configuration. Also known from Polish patent description PL 168254 is a solution for a method of securing shorelines and stabilizing seabeds, particularly seabeds, and building artificial islands. This solution uses formwork made of partially permeable technical fabric in the form of bags. Once fully sewn, these bags are delivered to their destination, partially filled with previously prepared stone, and arranged closely together in rows on the ground prepared according to foundation requirements. Then, using a concrete pump, they are gradually filled with pressurized cement mortar, particularly a hydrotechnical mortar, and the filled bags are sealed. According to this patent, as needed, layers of cement-filled bags are laid until the desired height of the hydrotechnical structure is reached. Vertical reinforcement is placed between the bags arranged in rows and filled, and horizontal reinforcement is placed between the layers of filled bags. Known and described bag designs that serve as formwork for stone fill and hydraulic concrete, although long used in hydraulic engineering, are expensive to construct and apply, as they require the use of expensive materials such as stone with a specific final granulation and specially prepared hydraulic concrete characterized by the ability to set relatively quickly in an aquatic environment. The industrial design solves the problem of developing a new form of multi-chamber and multi-segment bottom mattress for strengthening hydrotechnical structures, especially the bottom and underwater part of the sea coast, inland water reservoirs and watercourses, with a specific individual outline of its shapes, contours and proportions, suitable for multiple reproduction in an industrial or craft manner, in any spatial configuration directly in the water environment, without the need to use any hydro-binding cement mortars or stones. The subject of the industrial design is presented in detail in its variants and illustrated in the attached drawings, in which Fig. 1 shows a perspective "X-ray" oblique view from above of a bottom mattress for strengthening hydrotechnical structures when filled with sand, based on a square plan in the first high variant, in which the height of the mattress is equal to approximately 0.2 of the length of its side, having two inlet/outlet sleeves, having four identical connection aprons perforated with eyelets on four sides, having internal diaphragms arranged "crosswise", and having a bottom apron on two adjacent sides, Fig. 2 shows a perspective "X-ray" oblique view from above of a bottom mattress for strengthening hydrotechnical structures when filled with sand, based on a square plan in the second low version, in which the height of the mattress is equal to about 0.125 of the length of its side, having two inlet/outlet sleeves, having four identical connection aprons perforated with eyelets on four sides, having internal narrow diaphragms arranged in numerous parallel rows and ranks, and having a bottom apron on two adjacent sides, fig. 3 shows a perspective "X-ray" oblique view from above of the bottom mattress for strengthening hydrotechnical structures in a state filled with sand, based on a rectangular plan, the third low version, in which the height of the mattress is equal to about 0.005 of the length of its shorter side, having two inlet/outlet sleeves, having four identical connection aprons perforated with eyelets on four sides, having internal narrow diaphragms diaphragms arranged at equal distances from each other in one row, and having a bottom apron on two adjacent sides, fig. 4 shows a perspective "X-ray" oblique view from above of a bottom mattress for strengthening hydrotechnical structures when filled with sand, based on a rectangular plan in the fourth low version, in which the height of the mattress is equal to about 0.008 of the length of its shorter side, having numerous inlet/outlet sleeves arranged in diagonal pairs, having four identical connection aprons perforated with eyelets on four sides, having internal narrow diaphragms arranged at equal distances from each other in many parallel rows and rows, and having a bottom apron on two adjacent sides, fig. 5 shows a perspective "X-ray" oblique view from above of a slope mattress for strengthening hydrotechnical structures filled with sand, based on a rectangular plan in a low fifth variety, in which the height of the mattress is equal to approximately 0.12 of the length of its shorter side, having numerous inlet/outlet sleeves arranged diagonally with battens, having numerous internal transverse chamber partitions, having two identical connection aprons perforated with straps on two of its longer sides and one shorter lower apron perforated with eyelets on the shorter side, having internal narrow diaphragms set at equal distances to each other in many parallel rows and series, and having a bottom apron on two adjacent sides, including the lower shorter side, and having at the top and bottom of one cylindrical hydrotechnical chicane, with numerous inlet/outlet sleeves, fig. 6 shows a perspective "X-ray" oblique view from above of a bottom-slope mattress for strengthening hydrotechnical structures when filled with sand, based on a rectangular plan in a sixth low version, in which the height of the mattress is equal to about 0.12 of the length of its shorter side, having numerous inlet/outlet sleeves arranged in diagonal pairs, having numerous internal transverse chamber partitions, having two identical connection aprons perforated with eyelets on two of its longer sides and one shorter lower apron perforated with eyelets on the shorter side, having internal narrow diaphragms arranged in each of the chambers at equal distances from each other in many parallel in rows and series, and having a bottom apron on two adjacent sides, including the lower shorter side, Fig. 7 shows a perspective "X-ray" oblique view from above of a bottom-slope mattress for strengthening hydrotechnical structures when filled with sand, based on a rectangular plan in a seventh-low version, in which the height of the mattress is equal to approximately 0.05 of the length of its shorter side, having numerous inlet/outlet sleeves arranged in diagonal pairs, having numerous internal transverse chamber partitions, having two identical connection aprons perforated with eyelets on its two longer sides and one shorter lower apron perforated with eyelets on the shorter side, having in each of the chambers internal narrow diaphragms arranged in identical distances in many parallel rows and series, having a bottom apron on two adjacent sides, including the lower shorter side, and having at the top and bottom one cylindrical hydrotechnical chicane with numerous inlet/outlet sleeves and having the same single hydrotechnical chicane with numerous inlet/outlet sleeves located at the transition point of the bottom part into the slope part, Fig. 8 shows a schematic cross-section of the vertical plane of the bottom mattress for strengthening hydrotechnical structures in each of the seven varieties, in a state completely filled with sand, showing its bottom apron, connection apron perforated with eyelets and a single diaphragm, and with a schematic marking of the naval multi-thread connection stitches on Fig. 9 shows a schematic cross-section of two connected bottom mattresses in each of the seven varieties, completely filled with sand, showing the bottom apron, two stitched together connecting aprons perforated with eyelets, a single diaphragm and a single inlet/outlet sleeve, and with a schematic indication of the multi-thread connecting stitches on the panel fragments, and Fig. 10 shows a schematic top view of numerous bottom mattresses, in this example, two square low a, two short rectangular low b and two long rectangular low £, completely filled with sand, showing their bottom aprons and connecting aprons perforated with eyelets, and with a schematic indication of the multi-thread connecting stitches visible from above on the panel fragments. List of pattern variations. Variation 1 shown in fig. 1, 8 and 9 Variation 2 shown in fig. 2, 8 and 9 Variation 3 shown in fig. 3, 8 and 9 Variation 4 shown in fig. 4, 8 and 9 Variation 5 shown in fig. 5, 8 and 9 Variation 6 shown in fig. 6, 8 and 9 Variation 7 shown in fig. 7, 8 and 9 The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks in the first high version of the construction, is a flexible, solid-form spatial structure created by sewing numerous sheets and strips of geotextile fabric with a multi-thread machine stitch, constituting a cuboid with a base based) on a square plan, in which the height of the mattress is equal to approximately 0.2 of its side length. The mattress has two inlet/outlet identical cylindrical flexible short sleeves made of geotextile fabric and located diagonally in the immediate vicinity of the corners of its upper flat surface, and has four identical narrow, elastic connection aprons, perforated with numerous round eyelets, sewn with a similar type of multi-thread stitches on all four sides, located on the periphery of the upper surface of the mattress and having a length approximately corresponding to the length of the side of the square base of the mattress, made of the same geotextile fabric. The mattress has inside numerous identical flexible spacer diaphragms arranged "crosswise" on the axes of symmetry of the thus-shaped cuboid, made of the same geotextile fabric and secured in a predetermined position perpendicularly to the lower and upper surfaces of the mattress by sewing with a similar type of multi-thread machine stitch. The lower surface of the mattress has a surface area greater than the surface area of its square projection and is secured to the sides in such a way that it creates a pressure bottom apron on the outside of the cuboid on two adjacent sides of the base. Its width is greater than the width of the flexible connecting aprons. The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks of the same type in the second low version, is a flexible, solid-shaped spatial structure created by sewing numerous sheets and panels of geotextile fabric with a multi-thread machine stitch, constituting a cuboid with a square base, in which the height of the mattress is equal to approximately 0.125 of the length of its side. The mattress has two inlet/outlet identical cylindrical elastic short sleeves made of geotextile fabric, located diagonally in the immediate vicinity of the corners of its upper flat surface, and has four identical narrow elastic connecting aprons, perforated with numerous round eyelets, sewn with similar type of multi-thread stitches on four sides, located on the periphery of the upper surface of the mattress and having a length approximately corresponding to the length of the side of the square base of the mattress, made of the same geotextile fabric. The mattress has inside numerous identical short, flexible spacer membranes, arranged in numerous rows and arrays along one of the axes of symmetry of the thus-formed cuboid. Made of the same geotextile fabric, they are secured in a predetermined position perpendicular to the lower and upper surfaces of the mattress by sewing at equal intervals using a similar multi-thread machine stitch. The lower surface of the mattress has a surface area greater than its square projection and is secured to the sides in such a way that it forms a pressure-sensitive bottom apron on the outside of the cuboid on two adjacent sides of the base. Its width is greater than the width of the flexible connecting aprons. The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks of the same type in the third low version, is a flexible, solid-shaped spatial structure created by sewing numerous sheets and panels of geotextile fabric with a multi-thread machine stitch, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 50% and in which the height of the mattress is equal to about 0.005 of the length of its shorter side. The mattress has two inlet/outlet identical cylindrical flexible short sleeves made of geotextile fabric, located diagonally in the immediate vicinity of the corners of its upper flat surface, and has four identical narrow, flexible connection aprons, perforated with numerous round eyelets, sewn with similar type of multi-thread stitches on four sides, located on the periphery of the upper surface of the mattress and having a length approximately corresponding to the length of the sides of the rectangular base of the mattress, made of the same geotextile fabric. The mattress has an interior of numerous identical short, flexible spacer diaphragms arranged in a single row along the longer axis of symmetry of the thus-shaped cuboid. They are made of the same geotextile fabric and secured in a predetermined position perpendicular to the lower and upper surfaces of the mattress by sewing at equal intervals using a similar type of multi-thread machine stitch. The lower surface of the mattress has a surface area greater than its rectangular projection and is secured to the sides in such a way that it forms a pressure-bearing bottom apron on the outside of the cuboid on two adjacent shorter and longer sides of the base. Its width is greater than that of flexible connection aprons. The bottom mattress for reinforcing hydrotechnical structures, especially the bottom and underwater portion of banks, of the same type in the fourth low version, is a flexible, solid-form spatial structure created by sewing numerous sheets and panels of geotextile fabric with a multi-thread machine stitch. It forms a cuboid with a base based on an elongated rectangle, in which the length of the longer side is approximately 100% greater than the length of the shorter side, and in which the height of the mattress is approximately 0.008 times the length of its shorter side. The mattress has four identical cylindrical, flexible short sleeves made of geotextile fabric, at the inlet/outlet ends. Two of them are positioned diagonally, adjacent to the corners of its upper flat surface, and two are approximately opposite each other, approximately halfway along the longer side. The mattress has four identical, narrow, elastic connection aprons, perforated with numerous round eyelets, sewn with similar multi-thread stitches on all four sides, situated on the periphery of the mattress's upper surface and having a length approximately corresponding to the length of the sides of the rectangular mattress base, made of the same geotextile fabric. The mattress has an interior of numerous identical short, flexible spacer membranes, arranged in numerous rows and arrays parallel to the longer axis of symmetry of the thus-formed cuboid. Made of the same geotextile fabric, the membranes are secured in a predetermined position perpendicular to the lower and upper surfaces of the mattress by sewing at equal intervals using a similar type of machine stitch. The lower surface of the mattress has a surface area greater than its rectangular projection and is secured to the sides in such a way that it forms a pressure-sensitive bottom apron on the outside of the cuboid, on two adjacent sides: the shorter and longer sides of the base. Its width is greater than the width of the flexible connecting aprons. The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of banks of the same type in the fifth low version, intended for lining the underwater part of slopes with a very small slope angle, is a flexible, solid-form spatial structure created by sewing numerous sheets and panels of geotextile fabric with a multi-thread machine stitch, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 200% and in which the height of the mattress is equal to about 0.12 of the length of its shorter side. The mattress is internally divided into numerous identical rectangular chambers, with partitions aligned perpendicular to the longitudinal axis of symmetry, made of the same geotextile material and sewn together using the same multi-thread machine stitch from several sheets of the same geotextile. Each of the numerous chambers thus created has two identical cylindrical, flexible short inlet/outlet sleeves made of geotextile fabric, positioned diagonally adjacent to the corners of the upper flat surface of each chamber. The mattress has three narrow, identical, flexible connection aprons, perforated with numerous round eyelets and fitted with similar multi-thread stitches, sewn on the two longer sides and one shorter side using a similar type of multi-thread stitch. These are located on the periphery of the mattress's upper surface and have a length approximately corresponding to the length of the sides of the rectangular mattress base, made of the same geotextile fabric. Each mattress cell has a number of identical, short, flexible spacer diaphragms inside, arranged in two rows and multiple series, parallel to the longer axis of symmetry of the thus-formed cuboid, made of the same geotextile fabric, and secured in a predetermined position perpendicular to the lower and upper surfaces of each mattress cell by sewing at equal intervals using a similar type of multi-thread machine stitch. The lower surface of the mattress has a surface area greater than its rectangular projection and is restrained to the sides in such a way that it forms a pressure-bearing bottom apron on the outside of the cuboid, on two adjacent sides: the shorter and longer base. Its width is greater than the width of the flexible connection aprons. Near the upper edge of the shorter sides of the mattress, flexible cylindrical hydrotechnical chicanes are secured by sewing, using similar multi-thread stitches, and are equipped with two identical cylindrical flexible short sleeves made of geotextile fabric, located near their circular bottoms. A bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of banks, of the same type in the sixth low version, intended for lining the bottom at the point where it transitions into the underwater part of slopes with a very small angle of inclination, is a flexible, solid-form spatial structure created by sewing numerous sheets and panels of geotextile fabric with a multi-thread machine stitch, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 200% and in which the height of the mattress is equal to about 0.12 of the length of its shorter side. The mattress is internally divided into numerous identical rectangular chambers, with partitions positioned perpendicular to the longitudinal axis of symmetry, made of the same back geotextile material and sewn together using the same multi-thread machine stitch from several panels of the same geotextile. One of the chambers thus created is designed to be placed on a horizontal section of the body of water, while the remaining chambers are placed on the bottom part of a slope with a very small angle of inclination. Each of the numerous chambers thus created has two identical cylindrical, flexible, short inlet/outlet sleeves made of geotextile fabric, positioned diagonally, adjacent to the corners of the upper flat surface of each chamber. The mattress has three narrow, identical, elastic connection aprons, perforated with numerous round eyelets, sewn with similar multi-thread stitches on the two longer sides and one shorter side. They are located on the perimeter of the upper surface of the mattress and have a length corresponding to the length of the sides of the rectangular mattress base, made of the same geotextile fabric. The elastic connection aprons located on the longer sides of the mattress are made of more than one section. Each mattress chamber has inside it numerous identical short, flexible spacer diaphragms, arranged in two rows and numerous series, parallel to the longer axis of symmetry of the thus-formed cuboid. Made of the same geotextile fabric, they are secured in a predetermined position perpendicular to the lower and upper surfaces of each mattress chamber by sewing at equal intervals using a similar type of multi-thread machine stitch. The lower surface of the mattress has a surface area greater than the surface area of its rectangular projection and is secured to the sides in such a way that it forms a pressure-sensitive bottom apron on the outside of the cuboid on the two adjacent shorter and longer sides of the base. Its width is greater than the width of the flexible connecting aprons. A bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of banks, of the same type in the seventh low version, intended for lining the bottom at the point where it transitions into the underwater part of slopes with a very small angle of inclination, is a flexible, solid-form spatial structure created by sewing numerous sheets and panels of geotextile fabric with a multi-thread machine stitch, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 200% and in which the height of the mattress is equal to about 0.12 of the length of its shorter side. The mattress is internally divided into numerous identical rectangular chambers, with partitions aligned perpendicular to the longitudinal axis of symmetry, made of the same geotextile material and sewn together using the same multi-thread machine stitch from several panels of the same geotextile. At least one of these chambers is designed to be placed on a horizontal section of the water body's bottom, while the remaining chambers are placed on the bottom part of a slope with a very small angle of inclination. Each of these numerous chambers of the mattress has two inlet/outlet identical cylindrical flexible short sleeves made of geotextile fabric, positioned diagonally, adjacent to the corners of the upper flat surface of each chamber. The mattress has three narrow, identical, elastic connection aprons, perforated with numerous round eyelets, sewn with similar multi-thread stitches on the two longer sides and one shorter side. They are located on the perimeter of the upper surface of the mattress and have a length corresponding to the length of the sides of the rectangular mattress base, made of the same geotextile fabric. The elastic connection aprons located on the longer sides of the mattress are made of more than one section. Each mattress chamber has inside it numerous identical short, flexible spacer diaphragms, arranged in three rows and numerous series, parallel to the longer axis of symmetry of the thus-formed cuboid. Made of the same geotextile fabric, they are secured in a predetermined position perpendicular to the lower and upper surfaces of each mattress chamber by sewing at equal intervals using a similar type of multi-thread machine stitch. The lower surface of the mattress has a surface area greater than its rectangular projection and is secured to the sides in such a way that it forms a pressure-sensitive bottom apron on the outside of the cuboid, on two adjacent sides: the shorter and longer sides of the base. Its width is greater than the width of the flexible connecting aprons. In the immediate vicinity of the upper edge of the shorter sides of the mattress, and at its inflection point corresponding to the line of transition of the bottom into the slope, three identical flexible cylindrical hydrotechnical chicanes are fastened by sewing with similar type of multi-thread stitches, provided with two identical cylindrical flexible short inlet/outlet sleeves made of geotextile fabric located near their round bottoms. Each of the seven variants of the bottom hydrotechnical mattress can be applied in numerous copies in combination with other variants, after filling with sand, by sewing its connecting aprons into one non-detachable whole, consisting in interlacing a flexible tendon through fitted cylindrical eyelets, as shown in the example of the implementation in Fig. 10. The most advantageous method of laying the bottom mattress according to the industrial pattern on the bottom and on the underwater part of the slope of a reservoir or watercourse is the following procedure. The standard procedure in the first version, called the surface version, consists in the following: a rolled bottom mattress delivered by wheeled transport in any of the seven varieties described is laid completely flat on the surface of a horizontal vibrating table located on the land at the prefabrication yard, it is opened and set vertically by partially rolling up the inlet/outlet identical cylindrical flexible short sleeves of the mattress, the internal position of numerous internal partitions of the mattress is carefully checked and possibly corrected, the mouthpiece of a flexible pipe connected to a slurry pump is inserted into the sleeves of the mattress one by one or simultaneously and a water-sand mixture with a water to sand ratio of about 50% to 50% is continuously fed into the interior of the mattress, with its outflow rate adjusted to the rate of natural water seepage, simultaneous constant vibrating movement of the table, then after the mattress interior is completely filled with drained sand, the vibration table is switched off, the mouthpiece of the flexible sludge tube is removed from the sleeves, the sleeves protruding from the mattress surface that are not filled with sand are tied and brought to a "flat" position, the filled bag is suspended from the transport strap using numerous hook-shaped hooks inserted into all or some of the eyelets of all four mattress aprons and the mattress filled with sand is moved above the water column to the place corresponding to its seating point on the bottom, the mattress is lowered to the bottom with a lifting device under the command of a diver located at the bottom of the water body, who at the same time supervises the correct seating of the mattress on the bottom pressure apron on two adjacent the shorter and longer sides of the base of the adjacent and previously laid mattress, and with the help of the diver, the hook-shaped hooks are released from the transport strap, after which the diver uses a rope to connect the sleeves of the mattresses located next to each other in rows and rows, passes the end of the rope to the shore, where it is connected to a winch (for example a car one) and the connection of the sleeves with the eyelets of the two adjacent mattresses, made by the diver, is pulled into a monolith. The standard procedure in the second version, called the underwater vibration-free version, consists in the following: a rolled-up bottom mattress delivered by wheeled transport in any of the seven varieties described is laid out completely flat on a horizontal surface on land in the immediate vicinity of the reinforced water area, opened and positioned vertically by partially rolling up the inlet/outlet identical cylindrical flexible short sleeves of the mattress, the internal position of the numerous internal partitions of the mattress is carefully checked and possibly corrected, after which it is lowered into the water to the intended location under the direction and command of the diver, who inserts the mouthpiece of a flexible pipe connected to the sludge pump into the sleeves of the mattress one after another or simultaneously, and a water-sand mixture with a water to sand ratio of approximately 50% to 50%, with the speed of its outflow adjusted to the rate of natural water drainage, and then, after the inside of the mattress is completely filled with drained sand, the diver removes the mouthpiece of the flexible mud pipe from the sleeves, ties the sleeves protruding from the surface of the mattress that are not filled with sand and brings them to a "flat" position. During or before the mattress is filled, the diver ensures the mattress is properly seated on the bottom pressure skirt on the two adjacent shorter and longer sides of the base of the adjacent, previously laid mattress. After filling the notes, the diver uses a rope to connect the sleeves of the adjacent mattresses in rows and lines. The diver then passes the end of the rope to the shore, where it is connected to a winch (e.g., a truck winch) and the diver's connection of the sleeves and eyelets of the two adjacent mattresses into a monolith is tightened. Significant features of the industrial design. The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks, is characterized by the following essential features of the industrial design. The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks, in the first high version, is a spatial structure created by sewing numerous sheets and panels of geotextile fabric with a machine stitch, constituting a cuboid with a square base, in which the height of the mattress is equal to approximately 0.2 of the length of its side. The mattress has two inlet/outlet identical cylindrical short sleeves made of geotextile fabric and located diagonally in the immediate vicinity of the corners of its upper flat surface, and has four identical narrow connecting aprons perforated with numerous round eyelets, sewn with similar type of stitches on four sides, located on the periphery of the upper surface of the mattress and having a length corresponding to the length of the side of the square base of the mattress, made of the same geotextile fabric. The mattress has inside a number of identical spacer diaphragms placed "crosswise" in the axes of symmetry of the cuboid thus formed, made of the same geotextile fabric and fixed in a given position perpendicularly to the lower and upper surfaces of the mattress by sewing with a similar type of machine stitch. The lower surface of the mattress has a surface larger than the surface of its square projection and is fixed to the sides in such a way that it creates a pressure bottom apron on the outside of the cuboid on two adjacent sides of the base. The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks of the same type in the second) low version, is a spatial structure created by sewing with a machine stitch, numerous sheets and panels of geotextile fabric, constituting a cuboid with a base based on a square plan, in which the height of the mattress is equal to approximately 0.125 of the length of its side. The mattress has two inlet/outlet identical cylindrical short sleeves made of geotextile fabric, located diagonally in the immediate vicinity of the corners of its upper (flat) surface, and has four identical narrow connecting aprons perforated with numerous round eyelets, sewn with similar type of stitches on four sides, located on the periphery of the upper surface of the mattress and having a length corresponding to the length of the side of the square base of the mattress, made of the same geotextile fabric. The mattress has inside a number of identical short distance diaphragms, arranged in numerous rows and series, in one of the axes of symmetry of the cuboid thus formed, made of the same geotextile fabric and fixed in a given position perpendicularly to the lower and upper surface of the mattress, by sewing with a similar type of machine stitch. The bottom surface of the mattress has a surface area greater than the surface area of its square projection and is fixed to the sides in such a way that it forms a pressure bottom apron on the outside of the cuboid on two adjacent sides of the base. The bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks of the same type in the third low version of the execution, is a spatial structure created by sewing with a machine stitch, numerous panels and panels of geotextile fabric, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 50% and in which the height of the mattress is equal to about 0.005 of the length of its shorter side. The mattress has two inlet/outlet identical cylindrical short sleeves made of geotextile fabric, located diagonally in the immediate vicinity of the corners of its upper flat surface, and has four identical narrow connecting aprons perforated with numerous round eyelets, sewn with similar type of stitches on four sides, located on the periphery of the upper surface of the mattress and having a length corresponding to the length of the sides of the rectangular base of the mattress, made of the same geotextile fabric. The mattress has a plurality of identical short spacer diaphragms arranged in a single row along the longer axis of symmetry of the thus-shaped cuboid. They are made of the same geotextile fabric and secured in a predetermined position perpendicular to the lower and upper surfaces of the mattress by sewing them with a similar type of machine stitch. The lower surface of the mattress has a surface area greater than its rectangular projection and is secured to the sides in such a way that it forms a pressure-bearing bottom apron on the outside of the cuboid on two adjacent sides: the shorter and longer sides of the base. A bottom mattress for reinforcing hydrotechnical structures, particularly the bottom and underwater portions of banks, of the same type in the fourth low-profile version. This is a three-dimensional structure created by sewing numerous sheets and panels of geotextile fabric with a machine stitch. It forms a cuboid with a base based on an elongated rectangle, where the length of the longer side is approximately 100% greater than the length of the shorter side, and where the mattress height is approximately 0.008 times the length of its shorter side. The mattress has four identical cylindrical, flexible, short inlet/outlet sleeves made of geotextile fabric. Two of these are positioned diagonally, adjacent to the corners of its upper flat surface, and two are positioned opposite each other, halfway along the longer side. The mattress has four identical, narrow, perforated, circular eyelets, sewn with similar stitching on all four sides. These are located on the periphery of the mattress's upper surface and are of a length corresponding to the length of the sides of the mattress's rectangular base, made of the same geotextile fabric. The mattress has numerous identical, short, spacer diaphragms inside, arranged in numerous rows and arrays, parallel to the longer axis of symmetry of the thus-formed cuboid, made of the same geotextile fabric, and secured in a predetermined position perpendicular to the lower and upper surfaces of the mattress by sewing in a similar type of machine stitch. The lower surface of the mattress has a surface area larger than the surface area of its rectangular projection and is fixed to the sides in such a way that it creates a pressure bottom apron on the outside of the cuboid on two adjacent sides: the shorter and the longer of the base. A bottom mattress for strengthening hydrotechnical structures, especially the bottom and underwater part of banks, of the same type in the fifth low version intended for lining the underwater part of slopes with a very small angle of inclination, is a spatial structure created by sewing with a machine stitch, numerous sheets and panels of geotextile fabric, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 200% and in which the height of the mattress is equal to about 0.12 of the length of its shorter side. The mattress is internally divided into numerous identical rectangular chambers, with partitions aligned perpendicular to the longitudinal axis of symmetry, made of the same geotextile material and sewn using the same machine stitch from a single or multiple sheets of the same geotextile. Each of the multiple chambers thus created has two identical short cylindrical inlet/outlet sleeves made of geotextile fabric, positioned diagonally adjacent to the corners of the upper flat surface of each chamber. The mattress has three narrow connection aprons, perforated with numerous round eyelets, sewn with similar stitching on the two longer sides and one shorter side. They are located on the periphery of the mattress's upper surface and have a length corresponding to the length of the sides of the mattress's rectangular base, made of the same geotextile fabric. Each mattress cell has a number of identical short spacer diaphragms inside, arranged in two rows and multiple series, parallel to the longer axis of symmetry of the thus-formed cuboid, made of the same geotextile fabric, and secured in a predetermined position perpendicular to the lower and upper surfaces of each mattress cell by sewing with a similar type of machine stitch. The lower surface of the mattress has a surface area greater than its rectangular projection and is fixed to the sides in such a way that it forms a pressure-bearing bottom apron on the outside of the cuboid, on two adjacent sides: the shorter and longer base. Cylindrical hydrotechnical chicanes are sewn in with similar stitches, adjacent to the upper edges of the shorter sides of the mattress. These chicanes are provided with two short cylindrical inlet/outlet sleeves made of geotextile fabric, located near their circular bottoms. A bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of banks, of the same type in the sixth low version, intended for lining the bottom at the point where it transitions into the underwater part of slopes with a very small angle of inclination, is a spatial structure created by sewing with a machine stitch, numerous sheets and panels of geotextile fabric, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 200% and in which the height of the mattress is equal to about 0.12 of the length of its shorter side. The mattress is internally divided into numerous identical rectangular chambers, with partitions arranged perpendicular to the longitudinal axis of symmetry, made of the same geotextile material and sewn together using the same machine stitch from several panels of the same geotextile. At least one of these chambers is designed to be located on a horizontal section of the water body's bottom, while the remaining chambers are located on the bottom part of a slope with a very small angle of inclination. Each of these numerous mattress chambers has two identical inlet/outlet short cylindrical sleeves made of geotextile fabric, positioned diagonally, adjacent to the corners of the upper flat surface of each chamber. The mattress has three narrow, perforated attachment aprons with numerous round eyelets, sewn with similar stitching on the two longer sides and one shorter side. These are located on the periphery of the mattress's upper surface, their length corresponding to the length of the sides of the rectangular mattress base, and are made of the same geotextile fabric. Each mattress cell has numerous short spacer diaphragms inside, arranged in two rows and multiple series, parallel to the longer axis of symmetry of the thus-formed cuboid, made of the same geotextile fabric, and secured in a predetermined position perpendicular to the lower and upper surfaces of each mattress cell by sewing in a similar type of machine stitch. The lower surface of the mattress has a surface area greater than the surface area of its rectangular projection and is fixed to the sides in such a way that it creates a pressure bottom apron on the outside of the cuboid on two adjacent sides: the shorter and the longer of the base. A bottom mattress for strengthening hydrotechnical structures, especially the bottom and the underwater part of the banks, of the same type in the seventh low version, intended for lining the bottom at the point where it transitions into the underwater part of slopes with a very small angle of inclination, is a spatial structure created by sewing with a machine stitch, numerous sheets and panels of geotextile fabric, constituting a cuboid with a base based on the plan of an elongated rectangle, in which the length of the longer side is greater than the length of the shorter side by about 200% and in which the height of the mattress is equal to about 0.12 of the length of its shorter side. The mattress is internally divided into numerous identical rectangular chambers, with partitions arranged perpendicular to the longitudinal axis of symmetry, made of the same geotextile material and sewn together using the same machine stitch from several panels of the same geotextile. At least one of these chambers is designed to be placed on a horizontal section of the water body's bottom, while the remaining chambers are placed on the bottom part of a slope with a very small angle of inclination. Each of these numerous chambers of the mattress has two inlet/outlet cylindrical sleeves made of geotextile fabric, positioned diagonally, adjacent to the corners of the upper flat surface of each chamber. The mattress has three narrow connection aprons perforated with numerous round eyelets, sewn with similar stitches on the two longer sides and one shorter side, situated on the edge of the upper surface of the mattress and having a length corresponding to the length of the sides of the rectangular mattress base, made of the same geotextile fabric. Each of the mattress chambers has inside numerous identical short, flexible spacer diaphragms, arranged in three rows and numerous series, parallel to the longer axis of symmetry of the thus formed cuboid, made of the same geotextile fabric and secured in a desired position perpendicular to the lower and upper surfaces of each of the mattress chambers, by sewing with a similar type of machine stitch. The lower surface of the mattress has an area greater than that of its rectangular projection and is restrained to the sides in such a way that it forms a pressure bottom apron on the outside of the cuboid on two adjacent sides: the shorter and longer of the base. In the immediate vicinity of the upper edge of the shorter sides of the mattress, and at its inflection point corresponding to the line of transition from the bottom to the slope, three cylindrical hydrotechnical chicanes are restrained by sewing with similar stitches, provided with two short inlet/outlet cylindrical sleeves made of geotextile fabric, located near their circular bottoms. Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 Fig. 7Fig. 1Fig. 2Fig. 3Fig. 4Fig. 5Fig. 6fig. 7fig. 8 fig. 9 fig. 10 PL PL