RU2786956C1 - Pool formation method - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, and in particular to methods for forming pools and artificial reservoirs for swimming and recreation, as well as for use as decorative ponds. The effect is achieved by the fact that the method for pool formation includes excavation and formation of the pool bowl, while a drainage system is installed on the bottom of the pool bowl, then a protective layer of geotextile fabric is laid on the bottom of the pool bowl, then a bottom cleaning system is installed, which is at least at least one air nozzle connected to the air supply system, then install skimmers and a bottom drain, then lay a layer of waterproofing membrane, then lay a layer of reinforcing mesh, separating it from the waterproofing membrane with a film, then lay the first structural layer, then the intermediate reinforcing mesh and the second structural layer , and as the first and second structural layers, a mixture of filler is used in combination with a composite/polyurethane resin, and the second structural layer is coated with a waterproof varnish in the form of a polyurethane base.

EFFECT: invention provides the ability to carry out permanent drainage under the bowl and provide the pool with clean water.

11 cl, 5 dwg

Description

The invention relates to the field of construction, and in particular to methods for forming pools and artificial reservoirs for swimming and recreation, as well as for use as ornamental ponds.

There are various ways of forming pools. For example, there is known a method for forming a pool according to patent No. EP1922457 under the title "Method for manufacturing water containers in general" (IPC: E04H 4/00). A method for forming pools, swimming pools, fountains and artificial ponds in general, said process comprising the following phases: laying a waterproofing layer; the use of filters, air ducts, inlets and outlets, collector channels and all equipment necessary for the proper functioning of said pool, pool, fountain or pond; lining the inner walls of the tank thus formed and/or the bottom of the tank thus formed with stones laid over said waterproofing layer; characterized in that: before the aforementioned phase, one or more sheets of non-woven material are laid on the inner surface of the excavation and/or on the base layer(s); and in this said stones are wholly or partly coated with a binder resin. The disadvantages of this product are that there is no drainage system under the pool structure, which can lead to the rise of the bowl with groundwater when it is completely empty, as well as rapid contamination of the bottom during operation, the absence of a water intake system for water filtration, filtration, water treatment and disinfection, return clean water of drinking quality in the pool bowl.

The closest analogue to the claimed invention (prototype) in terms of the totality of existing features is a method for forming a pool according to the patent for invention No. EP3388598 called "Method of creating a cast swimming pool" (IPC: E04H 4/00). The way to form artificial pools, swimming pools, etc., is to excavate the pool in accordance with the design specifications; applying to the entire surface of the pool, previously dug in the ground, the first layer of non-woven material; placement of equipment and pipelines for supplying and draining water on the first layer of non-woven material; applying to the first layer of non-woven material and to the overlying equipment and pipelines a second layer consisting of a mixture of water, lime-silica binder, sand with a low particle size and acrylic resin in a percentage that varies from 1% to 10% in relation to the lime binder a substance adapted to make said second layer suitable for optimal adhesion of additional layers to cover it, with water being the most common component of the mixture to ensure maximum fluidity of said mixture .; applying a third layer that is at least partially impermeable, consisting of a mixture of water, lime-silica binder, sand with a low particle size value and acrylic resin, in a percentage that varies from 1% to 10% with respect to the lime binder, fibers of silica, glass, and the like having a length of 1.0 cm to 6 cm; and a material that can be formed at a low relative density, preferably selected from cork chips, foam beads, and the like. ; after compacting said third layer (8), proceed to shape its surface with abrasive tools and tools until it is completely flat and meets design standards; application of at least one fourth layer (9, 10) consisting of a mixture of water, lime-silica binder, sand with a low particle size, acrylic resin in a percentage that varies from 1% to 10% with respect to the lime binder, and at least one structural mesh made of silica fiber or glass or the like, with at least unidirectional mechanical properties; application of the fifth waterproof layer, consisting of a mixture of water, a light-colored lime-siliceous binder, low particle size siliceous sands, additives based on silicone in the form of a powder to increase the degree of impermeability of the surface of the layer in a percentage that can vary within 0.1% .and 1% with respect to the lime binder, acrylic resin, in a percentage that can vary from 1% to 10% with respect to the lime binder, and fibers of silica, glass, etc., the length of which is from 1.0 cm to 6 cm. The disadvantages of this tank are: rapid contamination of the bottom during operation and the absence of a water intake system for filtration, filtration, water treatment and disinfection of water, return of clean drinking water to the pool bowl.

The task set by the developer of a new method of building a pool was to increase the strength and durability during operation while eliminating the shortcomings of known analogues. The technical result achieved in the process of solving the problem set for the developer is the ability to carry out permanent drainage under the bowl and provide the pool with clean water, in accordance with the Sanitary and Epidemiological Rules and SanPiN 2.1.2.1188-03 standards. Also, the technical result is to provide the possibility of automatic cleaning of the bottom from debris. This technical result is achieved due to the installed drainage system under the pool bowl. Also, the technical result is to improve the performance of the pool by increasing the durability of its coating. This technical result is achieved through a structural coating, which is a sequential combination of layers of quartz sand, a reinforcing white mesh, a black mesh film, a waterproofing membrane with a stretch factor of more than 50%, geotextile and a fixing layer of resin (lacquer).

The essence of the invention lies in the fact that a method for forming a pool, including excavation and molding of the pool bowl, at the same time, a drainage system is equipped on the bottom of the pool bowl, then a protective layer of geotextile fiber is laid on the bottom of the pool bowl, then a bottom cleaning system is installed, which is at least one air nozzle connected to the air supply system, then skimmers and a bottom drain are installed, then a layer of waterproofing membrane is laid, then a layer of reinforcing mesh is laid separating it from the waterproofing membrane with a film, then the first structural layer is laid, then the intermediate reinforcing mesh and the second structural layer, and as the first and second structural layers, a mixture of filler is used in combination with a composite resin based on polyurethane, and the second structural layer is coated with a waterproof varnish. And after excavation, the base is cleaned of stones and other inclusions. In addition, the pool bowl is molded by manual pressing of wetted clay and the use of a sand-cement mixture. In this case, the pool walls are formed at an angle of 2 to 90° from the bottom to the edges. They also equip a drainage system consisting of a drain connected by a drainage pipe to the sewer in which the pump is installed. And as a geotextile fiber, a synthetic non-woven material with a density of 300 g / sq.m is used. At the same time, a butyl rubber EPDM membrane with elasticity up to 300% with a thickness of 1-2 mm is used as a waterproofing membrane. And as a reinforcing mesh, a plastic mesh with a diameter of 2-4 mm with a cell of 30-50 mm is used. In addition, pebbles and/or quartz, and/or marble chips, and/or onyx and/or other loose rocks of stone materials are used as a filler. And as an intermediate reinforcing mesh, a polypropylene mesh 1-3 mm thick with a cell of 30-50 mm is used. In addition, skimmers and bottom drains are installed, made of ABS plastic or stainless steel.

The invention is illustrated by drawings, which show:

in fig. 1 - stage of excavation and preparation of the base;

in fig. 2 - schematically shows the pool in a section with a drainage system;

in fig. 3 - schematically shows the pool in section with an automatic bottom cleaning device;

in fig. 4 - schematically shows the device for automatic cleaning of the bottom view B;

in fig. 5 - schematically shows the layers of the structural coating.

The method of pool formation consists of the following stages: excavation and preparation of the base; production of a drainage system for the drainage of accumulated storm or groundwater from the pool bowl; production of a bottom cleaning system 5; installation of embedded elements; production and laying of a protective layer from a specially selected synthetic fiber; manufacturing and laying a layer of waterproofing membrane 7; laying mesh 8 for structured pavement; laying the first structural layer 9; laying intermediate reinforcing mesh 10; laying the second structural layer 11; final varnishing is the final stage. At the stage of excavation and preparation of the base, the soil mass is developed with technical means specialized for earthworks, for example, an excavator, after which stones and other inclusions are cleaned, the relief of the future bowl is formed by manually pressing wetted clay and using a sand-cement mixture. In this case, the walls of 1 pool are formed at an angle from 2 to 90 ° from the bottom to the edges. Then, at the bottom of the pool, a drainage system is arranged, consisting of a drain (not shown in the drawing) connected by a drainage pipe 2 to a sewer 4 in which a pump 3 is installed to drain water. Next, embedded elements are installed, which consist of skimmers, bottom drain, made of ABS plastic or stainless steel. Then a protective layer of geotextile fabric 6 is laid on the bottom. Geotextile fabric 6 is designed to protect the layer of the waterproofing membrane 7 from possible damage by various inclusions, which can be found both in natural soil and be the result of human activity, as well as to provide additional protection from impacts. during operation (for example, from plants and animals). Geotextile fabric 6 is a synthetic non-woven material with a density of 300 g/sq.m. Next, a bottom cleaning system 5 is made, which is a small air nozzle connected to an air supply system, through which air is supplied every 2-4 hours. To do this, for each sq. bottom meter install at least one air nozzle. With this mechanism of operation, all the dirt that settles on the bottom is lifted to the surface and taken away through skimmers or overflowing onto a mechanical sand filter. Next, a layer of waterproofing membrane 7 is laid on the protective layer of geotextile fabric 6. Waterproofing membrane 7 is designed for external waterproofing of the pool structure. The waterproofing membrane 7 is a butyl rubber EPDM membrane with elasticity up to 300% with a thickness of 1-2 mm. Then, a layer of reinforcing mesh 8 is laid on the layer of the waterproofing membrane 7, separating it from the waterproofing membrane 7 with a film. Such separation is necessary to avoid contact of the waterproofing membrane 7 with the first structural layer 9. The presence of a reinforcing mesh 8 significantly increases the strength of the entire structure for bending, shearing, punching, stretching and other deformations. Reinforcing mesh 8 is a plastic mesh with a diameter of 2-4 mm with a cell of 30-50 mm. Next, the first structural layer 9 is laid on the reinforcing mesh layer 8. The first structural layer 9 and the second structural layer 11 are a mixture of filler in combination with a polyurethane-based composite resin. The filler can be made of pebbles, quartz, marble chips, onyx and other loose rocks of stone materials. As a result of mixing a composite resin based on polyurethane and a filler, a structured coating is formed that has unique technological characteristics: frost resistance, resistance to UV rays, exclusion of discoloration over time, resistance to water using chlorine as a disinfection component, strength twice the strength of concrete and elasticity waterproofing membrane 7 by 300%. Next, an intermediate reinforcing mesh 10 is laid on the first structural layer 9. The intermediate reinforcing mesh 10 is designed to further increase the strength of the structure, as well as to avoid contact of the first structural layer 9 with the second structural layer 11. The intermediate reinforcing mesh 10 is a polypropylene mesh with a thickness of 1-3 mm cell 30-50 mm. Then, the second structural layer 11 is laid on the intermediate reinforcing mesh 10 and coated with a waterproof varnish. This design significantly improves the strength and mechanical stability of the second structural layer 11, which performs a protective and decorative function.

Claims (11)

1. A method for forming a pool, including excavation and molding of the pool bowl, characterized in that a drainage system is arranged at the bottom of the pool bowl, then a protective layer of geotextile fabric is laid on the bottom of the pool bowl, then a bottom cleaning system is installed, which is at least one air nozzle connected to the air supply system, then skimmers and a bottom drain are installed, then a layer of waterproofing membrane is laid, then a layer of reinforcing mesh is laid, separating it from the waterproofing membrane with a film, then the first structural layer is laid, then the intermediate reinforcing mesh and the second structural layer, moreover, as the first and second structural layers, a mixture of filler is used in combination with a composite/polyurethane resin, and the second structural layer is coated with a waterproof varnish in the form of a polyurethane base. 2. The method according to p. 1, characterized in that after excavation, the base is cleaned of stones and other inclusions. 3. The method according to p. 1, characterized in that the pool bowl is molded by manual pressing of wetted clay and the use of a sand-cement mixture. 4. The method according to claim 1, characterized in that the walls of the pool are formed at an angle of 2 to 90° from the bottom to the edges. 5. The method according to claim 1, characterized in that a drainage system is equipped, consisting of a drain connected by a drainage pipe to the sewer, in which the pump is installed. 6. The method according to p. 1, characterized in that a synthetic non-woven material with a density of 300 g/m ² is used as a geotextile. 7. The method according to claim 1, characterized in that a butyl rubber EPDM membrane with elasticity up to 300% with a thickness of 1-2 mm is used as a waterproofing membrane. 8. The method according to claim 1, characterized in that a plastic mesh with a diameter of 2-4 mm with a cell of 30-50 mm is used as a reinforcing mesh. 9. The method according to p. 1, characterized in that pebbles and/or quartz, and/or marble chips, and/or onyx and/or other loose rocks of stone materials are used as a filler. 10. The method according to claim 1, characterized in that a polypropylene mesh 1-3 mm thick with a cell of 30-50 mm is used as an intermediate reinforcing mesh. 11. The method according to claim 1, characterized in that skimmers and bottom drains are installed, made of ABS plastic or stainless steel.

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