RU2359079C1 - Drain system of sports ground with artificial surface for area with higher humidity and method of its construction - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to construction, in particular, to design and technology of sports ground drain system with artificial surface for area with higher humidity. Compact, profiled and repeatedly compacted bottom of manifold and drying drain channels is filled at thickness of at least 20 mm and not more than 70 mm by compacted, profiled and repeatedly compacted granite chaff with fraction of 2-10 mm, onto which manifold corrugated PVC pipes are laid being covered with geotextile, for instance, with diametre of 110 mm, as well as drying corrugated drain PVC pipes, for instance, with diametre of 50 mm, and are filled with compacted granite crushed stone with fraction of at least 20 mm and not more than 70 mm to the level of surface of drain system draining layers base. All profiled and repeatedly compacted surfaces of drying, manifold drain channels and surface pf drain system draining layers base earth in sports ground are filled at thickness of at least 150 mm and not more than 250 mm with compacted, profiled and repeatedly compacted granite crushed stone with fraction of at least 20 mm and not more than 70 mm. All specified surface of granite crushed stone of sports ground drain system is filled at thickness of at least 70 mm and not more than 250 mm with compacted, profiled and repeatedly compacted fine granite crushed stone with fraction of at least 5 mm and not more than 20 mm. All mentioned surface of fine crushed stone of drain system of sports ground is coated with layer of geotextile. All surface of mentioned geotextile is filled at thickness of at least 30 mm and not more than 80 mm with compacted, profiled and repeatedly compacted granite chaff with fraction of 2-10 mm. All surface of mentioned granite chaff of sports ground drain system is coated with the second layer of geotextile, on surface of which sports ground artificial surface is arranged.

EFFECT: improved quality of construction, provision of fast drain of rain and melt waters from surface and obtainment of durable, optimal, high-quality characteristics of sports grounds with artificial surface for games and sports competitions at more efficient, simple and fast method of sports ground drain system construction for area with increased humidity and durable operation in all seasons.

9 cl, 2 dwg

Description

The invention relates to the construction and construction technology of the drainage system of sports fields and can be used in the construction of football fields for rugby, American football, field hockey, tennis courts and other sports facilities.

Known outdoor sports ground containing a soil base, a waterproofing film and a drainage electrically conductive layer (AS USSR No. 1738886, class E01C 13/00, 07/07/1992).

However, this site has a very complex structure and is unacceptable for creating grass or artificial turf on it that can withstand significant loads during the competition.

An open sports ground is also known, including successive grounds, a drainage system and corrugated pipes, and the entire system fails, and as a result, the grass surface becomes unusable due to violation of soil aeration, and, therefore, capital is required. field repair. In addition, the axial longitudinal drainage drain, complicating the design of the sports field, does not carry any payload. The use of grass cover reduces the time period of operation of the sports ground and allows optimal use only in the warm season.

To eliminate these drawbacks, the drainage system of the sports ground with artificial cover for areas with high humidity, including trunk (ring, collective), drainage channels and compacted soil of the base of the drainage layers of the drainage system filled with drainage and filtering materials, located at different depths, allows. The slopes of the base of the drainage layers are made in two slopes from the central longitudinal axis of the sports field. The transverse drainage drainage channels have a slope equal to the slope of the soil of the base of the drainage layers, are parallel to each other and communicate with the first and second ends, respectively, with the first and second main drainage channels located along the edges of the sports field and having a slope towards the water intake. Corrugated drainage pipes are located in drainage and main drainage channels. Corrugated main drainage pipes are connected to the water intake through collectors. The invention is characterized in that the compacted, profiled and re-compacted bottom of the main and drainage drainage channels is filled to a thickness of at least 20 mm and not more than 70 mm with a compacted, profiled and re-compacted granite screening fraction of 2-10 mm, on which are wrapped with geotextiles, respectively , main corrugated PVC drainage pipes, for example, with a diameter of 110 mm and drainage corrugated PVC drainage pipes, for example, with a diameter of 50 mm, and are filled with compacted granite crushed stone enee 20 mm and not more than 70 mm, the surface layer of soil foundation drainage layers drainage system. All profiled and re-compacted surfaces of drainage, main drainage channels and the soil surface of the base of the drainage layers of the sports field drainage system are filled to a thickness of at least 150 mm and not more than 250 mm with compacted, profiled and re-compacted granite crushed stone of a fraction of at least 20 mm and not more than 70 mm The entire specified surface of the granite crushed stone of the drainage system of the sports ground is filled to a thickness of not less than 70 mm and not more than 250 mm with compacted, profiled and re-compacted fine granite crushed stone of a fraction of not less than 5 mm and not more than 20 mm. The entire indicated surface of small granite crushed stone of the drainage system of the sports field is covered with a layer of geotextiles. The entire surface of the specified geotextile is filled to a thickness of not less than 30 mm and not more than 80 mm of compacted, profiled and re-compacted granite screenings of a fraction of 2-10 mm. The entire surface of the specified granite screening of the drainage system of the sports field is covered with a second layer of geotextile, on the surface of which artificial covering of the sports field is laid.

Collective drainage channels are located at a distance of 4-6 m from each other.

Drainage corrugated drainage pipes are located at least 50 mm below the soil surface of the base of the drainage layers.

The first and second ends of the drainage corrugated drainage pipes are respectively located above the first and second main corrugated drainage pipes.

The main and collective corrugated drainage pipes wrapped with geotextile and laid respectively in the main and collective drainage channels significantly increase the service life of the entire drainage system of the sports ground, since the geotextile eliminates the leakage of small fractions of granite screenings and siltation of pipes. Filling the surface of granite crushed stone of a fraction of not less than 20 mm and not more than 70 mm of the drainage system of a sports ground with compacted, profiled and re-compacted small granite crushed stone of a fraction of at least 5 mm and not more than 20 mm to a thickness of not less than 70 mm and not more than 250 mm ensures accurate surface layout, i.e. significantly reduces the cost of leveling the surface of the sports ground and improves the quality of construction for areas with high humidity. The introduction of a layer of geotextile between granite screenings and fine granite rubble eliminates the "leakage" of granite screenings of a fraction of 2-10 mm into the space between small granite rubble of a fraction of 5-20 mm. The introduction of a layer of geotextiles between the granite screenings and the artificial surface of the sports field eliminates the "leakage" of granite screenings into the artificial surface, and the water passes through the geotextile without hindrance.

The claimed invention allows to achieve the following technical results: to provide simple, quick and economical construction; quick drainage of rain and melt water from the surface; long-term, high-quality optimal characteristics of sports fields; to improve the conditions for holding sports games and competitions both in the warm season and in the cold.

A sports field and its construction technology are known from the patent literature, including the creation of a multilayer coating of a soil base, a synthetic film and a drainage electrically conductive layer (see AS of the USSR No. 1738886, E01C 13/00, 06/07/92).

However, this technology is too complex and unacceptable to create sports fields designed to withstand significant loads during sports competitions.

A well-known technology for the construction of a sports ground with a drainage system, including the sequential production of the base, drainage system and soil layer, the implementation of the base with slopes, and the drainage system is made of drainage drains and drainage layers, conduct a longitudinal drainage drain on the central longitudinal axis of the lawn, and then the ring main drains and transverse drainage drains (see RF patent No. 2096551, E01C 13/00, 11/20/1997).

However, this technology does not provide optimal conditions for growing a lawn cover and the drainage system quickly becomes clogged, dips, pits form, and, as a result, the lawn cover becomes unusable, i.e. the sports ground fails, which necessitates its frequent overhaul.

Closest to the claimed technology for constructing a drainage system for a sports field is a technology for constructing a drainage system for a cultivated lawn, which includes sequential production of a base (removal of the fertile soil layer and compaction) with slopes made along or across, or along and across the central longitudinal axis of the sports field. The drainage system is made of drainage layers and drainage drains containing corrugated drainage pipes located in the drainage channels below the base of the drainage layer with slopes towards the drainage drains of the main (ring, collective) drains containing corrugated main pipes laid along the edges of the sports field below the ground. connected through collectors to a water intake (storm sewer). Draining layers, drainage drains and main drains or drainage pipes are filled to the level of the base soil with drainage and filtering materials, which use crushed stone, gravel, pebbles, slags, sand, materials of organic or artificial origin (see RF patent No. 2148121, E01C 13/00, 04/27/2000).

However, this technology also does not provide economical, quick and high-quality construction of the drainage system of the sports ground, especially for areas with high humidity and optimal operating conditions for it during warm and cold seasons. The drainage system quickly becomes clogged, dips, pits are formed, and, as a result, the lawn coating becomes unusable, i.e. the sports ground fails, which necessitates its frequent overhaul.

To eliminate these shortcomings allows the method of constructing a drainage system of a sports field with artificial turf for terrain with high humidity, including sequential removal of the fertile soil layer, compaction of the base with slopes performed across or along and across the central longitudinal axis of the sports field. The drainage system is made of drainage layers and drainage drainage channels containing corrugated drainage pipes located in the drainage channels below the base of the drainage layer with slopes towards the base of the drainage drainage channels of main (ring, collecting) drainage channels containing mains laid along the edges of the sports field below the ground. corrugated drainage pipes connected through collectors to a water intake. Draining layers, drainage drainage channels and main drainage channels are filled with drainage and filtering materials. The invention is characterized in that the main drainage channels are sequentially formed by excavation and removal outside the sports field, compacted, profiled and re-compacted the soil surface of the base of the drainage channels, drainage channels are formed by excavation and removal outside the sports field, compacted, profiled and re-compact the surface of the soil of the base of the drainage drainage channels. The main drainage channels are filled and compacted to a thickness of not less than 30 mm and not more than 70 mm with a granite screening fraction of 2-10 mm, they are profiled and re-compacted the surface of the specified granite screenings. The main corrugated PVC drainage pipes wrapped with geotextile, for example, with a diameter of 110 mm, are laid in the main drainage channels on the surface of the granite screenings. The main drainage channels are filled and compacted with granite rubble of a fraction of at least 20 mm and not more than 70 mm to the ground level of the base of the drainage drainage channels. The drainage drainage channels are filled and compacted to a thickness of not less than 30 mm and not more than 70 mm with a granite screening fraction of 2-10 mm, the surface of the specified granite screening is profiled and re-compacted. They lay drainage corrugated PVC drainage pipes, for example, with a diameter of 50 mm, wrapped in geotextile in the drainage channels on the granite screening surface. The main and drainage drainage channels are filled and compacted with granite rubble of a fraction of at least 20 mm and not more than 70 mm to the level of the soil surface of the base of the drainage layers of the drainage system. Profiled and re-compacted the poured surfaces of drainage, main canals and the ground surface of the drainage layers of the drainage system of the sports ground. Granite rubble with a total thickness of not less than 150 mm and not more than 250 mm fractions of not less than 20 mm and not more than 70 mm is successively poured and compacted over the entire surface of the base of the drainage layers, drainage and main drainage channels of the drainage system of the sports field, profiled and re-compacted surface specified granite crushed stone. Small granite crushed stone with a total thickness of not less than 70 mm and not more than 250 mm fractions of not less than 5 mm and not more than 20 mm are successively poured and compacted sequentially layer by layer over the entire indicated surface of the granite crushed stone of the sports ground drainage system, profiled and re-compacted the surface of the specified small granite crushed stone, cover the entire surface of small granite crushed stone of the drainage system of the sports ground with a layer of geotextile. A granite screening of a fraction of 2-10 mm is poured over the entire surface of the geotextile to a thickness of not less than 30 mm and not more than 80 mm, compacted and shaped and re-compacted the surface of the specified granite screening. They cover the entire surface of the granite screening of the drainage system of the sports ground with a second layer of geotextile, cover the artificial surface of the sports ground over the surface of the geotextile.

The ground of the drainage system of the sports ground is profiled into two slopes from the longitudinal central axis of the sports ground and compacted with a uniform slope of at least 5 mm / running m and no more than 7 mm / running m towards the main drainage channels.

The entire surface of the granite crushed stone of the drainage system of the sports ground is profiled into two slopes from the longitudinal central axis of the sports ground and compacted with a uniform slope of at least 5 mm / linear m and no more than 7 mm / linear m towards the main drainage channels.

The entire surface of the small granite crushed stone of the drainage system of the sports ground is profiled into two slopes from the longitudinal central axis of the sports ground and compacted with a uniform slope of at least 5 mm / linear m and no more than 7 mm / linear m towards the main drainage channels.

The entire surface of the granite screening of the drainage system of the sports ground is profiled into two slopes from the longitudinal central axis of the sports ground and compacted with a uniform slope of at least 5 mm / linear meter and no more than 7 mm / linear meter towards the main drainage channels.

Figure 1 shows a General view of a sports field with artificial turf for terrain with high humidity in the context. Figure 2 - diagram of the drainage system.

The drainage system of the sports ground with artificial turf, including trunk (ring, collective) 1, drainage channels 2 located at different depths, drainage channels 2 and compacted soil of the base 3 drainage layers of the drainage system, filled with filtering 6 and draining 7 and 8 materials. Slopes B of the base of the drainage layers 3 are made on two slopes from the central longitudinal axis A of the sports field. The transverse drainage 2 drainage channels have a slope equal to the slope of the soil of the base 3 drainage layers, are parallel to each other and communicate with the first and second ends, respectively, with the first and second main 1 drainage channels located along the edges of the sports field and having a bias towards the water intake (not shown). In the main 1 and drainage 2 drainage channels, the main 4 and drainage 5 corrugated drainage pipes, respectively, are wrapped with geotextile. The main 4 corrugated drainage pipes are connected to the water intake through collectors (not shown). The densified, profiled and re-compacted bottom of the main 1 and drainage 2 drainage channels is filled to a thickness of at least 20 mm and not more than 70 mm with a compacted, profiled and re-compacted granite screening 6 fractions of 2-10 mm, on which are laid the main pipes wrapped with geotextile, respectively 4 corrugated PVC drainage pipes, for example, with a diameter of 110 mm and drainage pipes 5 corrugated PVC drainage pipes, for example, with a diameter of 50 mm, and filled with compacted granite crushed stone 7 fractions of at least 20 mm and not more than 70 mm about the level of the soil surface of the base 3 drainage layers of the drainage system. The profiled and re-compacted surfaces of the drainage 2, main 1 drainage channels and the soil surface of the base 3 of the drainage layers of the drainage system of the sports field are filled to a thickness of at least 150 mm and not more than 250 mm with compacted, profiled and re-compacted granite rubble 8 fractions of at least 20 mm and no more than 70 mm. The entire specified surface of the granite crushed stone 8 of the drainage system of the sports ground is filled to a thickness of at least 70 mm and not more than 250 mm with compacted, profiled and re-compacted fine granite crushed stone of 9 fractions of at least 5 mm and not more than 20 mm. The entire specified surface of small granite crushed stone 9 of the drainage system of the sports field is covered with the first layer of geotextile 10. The entire surface of the specified geotextile 10 is filled to a thickness of at least 30 mm and not more than 80 mm with compacted, profiled and re-compacted granite screenings 11 of a fraction of 2-10 mm. The entire surface of the specified granite screening 11 of the drainage system of the sports field is covered with a second layer of geotextile 12, on the surface of which an artificial covering 13 of the sports field is laid. Tray 14 separates the field of the sports field from the treadmill, collects and drains water from the treadmill outside the sports field. The distance between the drainage 2 drainage channels can be from 4 m to 6 m from each other, and they can be arranged both across the longitudinal axis A of the sports field, and in accordance with any other configurations, for example, from the center of the sports field diagonally to its periphery . The drainage corrugated drainage pipes 5 are located below the soil surface of the base 3 of the drainage layers by at least 50 mm. The first and second ends of the drainage 5 corrugated drainage pipes are located, respectively, above the first and second main 4 corrugated drainage pipes. The soil of the base of the drainage layer 3 is profiled into two slopes from the longitudinal central axis A of the sports field and compacted with a uniform slope B of at least 5 mm / linear m and not more than 7 mm / linear m in the direction of the main 1 drainage channels. The surface of the granite crushed stone 8 of the drainage system of the sports field is profiled into two slopes from the longitudinal central axis A of the sports field and compacted with a uniform slope of at least 5 mm / linear meter and no more than 7 mm / linear meter towards the main 1 drainage channels. The surface of small granite crushed stone 9 of the drainage system of the sports field is profiled into two slopes from the longitudinal central axis of the sports field and compacted with a uniform slope of at least 5 mm / linear meter and not more than 7 mm / linear meter towards the main drainage channels. The entire surface of the granite screening 11 of the drainage system of the sports field is profiled into two slopes from the longitudinal central axis A of the sports field and compacted with a uniform slope of at least 5 mm / linear meter and not more than 7 mm / linear meter towards the main drainage channels.

The layout of the soil of the base of the drainage layers 3 consists in giving its surface uniform slopes, for example, on two slopes relative to the longitudinal central axis A, necessary for water drains filtered through artificial turf 13 of the sports field, the second layer of geotextile 12, the second layer of granite screening 11, the first a layer of geotextile 10, a layer of fine granite crushed stone 9, a layer of granite crushed stone 8, at the base of the drainage layer 3 into the drainage channels 2, in which water flows through the drainage layer 7 into the drainage 5 wrapped corrugated drainage pipes with eotextile, through which water enters the corresponding main channels 1 and through granite crushed stone 7 into the main 4 corrugated drainage pipes wrapped with geotextile.

To clear the construction site, it is necessary to remove the fertile topsoil using a grader, for example, using a grader, while at the same time giving the soil slopes of the base of the drainage layers 3. Seal, carefully profile the base of 3 drainage layers with a level and re-compact the base for 3 seconds slopes performed in two slopes from the central longitudinal axis A of the sports field. This will not only facilitate the accurate further planning of the surface, but also practically exclude in the future penetration into the artificial coating of weeds remaining in the soil of the base of the drainage layers 3 after its profiling.

The planned soil of the base of the drainage layers 3 of the sports ground must be abundantly poured with water and, when the soil dries, roll off with a roller weighing from 1.2 t to 8 tons. Rolling starts as soon as the soil ceases to adhere to the roller, and stop when the roller does not leave behind trace. At the end of each compaction step, the thickness, evenness and slope of the layer should be checked. In places of subsidence, the layer should be replenished and compacted until the formation of a wave in front of the rollers and traces of the roller stops. In places not accessible to the roller, compaction can be performed by manual tamping until the formation of tamping prints ceases. Abundant watering for shrinkage of the soil can be repeated 2-3 times. After that, they begin to build a drainage system, which begins with the installation of trunk 1 and transverse drainage 2 drains.

Using, for example, an earth moving machine, they form trunk 1 drainage channels by excavating and removing them outside the sports field. The main 1 drainage channels are 25-40 cm wide and not less than 25 cm deep below the base soil of the drainage 2 drainage channels. They compact, profile and re-compact the soil surface of the base of the main 1 drainage channels. Similarly, using, for example, an earth moving machine, drainage channels 2 are formed by excavation and removal outside the sports field. Transverse drainage 2 drains align with a uniform slope identical to the slope of the soil of the base of the drainage layers 3 of the sports field. The distance between the drainage channels is 4-6 m. The drainage 2 drainage channels are 15-25 cm wide and 15-25 cm deep and are connected to the main drainage channels. Seal, profile and re-compact the surface of the soil of the base of the drainage 2 drainage channels. The main 1 drainage channels are filled and compacted to a thickness of at least 30 mm and not more than 70 mm with a granite screening fraction of 2-10 mm. The surface of the indicated granite screening is profiled and re-compacted, laid into main 1 drainage channels, corrugated 4 PVC drainage pipes wrapped with geotextile, for example, 110 mm in diameter, fill and seal the main drainage channels 1 with main 4 drainage pipes located in them with granite rubble 7 fractions of not less than 20 and not more than 70 mm to the soil level of the base of the drainage channels. The drainage 2 drainage channels are filled and compacted to a thickness of at least 30 mm and not more than 70 mm with a granite screening of 6 fractions of 2-10 mm, the surface of the specified granite screening is profiled and re-compacted. 6. Corrugated collecting pipes 5 wrapped with geotextile are laid into the drainage channels, 5 drainage pipes made of PVC, for example, with a diameter of 50 mm. The main 1 drainage channels and drainage 2 drainage channels are filled and compacted with main 1 and drainage 5 drainage pipes in them, granite crushed stone of 7 fractions of at least 20 and not more than 70 mm to the ground level of the base 3 of the drainage layers of the drainage system. Granular crushed stone 8 with a total thickness of not less than 150 mm and not more than 250 mm of fraction is not successively poured and compacted (for example, rolled along and across the field) along the entire surface of the base 3 drainage layers, drainage 2 and main 1 drainage channels of the drainage system of the sports ground less than 20 and not more than 70 mm. The surface of the specified granite crushed stone is profiled and re-compacted 8. Small granite crushed stone 9 with a total thickness of not less than 70 mm and not more than 250 mm of a fraction of not less than 5 mm and not more than 20 mm is successively poured and compacted over the entire indicated surface of the granite crushed stone 8 of the sports field drainage system mm, profiled and re-compacted the surface of the specified small granite crushed stone 9, covered the entire surface of the small granite crushed stone 9 of the drainage system of the sports ground with a layer of geotextile 10. Poured onto the entire surface the geotextile has a thickness of not less than 30 and not more than 80 mm, the granite screening 11 of the fraction 2-10 mm is compacted, profiled and re-compacted the surface of the specified granite screening 11. Cover the entire surface of the granite screening 11 of the drainage system of the sports ground with a second layer of geotextile 12, cover geotextile surfaces artificial turf 13 sports fields.

With this arrangement of the sports ground, the drainage system remains operational for many years, reliable and quick drainage of rain and melt water from the playground is provided, and a strong artificial surface is maintained.

Analogs of the invention:

SU, copyright certificate, 1738886, cl. E01C 13/00, 1990. SU, copyright certificate, 1717690, cl. E01C 13/00, 1989.

RU 2096551 C1, 20.11.1997, RU 2148121, E01C, 13/00 04/27/2000.

RU 2149941 05/27/2000.

KISTYAKOVSKY A.Yu. Design of sports facilities. - M.: Higher School, 1980, p. 56-58.

ABRAMASHVILLI G.G. Sports lawns. - M .: Soviet Sport, 1988, p. 10-28.

SU 1831357 A3, 07.30.1993.

SU 1738886 A1, 07/07/1992.

SU 1717690 A1, 03/07/1992.

GB 932032, 07.24.1963.

DE 1534394, 06.15.1972.

DE 3911 690 A1, 11/10/1990.

GB 2264875 A, 09/15/1993.

CH 601567, 07/14/1978.

DE 2911690, 10/02/1980.

Claims (9)

1. The drainage system of the sports ground with artificial turf for terrain with high humidity, including trunk (ring, collecting) located at different depths, drainage drainage channels and compacted soil of the base of the drainage layers of the drainage system, filled with drainage and filtering materials, and the slopes of the base of the drainage layers made in two slopes from the central longitudinal axis of the sports ground, the transverse drainage drainage channels have a slope equal to the slope of the ground the drainage layers are parallel to each other and communicate with the first and second ends, respectively, with the first and second main drainage channels located along the edges of the sports field and sloping towards the water intake, and in the drainage and main drainage channels there are corrugated drainage pipes, main corrugated drainage pipes connected to the water intake through collectors, characterized in that the sealed, profiled and re-sealed bottom of the main and dehumidifier drainage channels filled to a thickness of not less than 20 and not more than 70 mm with a compacted, profiled and re-compacted granite screening fraction of 2-10 mm, on which are laid respectively corrugated PVC drainage pipes made of geotextile, for example, with a diameter of 110 mm and drainage corrugated drainage pipes PVC pipes, for example, with a diameter of 50 mm, and filled with compacted granite crushed stone of a fraction of at least 20 and not more than 70 mm to the level of the soil surface of the base of the drainage layers of the drainage system, all are profiled and re-compacted surfaces of drainage, main drainage channels and the soil surface of the base of the drainage layers of the drainage system of the sports field are filled to a thickness of at least 150 and not more than 250 mm with compacted, profiled and re-compacted granite rubble of a fraction of at least 20 and not more than 70 mm, all of which the surface of the granite crushed stone of the drainage system of the sports ground is filled to a thickness of not less than 70 and not more than 250 mm with compacted, profiled and re-compacted fine granite crushed stone of the fraction not less than 5 and not more than 20 mm, the entire indicated surface of small granite crushed stone of the drainage system of the sports field is covered with a layer of geotextile, the entire surface of the specified geotextile is filled to a thickness of not less than 30 and not more than 80 mm with compacted, profiled and re-compacted granite screenings of fraction 2-10 mm, the entire surface of the specified granite screening of the drainage system of the sports field is covered with a second layer of geotextile, on the surface of which artificial covering of the sports field is laid. 2. The drainage system of the sports field with artificial turf according to claim 1, characterized in that the collective drainage channels are located at a distance of 4-6 m from each other. 3. The drainage system of the sports field with artificial turf according to claim 1, characterized in that the drainage corrugated drainage pipes are located below the soil surface of the base of the drainage layers at least 50 mm to the surface of the pipe. 4. The drainage system of a sports field with artificial turf according to claim 1, characterized in that the first and second ends of the drainage corrugated drainage pipes are located respectively above the first and second main corrugated drainage pipes. 5. A method of constructing a drainage system of a sports field with artificial turf for a wet area, including sequential removal of the fertile soil layer, compaction of the base with slopes performed across or along and across the central longitudinal axis of the sports field, and the drainage system is made of drainage layers and drainage drainage channels containing corrugated drainage pipes located in the drainage channels below the base of the drainage layer with slopes towards laid along the edges of the sports ground below the base soil of the drainage drainage channels of the main (ring, collective) drainage channels containing corrugated drainage pipes connected through collectors to a water intake, the drainage layers, drainage channels and drainage channels being filled with drainage and filter materials, characterized the fact that successively form the main drainage channels by excavating and removing outside the sports ground and, compact, profile and re-compact the soil surface of the base of the drainage channels, form drainage channels by excavating and removing it outside the sports field, compact, profile and re-compact the soil of the base of the drainage channels, fill and compact the main drainage channels to a thickness not less than 30 and not more than 70 mm with a granite screening fraction of 2-10 mm, profile and re-compact the surface of the specified granite screenings, laid in the master lined drainage channels to the surface of the granite screenings, geotextile-wrapped main corrugated PVC drainage pipes, for example, with a diameter of 110 mm, fill and condense the main drainage channels with crushed granite fractions of at least 20 and not more than 70 mm to the ground surface of the base of the drainage drainage channels, fill and condense drainage drainage channels to a thickness of at least 30 and not more than 70 mm with a granite screening fraction of 2-10 mm, profile and re-compact the surface of the specified granite screenings, lay in draining drainage channels to the granite screening surface, geotextile-wrapped drainage corrugated PVC drainage pipes, for example, with a diameter of 50 mm, fill and compact the main and drainage drainage channels with granite crushed stone of a fraction of at least 20 and not more than 70 mm to the ground surface of the base of the drainage layers of the drainage system profiling and re-compacting the covered surfaces of drainage, main canals and the soil surface of the base of the drainage layers of the drainage system of the sports field, granite crushed stone with a total thickness of not less than 150 and not more than 250 mm fractions of not less than 20 and not more than 70 mm are successively poured and compacted in layers and compacted over the entire surface of the base of the drainage layers, drainage and main drainage channels of the drainage system of the sports field, profiled and compacted the surface of the specified granite crushed stone, successively layer by layer poured and compacted on the entire specified surface of the granite crushed stone of the drainage system of the sports ground, small granite crushed stone with a total thickness of not less than 70 and not more than 250 mm fractions of not less than 5 and not more than 20 mm, profile and re-compact the surface of the specified granite crushed stone, cover the entire surface of the small granite crushed stone of the drainage system of the sports ground with a geotextile layer, pour it on the entire geotextile surface to a thickness of at least 30 and not more than 80 mm granite screenings of a fraction of 2-10 mm, compact, profile and re-compact the surface of the specified granite screenings, cover the entire surface of the granite screenings of the drainage system of the sports ground with a second layer of geotextile, the artificial surface of the sports ground is laid on the surface of the geotextile. 6. The method according to claim 5, characterized in that the base soil is profiled into two slopes from the longitudinal central axis of the sports field and compacted with a uniform slope of at least 5 and not more than 7 mm / linear meter towards the main drainage channels. 7. The method according to claim 5, characterized in that the entire surface of the granite crushed stone of the drainage system of the sports field is profiled into two slopes from the longitudinal central axis of the sports field and compacted with a uniform slope of at least 5 and not more than 7 mm / linear meter towards the main drainage channels. 8. The method according to claim 5, characterized in that the entire surface of the small granite crushed stone of the drainage system of the sports field is profiled into two slopes from the longitudinal central axis of the sports field and compacted with a uniform slope of at least 5 and not more than 7 mm / linear meter to the side main drainage channels. 9. The method according to claim 5, characterized in that the entire surface of the granite screening of the drainage system of the sports field is profiled by two slopes from the longitudinal central axis of the sports field and compacted with a uniform slope of at least 5 and not more than 7 mm / linear meter towards the main drainage channels.

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