RU2579259C1 - Drain well-absorber for receiving and discharge of surface water - Google Patents

Abstract

FIELD: treatment plant.

SUBSTANCE: invention relates to devices for receiving and cleaning surface water from suspended matter, and discharge of clarified water, and can be applied in non-chernozem zone agriculture during heavy mineral soil drainage, for surface water removal, and dewatering of closed depressions, as well as erosion-free surface run-off arrangement on catena soil. Surface of closed drainless depression is inclined towards device not less than at 0.005, and catchment area is not less than 3.0 ha, but not greater than value of erosion dangerous area. Absorber drain well is placed in closed depression of drainage area and includes housing 1 with cover 2 and water intake holes 4, of increasing against water flow cross sections, made in its upper part on side surface, drainage system 3 with protective device 8 ahead of it against floating suspensions, and settling tank 13 in lower part of housing 1 with bottom lower than water disposal system 3. For acceleration of gravity drainage water from soil, adjacent to well, casing 1 of well below closed depression level at depth of its freezing, on some part of external side surface is wrapped with slope by drain plastic perforated pipe 9 with protective filter material, plug in head, and filled with sand-gravel mix 10, by principle of reverse filter. Water discharge into well from pipe 9 occurs via hole 11 in wall 5 of housing, under which detachable perforated plate 12 is mounted, damping energy of water falling into well from cantilever weir pipes with reverse inclination not less than 45° and decreasing cross-section diameter, not exceeding wall 5 thickness of well housing 1, in form of which water inlet holes 4 realised. Well cover 2 has U-shape section along its symmetry axis with diameter larger than well outer diameter. Cover 2 is equipped with retainer 6 of its position upon well and is black-coloured. Well settler bottom is located not less than 40 cm lower than water disposal system 3.

EFFECT: technical result consists in improvement of efficiency of well-absorber and its operating reliability, lower costs, prolonged service life without repair, higher crop capacity, and reduction of capital investments payback life.

5 cl, 1 dwg

Description

The invention relates to a device for receiving and purifying surface water from suspensions and drainage of clarified water. It can be used in agriculture of the Non-chernozem zone when draining heavy mineral soils to drain surface water and drain drainless depressions, as well as in the anti-erosion organization of surface runoff on the catena. In this case, the surface of the closed drainless lowering has a bias to the device of at least 0.005, and the catchment area is not less than 3.0 hectares, but not more than the value of the erosion-hazardous area.

Reclaimed agricultural lands of the Non-Black Earth Zone are characterized by a large rugged terrain, which leads to an uneven distribution of moisture. The effectiveness of land drainage in this case depends not only on the parameters of the regulatory network, but mainly on the organization of surface runoff. Timely drainage of surface water is the primary action both in the drainage of mineral soils and in the anti-erosion organization of surface runoff.

A device for the removal of surface water is known (AS USSR No. 1382909, class E02B 11/00, 1986), including a well buried in the soil and having a lid, communicating with the drain and equipped with perforated water-conducting perforated pipelines located on the lower surface of the soil, each which consists of a stationary part, hermetically fixed with the lower end in the lid of the well, and removable sections attached to the stationary part with the possibility of changing both the quantity and length of the removable sections depending on the level of surface water down lion.

A disadvantage of the known device is the high cost of its operation due to the significant cost of manual labor for the maintenance of this device.

A well-known surface water intake (AS USSR No. 869790, class E02B 11/00, 1980), comprising a housing buried in the arable layer with a cover and water-receiving holes in it, while the side walls of the housing are made gentle with a varying slope, and in the lower part of the housing there is a pipe for draining water into the drainage network.

The disadvantage of this water intake is the low efficiency of its operation due to the entry of contaminated water into the drainage system and the danger of siltation and, as a consequence, the fragility of the water intake service.

Most other well-known wells of the type in question differ in the size and shape of the hole in the casing wall and in the presence of a grate (A. S. USSR No. 1158705, class E03F 5/14, 1982; RF patent No. 2393302, class E03F 5/14, 2007). According to the technical solution, protected by A.S. USSR No. 1158705, below the drainage well-receiver of surface water that does not have a settling part, at the place where the drainage system drains into the closed collector, in order to protect the closed collector from siltation, they usually arrange a second well (drainage settling well). The same solution is recommended for a large hole in the wall of the well, when a falling powerful water stream causes a strong agitation of water in the sump. As a result, the process of sedimentation of suspended particles in the sump is disrupted, contaminated water enters the drainage system and there is a danger of siltation.

Closest to the technical nature of the claimed is a surface water intake (AS USSR No. 381366, class B01d 21/02, 1970, prototype), including a housing with a conical top, a lid, slit-shaped openings growing against the cross-section of the water flow located on its upper part, a sump, a drainage system with a semi-immersed protection located inside the housing, from the arrival of floating suspensions.

The disadvantages of the surface water intake are as follows: surface water is taken through slots in the side wall of the well without protecting them from clogging, as a result of which the probability of clogging of the water receiving slots of the claimed design is quite high; at low flow rates, water flows from the gap along the wall of the well body, which is overgrown with green moss; in the dry period of the year, the moss dries and falls into the sump of the well, clogging it; at high water flow rates, the water flow falling from the slit openings into the sump causes water to stir up, the process of sedimentation of suspended particles in the sump is disrupted, contaminated water enters the drainage system, and there is a danger of siltation.

As a result of the flaws inherent in the known surface water intake, the degree of surface water treatment is low, and the likelihood of clogging and silting of the drainage system is quite high. As a result, its efficiency decreases, the discharge of surface water from the catchment area is violated, while the timely removal of surface water is the primary action both in the drainage of mineral soils and in the anti-erosion organization of surface runoff. As a result, crop yields are also declining.

The problem solved by the invention is to increase the efficiency of the absorber well and its reliability in operation by reducing the degree of pollution of the received and discharged water and eliminating the likelihood of clogging and silting of the drainage system.

The technical result consists in accelerating the discharge of surface water in a closed lowering of the catchment area, reducing operating costs, increasing the service life without repair, reducing the payback period of capital investments, as well as increasing the yield of crops.

The problem is solved in that in the drainage well-absorber for receiving and discharging surface water, located in a closed lowering of the catchment area and including a housing with a lid and water intake openings of the cross-section growing against the flow of water, made in its upper part along the lateral surface, the drainage system a protective device in front of it from floating suspensions and a sump in the lower part of the casing with a bottom below the drainage, to accelerate the removal of gravitational water from the soil adjacent to the well, the building the well below the level of closed lowering to the depth of its freezing on some part of its outer side surface is wrapped with a slope of a perforated plastic drainage pipe with a protective filter material, a plug at the source and dusting with a sand-gravel mixture according to the principle of a return filter with the possibility of dumping water into the well through the hole in its side wall, under which a removable hole plate is installed, which extinguishes the energy of water falling into the well from cantilever weirs-pipes with a reverse slope of at least 45 ° and decreasing cross-sectional diameter, not exceeding the wall thickness of the well body, in the form of which water-intake openings are made. The well cover is made of a U-shaped section along its axis of symmetry with a diameter larger than the outer diameter of the well, is equipped with a fixer for its position on the well and has a black color, the bottom of the well sump is located at least 40 cm below the drainage system, while the surface of the closed lowering has a bias towards a well buried in the soil is not less than 0.005, and the catchment area is not less than 3.0 hectares, but not more than the value of the erosion-hazardous area. In addition, the well cover is made of plastic and provided with a location indicator for the well, a removable hole plate and a protective drainage device are also made of plastic. A removable round hole plate rests on an annular protrusion, which is equipped with a well body on its inner surface, on which are also equipped with climbing brackets.

The design of the claimed drainage well-absorber for receiving and discharging surface water ensures its efficient and reliable operation, which helps to accelerate the discharge of surface water in a closed lowering of the catchment area, reduce operating costs, increase the life of the well without repair, reduce the payback period of capital investments, and also increase crop yields.

The invention is illustrated in the drawing.

The drawing shows a cross section of a drainage well-absorber for receiving and discharging surface water.

A drainage absorber well for receiving and discharging surface water is located in a closed lowering of the catchment area, having a slope of at least 0.005 to the well buried in the soil. Otherwise, the bias is created artificially (giving a lowering of the funnel-shaped form, the device of the hollows in the form of converging beams, the layout of the surface) to ensure unhindered flow of water to the drainage well-absorber. The catchment area is not less than 3.0 hectares, but not more than the value of erosion-hazardous area.

The well includes a housing 1, a cover 2, a drain 3. The housing 1 has a cylindrical shape of the same diameter over its entire height and is equipped in the upper part with water intake openings 4 evenly spaced along the side surface, made in the form of cantilever overflow pipes with a reverse slope of at least 45 ° and decreasing with the diameter of the cross section, not exceeding the wall thickness 5 of the housing 1 of the well. The cover 2 is made of a U-shaped section along the axis of its symmetry with a diameter greater than the outer diameter of the well, and is equipped with latches 6 of its position on the well. The cover 2 is made of black plastic and is provided with a pointer 7 of the location of the well. Thanks to the claimed design, cover 2 performs, in addition to its direct function - protecting the well from various objects and debris getting into it, an additional function: protection against clogging of the water inlet openings 4 in the body 1 of the well and from falling into the well of floating suspensions through water inlet openings 4. The same the purpose has a removable protective device 8 that is semi-immersed in water before the drainage system 3 - to exclude the flow of floating suspensions into the drainage system 3.

In order to accelerate the removal of surface water from a closed lowering by means of a drainage well-absorber, it is also necessary to accelerate the removal of soil and groundwater from the soil adjacent to the well. To this end, the body 1 of the well below the level of closed lowering to the depth of its freezing on some part of its outer surface is wrapped with a slope of a perforated plastic drainage pipe 9, wrapped with a protective-filtering material with sand and gravel powder 10, arranged according to the principle of the Terzagi inverse filter, which allows good transmission water and sediment trap.

Water is discharged into the well from the pipe 9 coming from the soil through the hole 11 in the wall 5 of the casing, under which a removable round hole plate 12 is installed, which extinguishes the energy of water falling into the well from cantilever weirs-pipes into the sump 13, the bottom of which is located below drainage 3 not less than 40 cm so that water from the sump 13 does not fall into drainage 3 along with the sediment of mineral particles in the settling part of the well body brought with the inflowing water. The removable round hole plate 12 is made of plastic for ease of maintenance and relies on an annular protrusion 14, which is equipped with a well body on its inner surface.

Additionally, the drawing shows: 15 - sod; 16 - water level mark in front of the body 1 of the well at time T; 17 - the same, in the settling part of the well in front of the drainage system 3; 18 - sediment of mineral particles in the sump 13 of the body 1 of the well, brought with the flowing water; 19 - soil; 20 - manhole staples for easy well maintenance.

A drainage well absorber for receiving and discharging surface water works as follows.

In winter, a closed depression is drifted by snow. In order to monitor the action of the well (surface water enters the absorber and in the winter during prolonged thaws), the well is found thanks to its location indicator 7. The lid 2 of the well, made of black plastic, absorbs sunlight well. As a result, snow and ice around the well melt first of all (taking into account the albedo and the law of Kirchhoff radiation: a body that absorbs heat more strongly, emits it more intensively). As a result of this, the well was previously ready to receive the surface water flowing into it.

After heavy rainfall or snowmelt, surface water with floating debris and entrained particles of soil enters a sink in front of the well, filling it and settling. The water level 16 in front of the well gradually rises. Water below, under the walls of the cover 2, rises along the outer wall of the body 1 of the well. The walls of the cover 2, which are semi-immersed in water, do not allow large floating suspensions to approach the water inlet openings 4. As level 16 rises, the water fills the inclined pipe hole in the form of a cantilever spillway 4 in the wall 5 of the well, but water begins to flow only when its level reaches the level of the cantilever crest. The water inlet section of the hole at this moment is submerged under a layer of water, floating impurities are on the surface of the water and do not enter the hole.

Water that has crossed the water intake hole 4 is drained through a cantilever spill into a well to a hole plate 12. The water flows down to the water level 17 through the holes of the plate to the sedimentation part of the well, where it settles, and suspended mineral particles precipitate 18. Floating suspensions that have fallen into the sump 13 of the well with water do not enter the drainage system 3; they remain to float in the sludge part of the body 1 of the well due to the protective device 8, where there is an additional delay of more fine suspensions.

Thus, the surface water drainage 3 is protected against clogging by floating suspensions by a lower settling tank in front of the well, cover walls 2, inclined water inlet openings 4 and thinner protection 8. In addition to this protection, the drainage section is also protected by siltation.

The protective device 8 of the drainage system 3 is removable, it is dismantled, like the hole plate 12, when cleaning the sump 13 from the sediment 18. The protective device 8, the cover 2 and the plate 12 are made of plastic, have a small weight and do not require significant effort when operating the well.

If there is water in the lowering, gravitational water constantly enters the powder 10 and then into the pipe 9, then through the hole 11 in the wall 5 of the housing 1 to the plate 12 and then to the sump 13. The pipe 9 has a slope along the length, which ensures a constant outflow of water from it coming from the surrounding soil into the well.

In the absence of inflow of surface water into the lowering pipe 9 with powder 10 provide drainage of the soil around the well and drying of the soil. This, with subsequent precipitation, contributes to their accumulation, lower surface runoff moduli and, of course, to accelerate surface water diversion. Pipe 9 with powder 10 discharges water continuously both in the presence of surface water in a lowering and in the presence of only gravitational water in the soil adjacent to the well.

The drainage absorber for receiving and discharging surface water is operational both in the growing and non-growing periods, the operating costs are minimal, the drainage is reliable - it works under 4-fold protection against clogging and 5-fold against siltation.

Claims (5)

1. A drainage well-absorber for receiving and discharging surface water, located in a closed lowering of the catchment area and including a housing with a cover and water-receiving openings of a cross-section growing against the flow of water, made in its upper part along the side surface, a drainage system with a protective device in front of it from floating suspensions and sedimentation tank in the lower part of the casing with the bottom below the drainage system, characterized in that to accelerate the removal of gravitational water from the soil adjacent to the well, the casing of the well is lower the level of closed lowering to the depth of freezing on a certain part of the outer side surface is wrapped with a slope of a perforated plastic drainage pipe with a protective filter material, a plug at the source and dusting with a sand-gravel mixture according to the principle of a return filter with the possibility of dumping water into the well through an opening in its side a wall under which a removable hole plate is installed, which extinguishes the energy of water falling into the well from cantilever spillways with a reverse slope of at least 45 ° and a decreasing diameter a cross section not exceeding the thickness of the wall of the well body, in the form of which water-receiving openings are made, in addition, the well cover is made of a U-shaped section along its axis of symmetry with a diameter larger than the outer diameter of the well, equipped with a latch for its position on the well and has a black color , the bottom of the well sump is located at least 40 cm below the drainage system, while the surface of the closed lowering has a slope of at least 0.005 to the well, and the catchment area is at least 3.0 ha, but not more than erosion passable area. 2. The drainage well-absorber according to claim 1, characterized in that the cover of the well is made of plastic and is provided with a location indicator of the well. 3. The drainage well-absorber according to claim 1, characterized in that the body of the well on its inner surface is provided with an annular protrusion with the possibility of installing a removable hole plate on it. 4. The drainage well-absorber according to claim 1, characterized in that the removable hole plate and the protective drainage device are made of plastic. 5. The drainage well-absorber according to claim 1, characterized in that it is equipped with climbing brackets on the inner surface of the housing.