RU2758268C1 - Drainage storage pond - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and can be used in the accumulation of melt water in spring, discharged by drainage from the drained area. The accumulated water can be used for irrigation during dry periods, as well as for other economic purposes. The drainage storage pond is coupled with a drainage collector and is equipped with a protective screen made of strips of membrane film, interconnected by quick-release and bayonet connections, which is mounted on cables attached to floats and connected to winches installed on opposite sides of the pond. The protective screen is divided into two parts, interconnected by a container fixed on cables and consisting of a rigid frame on which a container is mounted from a mesh with cells of 1.0-1.5 mm, while a brush is installed on the frame, equipped with cables, the ends of which led to additional winches installed on the banks at the short sides of the pond, where inclined troughs are made. The floats for fastening the cable are equipped with support platforms made with the possibility of sequentially changing their height above the float surface with increasing height from the container frame to the shore.

EFFECT: proposed design of the drainage storage pond makes it possible to increase the reliability of the screen by washing away debris and dust from its surface by rain due to the inclination of the screen created by attaching it to the support platforms, the height of which is successively increased from the middle of the pond, where the mesh container is located, to the shore.

1 cl, 3 dwg

Description

The invention relates to the field of agriculture and can be used in the accumulation of melt water in the spring, discharged by drainage from the drained area. The accumulated water can be used for irrigation during dry periods, as well as for other economic purposes.

Known storage pond drainage runoff, located in the lowest part of the drained area. The collected water is used for drip irrigation with a pump intake from the pond. (B.S. Maslov, V.S. Stankevich, V.Ya. Chernenok Irrigation drainage systems M. "Kolos" 1981, p. 98.)

The disadvantage of this pond is the significant loss of water for evaporation, as well as the reproduction of microalgae in the water, clogging the pumping and irrigation equipment.

A drainage and irrigation system is known, including a drip irrigation system connected to a pump installed on the shore of a drainage storage pond, which is coupled with a drainage collector and equipped with a protective screen made of strips of membrane film, mounted on cables fixed on floats and interconnected quick-release couplings, as well as fastened with bayonet couplings with a through hole. In this case, the ends of the cables are attached to winches installed on the banks of the pond. (RF patent No. 2663596, IPC E02B 11/00, publ. 08/07/2018, bull. No. 22)

The disadvantage of this drainage storage pond is the placement of the screen parallel to the surface of the water in the pond. This leads to the accumulation of various debris carried by the wind, including earth dust, leaves, twigs and grass, on its surface during the period between rains. In the event of rain, all this debris is washed off by rainwater to the quick-release couplings, clogging them with dusty particles, and larger debris blocks the holes in the bayonet couplings, preventing water from flowing into the pond. Therefore, part of the water accumulates on the surface of the screen, and evaporates after the rain stops. At the same time, a thin layer of silt forms on the surface of the screen, which clogs the pores of the upper layer of the membrane film, making it impermeable to air, which impairs the air exchange of the pond. The accumulation of water and debris on the surface of the screen increases the load on the quick couplings and reduces their reliability.

To eliminate these disadvantages, the drainage drainage storage pond, coupled with a drainage collector and equipped with a protective screen made of strips of membrane film interconnected by quick-release and bayonet connections, which is mounted on cables fixed to floats and attached to winches installed on opposite banks a pond, in which, according to the invention, the protective screen is divided into two parts, interconnected by a container fixed on cables and consisting of a rigid frame on which a container is mounted from a mesh with cells of 1.0-1.5 mm, while a brush is installed on the frame , equipped with cables, the ends of which are brought out to additional winches installed on the banks at the short sides of the pond, where inclined grooves are made, in addition, the floats for attaching the cable are equipped with support platforms made with the possibility of successively changing their height above the float surface with increasing height from the frame container to the shore.

The new technical result from the application of the invention is that it allows to improve the reliability of the screen by washing away debris and dust from its surface by rain due to the inclination of the screen created by attaching it to the support platforms, the height of which is successively increased from the middle of the pond where the mesh container is located with a movable brush, to the shore.

The essence of the invention is illustrated by a drawing, where FIG. 1 shows a drainage drainage storage pond, top view; in fig. 2 is a cross section of the drainage drainage storage pond along the A-A axis; in fig. 3 node "B" is a cross-section of a frame with a container and a brush on an enlarged scale.

The drainage drainage pond consists of a pit 1, on the surface of which there is a screen 2 made of a membrane film, fixed on cables 3 supported above the water surface by floats 4 and connected to it by means of support platforms 5. In this case, the height of the platform installation above the float surface 4 in series increases from the container frame to the shore by 0.5-0.6 cm for each meter of distance to the next float 4. Screen 2 consists of separate strips, one side of which is fixed on the support platforms 5, and the other is connected to the adjacent strip using a quick-release connection 6, (for example "Velcro") and fastened with a bayonet connection 7. The ends of the cables 3 are fixed on the winches 8. To the middle part of the cables 3 is attached a frame 9, which carries a container 10 made of a mesh with cells of 1.0-1.5 mm. A brush 11 with elastic flexible rods made of polymer material is installed inside the container. To the brush 11, cables 12 are attached on both sides, the ends of which are fixed on winches 13 installed at the vertical side walls of the pond 14, made of gabions. In the middle part of the vertical walls 14, in the alignment of the container 10, inclined troughs 15 are made. To collect the drainage water, the end section of the underground drainage collector 16 is brought into the pit of the pond 1. To drain excess water, a discharge pipeline 17 is installed. Water is taken from the pond through pipeline 18. with the help of the pumping station 19. With the help of overlays 21, the screen 2 is attached to the frame 9. On the upper surface of the overlays 21, clamps 22 of the cables 3 are installed. On the inner side of the frame 9, guide strips 23 are mounted, along which the brush 11 is moved on the runners 24.

The proposed drainage storage pond is used in the following sequence:

Before filling the pit 1 with water, in its middle part, place a frame 9 with a mesh container 10 fixed on it using guides 23. A brush 11 is installed in the container, to which cables 12 are attached. The ends of these cables are attached to winches 13. After installing the frame with with a container and a brush, a system of cables 3 is mounted, placing their middle part on the container frame 9. The ends of the cables are fixed on winches 8. Then, floats 4 made of foam are attached to the cables 3. The installation of the floats starts from the frame 9. The support platform 5 is installed at the level of the top of the frame, the cable 3 is attached to it with a bracket (not shown in the drawing). Measure the estimated distance to the next float 4 (for example, 10 m) and screw platform 5 into this float to a height that exceeds the installation height of the previous platform by 5 cm.The installation height increases by 0.5 cm for each meter of distance between the floats. The cable 3 is also attached to this site 5 with a bracket. Successively, every 10 m, the following floats are installed, increasing the height of platform 5 above the surface of the float by 5 cm.After the installation of the cables is completed, two strips of the membrane film of the screen 2 are attached to them, connecting them together and fixing them on the platforms 5 with a stapler. The other edges of the film strips are connected by quick-release couplings 6 (Velcro type) and a bayonet screw connection 7. In this case, the ends of the strips are fixed to the frame 9 with overlays 21. A cable 3 is attached to the upper part of these overlays using clips 22.

After completing the installation of the screen, the foundation pit of the pond 1 is filled with water through the drainage manifold 16. As the pond fills, the floats 4 float up. In this case, the screen 2 acquires a slope towards the frame 9 of the container 10. The magnitude of this slope is 0.005-0.006. In May, there is often a dry period, the so-called "May drought". At this time, in the absence of grass cover, the wind carries a significant amount of dust and litter. These dust and debris settle on the surface of the screen 2. When precipitation is, as a rule, stormy in nature, the streams of water flowing down the screen 2 wash this debris into the container 10. The slope of the screen 0.005-0.006 provides a water flow rate that excludes the deposition of silt particles on the surface of the screen 2. Dust and debris are carried by the water drain into the container of the mesh container 10. The sludge fraction of the stream, together with the water, passes through the mesh of the container, and larger waste accumulates in the container. After the rain stops, this debris is removed from the container using a brush 11, moving it with cables 12 on runners 24 along guides 23. The cables are wound on winches 13, first on one side of the pond, and then on the other. The brush 11 at the end of the container 10 is moved up along the inclined chute 15. The sludge fraction washed away from the surface of the screen 2 accumulates at the bottom of the pond and is removed in the fall during its next cleaning. The container 10 is cleaned after each rain, which makes it possible to exclude the caking of debris at the bottom of the container. As needed, water from the pond is taken through the pipeline 18 by the pumping station 19. Winches 8 ensure the lowering of the screen 2 when the water level in the pond 1 drops by winding the ropes 3 from the drums of the winches 8. Screen 2 is inclined towards the container 10, which makes it possible to wash off the litter from the surface of the screen 2 at any water level in the pit of the pond 1.

Thus, the use of the proposed design of the drainage drainage storage pond makes it possible to increase the reliability of the screen by washing away debris and dust from its surface by rain due to the inclination of the screen created by fixing it on the support platforms, the height of which is successively increased from the middle of the pond where the mesh container is located. to the shore.

Claims (1)

Drainage drainage storage pond, coupled with a drainage collector and equipped with a protective screen made of strips of membrane film, interconnected by quick-release and bayonet connections, which is mounted on cables fixed on floats and attached to winches installed on opposite sides of the pond, characterized by that the protective screen is divided into two parts, interconnected by a container, fixed on cables and consisting of a rigid frame on which a container is mounted from a mesh with cells of 1.0-1.5 mm, while a brush equipped with cables is installed on the frame, the ends of which are brought out to additional winches installed on the shores at the short sides of the pond, where inclined grooves are made, in addition, the floats for fastening the cable are equipped with support platforms made with the possibility of successively changing their height above the float surface with increasing height from the container frame to the shore.

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