RU2609377C1 - Device for water intake from surface sources - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of water intake from surface sources, and can be used in water recycling systems of concentrating plants, mining industry, located in areas with harsh climatic conditions. The device comprises a float 1 with a floating base 2 made with the profile with the convex side close to form of placement and attachment to the Venturi pipe 3. The narrowest section of the Venturi pipe 3 is communicated to the air intake device configured made in the form of a vertical tube 6 with a check valve 7 for water enrichment with atmospheric air. The water flows from the pump 8 into the flexible plastic tube 9, then enters the Venturi pipe 3, forming the water-air mixture in the attached perforated annular flexible tube 11 made of polyethylene material. The perforated annular tube 11 is fixed rigidly by the rods to the lower generatrix side of the water intake chamber 12. The trash screen 16 is mounted on the device contour. The holes 17 of the perforated tube 11 are provided with nozzles 18 placed towards the screen 16 around the water intake chamber 12. The nozzles 18 are designed for the injected medium in the form of a water-air mixture flowing through the Venturi pipe 3 in the perforated annular tube 11. When installed in the water flow and the pump 8 operation in the Venturi pipe a vacuum is created, so that air suction occurs through the vertical tube 6 with a check valve 7 of the air intake device and the water is enriched with atmospheric air with oxygen. Between the pump 8 and the flexible plastic tube 9 a corrugated mounting insert 10 is inserted, designed as a flexible hose, which is placed above the water's edge 15. The jets flow by means of the kinetic energy of their high-speed initial sites towards the screen 16 and prevent sticking and accumulation on it of fibrous structures, debris, algae, as well as sticking of young fish.

EFFECT: simplification of the operation of the device structure, increase in reliability and efficiency of the screen protection.

3 cl, 1 dwg

Description

The invention relates to the field of water intake from surface sources and can be used in recycling water systems of concentration plants, the mining industry, located in areas with severe climatic conditions.

A well-known tip of the river water intake, consisting of a pipeline and an intake tip, the pipeline is made of articulated pipe segments, and the head is equipped with a float located above the suction hole and a hemispherical protective mesh (Copyright certificate SU No. 108060, E02B 8/04 of 09/14/1956) .

A disadvantage of the known device is that the connection of a pipeline made of pipe segments that are interconnected by hinges determines stringent requirements for its construction, since it is possible to get suspended sludge, debris, algae and other small particles, as well as direct water , causes them to jam and the corrosion properties of interconnected nodes, in particular, with a prolonged absence of water intake. Another disadvantage is the possibility of adherence and accumulation on the filter mesh of debris, fibrous impurities, which are always present in open water. Therefore, during operation, the filtering protective mesh is clogged with long-fiber and other impurities. All this dramatically reduces the water intake from the source of the river. The result is reduced operational reliability of the device. In addition, the design has many movable nodes, which complicates the device itself and significantly increases the cost of its operation.

A device for collecting water from surface sources is known, comprising a float, a water receiving chamber connected to it, a pressure pipe, a trash holding device and a cargo anchor with a control cable, which is equipped with a cleaner made in the form of a ring with radially fixed brush elements and turbine blades, while brush cleaner elements are placed in the gaps of the rings of the onboard nanosuppressing element (Copyright certificate SU No. 1252438, E03B 3/04, F16K 31/18 from 08/23/1986).

The disadvantages of this device is that all the equipment of the drive is located in the housing of the device itself, it is bulky and, as a result, a large material consumption. In addition, it complicates the design of the device itself and significantly increases the cost of its maintenance. The cleaning device itself determines the strict requirements for the necessary exact mutual alignment of brushes and rings with slots and makes the operation unreliable, since it is necessary to constantly move the brush elements freely around the circumference due to the turbine blades driven by the incoming (falling) water into the submersible pump housing.

The closest in technical essence to the proposed one is a device for water intake from surface sources, containing a float rigidly connected to the float and a water intake chamber installed underneath it, a water intake pipe placed under the water edge, and a trash guard, the upper part of the pipeline is connected to the float and the bottom is installed with a gap in the intake chamber and is made with holes located on the lower generatrix of the pipeline, while the intake chamber is made in the form of a tray (Aut rskoe certificate SU №1622535, E03B 3/04 of 01.23.1991).

The disadvantage of this device is the possibility of adherence and accumulation on the trash lattice of fibrous impurities, debris and other small suspended particles that are constantly present in an open water pipe (in a river or in a pond), as well as young fish, this complicates the operation of the device itself and increases operating costs . In addition, all this leads to a decrease in throughput through the debris trap, due to its siltation under real conditions of water intake, and this leads to a lack of water during water intake. As a result, the reliability of the trash holding grate and the water intake chamber itself decreases. This reduces the scope and versatility of the intake device.

The described essential features of the claimed invention distinguish it from the closest analogue, since the invention uses means that provide a new technical result.

The technical result is that the costs of its operation are reduced due to the use of water injection through the venturi and the air is supplied from the outside through a pipe to communicate with the atmosphere, connected to the constriction in the form of a venturi, while it is connected to an annular perforated flexible pipe, which evenly distributes the air-water mixture along the lower generatrix of the water intake chamber. In addition, the floating base of the float is made by a profile with a convex side to which a Venturi pipe is fixed. At the same time, predetermined higher filtration rates are ensured, which ensure the predetermined consumption of withdrawn water from surface sources.

The technical result is achieved by the fact that in the device for water intake from surface sources containing a float, a water intake chamber rigidly connected to it, a pressure pipe located under the water edge and connected to the water intake chamber, and a trash guard, the lower part of the pipeline is installed with a gap in the water intake the chamber and is made with holes located along the lower generatrix of the pipeline, while the intake chamber is made in the form of a tray, the floating base of the float is made with a convex profile the side to which the Venturi pipe is fixed, and a flexible plastic pipe connecting the inlet part of the Venturi pipe through a corrugated mounting insert with a pump located under the water edge, the air intake is in communication with the narrowest section of the Venturi pipe, its outlet is connected to a perforated annular flexible tube made from polyethylene material and placed along the lower generatrix of the water intake chamber.

In addition, the air intake is made in the form of a vertical tube with a check valve.

In addition, the pipeline for water intake is made in the form of a plastic pipe installed in a metal rectangular contour frame.

By combining the use of a cargo anchor with a cable and a corrugated mounting insert, the height of the planned location of the Venturi pipe with a float and a water intake chamber with a fixed perforated annular tube in close proximity to the water level is regulated, creating a vacuum and the suction function of the air intake from the air intake, this simultaneously leads to enrich the injected water with a pump to mix it with atmospheric air.

A device for taking water from surface sources contains a float 1 with a floating base 2, a profile with a convex side close to the form of placement and fastening with a venturi 3, while the narrowing angle of the confuser 4 of the venturi 3 α = 40 ... 45 °, and the angle diffuser expansion 5 β = 6 ... 8 °. The air intake is made in the form of a vertical tube 6 with a check valve 7, passes through the cavity of the float 1, its upper end is located above the water level, and the lower end is connected with the narrowest section of the venturi 3. Between the pump 8 and the flexible plastic tube 9, a corrugated mounting insert 10, made in the form of a flexible sleeve.

The output end of the diffuser 5 is connected to a perforated annular flexible (elastic) tube 11 made of polyethylene material and adjacent from the bottom to the intake chamber 12, rigidly connected to the venturi 3, and the intake chamber 12 is rigidly connected to the plastic pipe 14, which installed in a metal rectangular contour frame for water intake from the intake chamber 12, located below the edge of the water 15, and the tube 11 is fixed rigidly with rods to the bottom side of the intake chamber 12. Soro hered grating 16 is mounted on the circuit water withdrawal device on the outside of the perforated annular flexible tube 11 and along its entire length. At least two such perforated annular flexible tubes 11 can be installed, which depends on the placement size of the trash lattice 16. The openings 17 of the perforated tube 11 are provided with nozzles 18 located in the direction of the lattice 16 around the water intake chamber 12. The nozzles 18 are designed for the injected medium in the form water-air mixture flowing through a venturi into the perforated annular flexible tube 11.

The water reception chamber 12 is equipped with a cargo anchor 19, with which the tension of the vertical position of the water reception chamber 12 is regulated by tensioning the cable 20. The polyethylene pipe 14 is connected to a floating water conduit (not shown) in the river or in the reservoir at a natural water level in them.

The nozzles 18 can be made removable with the possibility of changing and fixing their length for feeding the sprayed active air-water mixture under pressure towards the trash holding grid 16 (mesh web), while the end of the perforated tube 11 is plugged. Thus, the air-water mixture (jets) emerging from the nozzles 18, due to the kinetic energy of its high-speed initial sections, not only ejects water, but also prevents the sticking and accumulation of fibrous structures, debris, algae and other suspended particles on the filter holes of the grating 16, t .e. there is no sticking to the lattice 16 (mesh web), which plays a role to a certain extent also protection from adhering juvenile fish. Thus, a water-air pressure torch (jets) is formed, which cleans the grate 16.

Changes in the position of the floating water intake chamber 12 do not interfere with the operation of the pump 8 due to the presence of a corrugated mounting insert 10 made in the form of a flexible sleeve. The corrugated mounting insert in its design can both stretch and contract, placed above the water edge.

A device for taking water from surface sources works as follows.

The assembled device is installed in the river or in the reservoir (body of water) at a predetermined immersion in the underwater horizon of the ridge 15 and fixed with the help of the cargo anchor 19 and the cable 20. The water reception chamber 12 takes a floating position, i.e. the device is anchored reliably and is oriented along the course of, for example, a river. The pump 8 creates the necessary water pressure in the plastic tube 9 and through the venturi 3 then in the perforated ring flexible (elastic) tube 11 made of polyethylene material, through the open check valve 7 of the vertical tube 6 (air intake), atmospheric air enters the venturi 3, which leads to the enrichment of atmospheric air with oxygen to create a water-air mixture (jets).

When water passes through a flexible plastic tube 9 from the pump and further through the venturi 3 in its narrowed part, a pressure is formed, which, with the appropriate choice of the diameters of the tube 8 and the narrowed part of the venturi 3, is less than the pressure in the perforated annular tube 11. As a result, atmospheric air with oxygen through a non-return valve 7 along a vertical tube 6 into the narrowed part of the venturi 3. Due to the presence of pressure of the water-air mixture along the length of the perforated annular flexible tube 11 falls into the nozzle cavity 18. Under pressure, the water-air mixture creates an active circular water-air stream around the water intake chamber 12, the jets of which are directed towards the grating 16 (mesh web), which is cleaned of adhering floating debris, algae and adhered juvenile fish, and they are diverted to the side water flow in the river, i.e. beyond the influence of the water intake front formed by the lattice 16 (mesh web).

In order to prevent the supply of water from the narrowed part of the venturi 3 to the vertical tube 6 with a sudden increase in pressure in the narrowed part of the venturi 3 or pressure in the perforated annular flexible tube 11, which can suddenly happen when the movement of the air-water mixture in the nozzles 18 or significant increasing the pressure in it, the check valve 7 in the tube 6 instantly blocks the flow of air from the air intake, and its volume decreases completely.

In general, this reduces the effect of sticking and retention of debris, algae and juvenile fish on the grate (on the mesh web), which means that water is taken into the water intake chamber in the required amount of clean water, while the likelihood of injury to young fish is reduced (the number of contacts with mesh cloth).

Using the proposed device for water intake, in comparison with known devices, provides better water intake from surface sources at any time of the year. There is a prevention (absence) of sticking and retention of debris, algae and juvenile fish on a mesh web (grate). This expands the scope and there is no need to change the filter mesh web when taking water from surface sources.

Thus, the proposed device allows to simplify the operation of the structure, the ecology of the environment is preserved. Increases the reliability and stable operation of the device for water intake from surface sources.

The originality of the proposed technical solution consists in using the effect of flow ejection on the floating base of the float, made by a profile with a convex side, to which a Venturi pipe is attached, connected to a perforated annular flexible tube made of plastic material, with nozzles along the lower forming side of the water intake chamber, and a nozzle directed towards the lattice. This, in turn, leads to clarification of the water and washing through holes in the grate, which increase the reliability of water intake in any weather and climate conditions.

Claims (3)

1. Device for water intake from surface sources, containing a float, a water intake chamber rigidly connected to it, a pressure pipe placed under the water edge and connected to the water intake chamber, and a trash holding grid, the lower part of the pipeline is installed with a gap in the water intake chamber and is made with holes placed along the lower generatrix of the pipeline, while the intake chamber is made in the form of a tray, characterized in that the base of the float is made with a profile with a convex side to which is fixed Venturi pipe, while a flexible plastic pipe connects the inlet part of the Venturi pipe through a corrugated mounting insert with a pump placed under the water edge, the air intake is connected to the narrowest section of the Venturi pipe, its outlet part is connected to a perforated annular flexible tube made of polyethylene material and placed along the lower generatrix of the water intake chamber. 2. The device according to claim 1, characterized in that the air intake is made in the form of a vertical tube with a check valve. 3. The device according to claim 1, characterized in that the pipeline for water intake is made in the form of a plastic pipe mounted in a metal rectangular contour frame.

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