RU2299755C1 - Installation for purification of the water - Google Patents

Abstract

FIELD: agriculture; production of the installations for agricultural reclamation.

SUBSTANCE: the invention is pertaining to the agricultural reclamation, in particular, to the installation for water filtration. The installation contains the hermetic container filled with the filtration substance, the upper and lower distribution systems for water delivery from the basin and withdrawal of the purified water and the pipelines network for withdrawal of the pollution products. The installation is made with the possibility of the alternate change of the operation modes: purification of the water and the filtering material flushing. The installation is supplied with the off-on switch of the streams of the water. Its body is hydraulically linked by the fitting pipes with the upper and lower water distribution systems for delivery of the water from the basin, withdrawal of the purified water and with the pipelines network for removal of the pollution products. The installation contains the cyclones with the self-cleaning gauze filters. The bottom parts of the bodies of the cyclones through the valves are conjugated with the network for withdrawal of the pollution products. The technical result of the invention is provision of the uninterrupted operation of the drip irrigation system.

EFFECT: the invention ensures the uninterrupted operation of the drip irrigation system.

5 dwg

Description

The invention relates to agricultural reclamation, in particular to drip irrigation, and can be used to purify water when irrigating vegetable crops, vineyards, orchards, forest nurseries, fruit crops, etc. plantings.

A known drip irrigation system, including a water supply source, a supply network, a distribution network and humidifiers with injectors, in which, in order to improve the aeration of the moistened area and to control the flow of water into the soil at the inlet to each injector, is installed hydraulic resistance, and below it, in the wall injector, a hole is made; in order to stabilize and control the flow rate of air supplied to the soil, each injector is equipped with a water seal located below the hole; in order to evenly distribute water in the humidified zones when the pressure changes along the humidification length, the injectors are connected to the humidifiers through tubular inserts of various lengths; hydraulic resistance is made in the form of a float water level controller (RU, copyright certificate No. 5445305. M. cl ^2. A01G 25/02, drip irrigation system / B.I. Zigelman and N.I. Kuzyakin (USSR). - Application No. 2198288 / 15; claimed 12/10/1975; publ. 02/05/1997, bull. No. 5 // Discovery. Inventions. - 1977. - No. 5).

The disadvantages of this drip irrigation system include poor cleaning of the water supplied by the injectors from the water supply network to the humidifiers. The latter are clogged with plant debris and silt suspensions in irrigation water.

Some of these drawbacks are eliminated in the drip irrigation system, including a water source, a settling basin, a pumping station and an irrigation network with droppers, in which, in order to increase the reliability of operation and reduce operating costs, the system is equipped with linearly extended tubular filters laid in soil along the shore of the water source and buried beneath the groundwater level, while the tubular filters are connected to the sump pool, which is closed (SU, copyright certificate No. 1551285. A1. M. Cl ⁵ A01G 25/02. Sys the topic of drip irrigation / N.A. Kudel, A.V. Shevchenko and M.I. Romashchenko (USSR) - Application No. 4443850 / 30-15; declared 05.19.1988; publ. 23.03.1990, bull. No. 11 / / Discoveries. Inventions. - 1990. - No. 11).

The disadvantages of this drip irrigation system are the large material and labor costs for laying linearly extended tubular filters in the ground to a lower groundwater level.

Known horizontal sump containing a tank, upper and lower distribution systems for supplying oil-containing water and drainage of purified water, respectively, a drain pipe for oil products, inlet and outlet pipes, in which, in order to improve the efficiency of purification of oil-containing water, the upper and lower distribution systems are made in the form of connected to the collector horizontal perforated pipes, while the pipes of the upper and lower systems are made with a diameter increasing and decreasing from the inlet pipe to output, the total cross-sectional area of the upper and lower distribution systems is not more than 1.3 cross-sectional area of the corresponding collector, and the inlet and outlet nozzles are located at diametrically opposite ends of the tank (SU, copyright certificate No. 1544712, A1. M. class ⁵ С02F 1 / 40, B01D 21/24, 17/032. Horizontal sedimentation tank / E. M. Kechelman and L. M. Dolub (USSR) - Application No. 4279584 / 23-26; claimed 08.19.1987; publ. 23.02.1990, bull. No. 7 // Discoveries. Inventions - 1990. - No. 7).

The disadvantages of the described sump include limited functionality - the collection of emergency oil spills.

The closest analogue in essence and purpose to the claimed technical object is a water treatment plant, comprising a housing with nozzles, upper and lower distribution devices, according to the utility model, the ion-exchange resin is placed in the installation, and the filter medium density below water density, and above the surface of the material in the housing there is free space from sorbents (RU, utility model certificate No. 21912, U1, IPC ⁷ C02F 1/42 Installation for water purification / S. L. Gromov (RU) - Application No. 20011110826/20; claimed April 25, 2001; publ. February 27, 2002, Bulletin No. 6 // Inventions Useful models. - 2002. - No. 6. - C.301 and 302).

The disadvantages of this installation, which we adopted as the closest analogue, are unsatisfactory quality of water treatment, low productivity, insignificant and one-time service life of the sorbent.

The invention consists in the following

The task to which the invention is directed is to improve the quality of water treatment.

The technical result is an increase in productivity, reducing the cost of crop production, operational reliability and reducing labor costs for the maintenance of the installation.

The specified technical result in the implementation of the invention is achieved by the fact that in a known installation for water purification, containing a horizontally installed sealed container filled with filtration material, upper and lower distribution systems for supplying water from a reservoir and removal of purified water, respectively, and a network for removing pollution products, according to the invention it is equipped with the ability to periodically change the operating mode: water treatment - flushing the filter material by switching two a positioning distributor of water flows, the casing of which is hydraulically connected to nozzles with an upper and lower distribution system for supplying water from a reservoir and discharging purified water, a network for discharging pollution products and cyclones in series in the inlet and outlet of the hydraulic network, in the cavities of which self-cleaning mesh is mounted filters, while the bottom of the cyclone bodies are associated with collections of pollution products.

Due to the fact that the installation is equipped with a two-position distributor of water flows and hydrocyclones in the network, the above technical result is achieved.

The invention is illustrated by drawings.

Figure 1 schematically shows an installation for water purification when operating in water purification mode.

In Fig.2 - the same, in the washing mode of the filtration material, the removal of clogging.

Figure 3 - aa in figure 1, a transverse vertical section of the filter capacity when the installation is in water treatment mode.

In Fig.4 is a section bB in Fig.2, a transverse vertical section of the filter capacity when the installation is in the removal mode of the clogging.

In Fig.5 is a section bb in Fig.1, a horizontal section of the lower water distribution pipes of the purified water drainage system and the collector.

Information confirming the possibility of carrying out the invention are as follows.

For normal and uninterrupted operation of drip irrigation systems, the following requirements are imposed on irrigation water:

- the content of solid precipitation per 1 liter of water is not more than 3 g;

- the degree of mineralization is not more than 6 g / l.

The irrigation water treatment plant contains a sealed container 2 horizontally mounted on the frame filled with filtration material 1. The tank 2 is equipped with upper and lower water distribution systems in the form of a perforated pipe 3 and drain pipes 5 connected through a collector 4 to supply water from the reservoir and drain purified water, respectively.

Installation for irrigation water treatment is equipped with the ability to periodically change the operating mode: water treatment - flushing the filter material 1 by switching the on-off distributor 6 water flows. The housing 7 of the distributor 6 is hydraulically connected by pipes 8, 9, 10, 11 and 12 to the pipes 3 and 5 of the upper and lower distribution systems for supplying water from the reservoir and drainage of purified water, a network 13 for removing pollution products and cyclones 14 sequentially installed in the hydraulic network 14 and 15. They are interfaced with collectors 18 of pollution products to be diverted outside the installation by means of valves 19. Behind the pipe 8 in the water supply system to the container 2, at the inlet end of the perforated pipe 3, a control pressure gauge 20 is installed, fixing the operating mode Ota plant.

A sleeve of anti-corrosion material and a plunger 21 are installed in the housing 7 of the water flow distributor 6. The lower free end of the plunger 21 is kinematically connected by a fork 23 to the two-arm lever 24. The lever 24 has two lockable positions: water treatment - removal of the clam.

Filtration material 1 is represented by coarse-grained sifted sand with granule sizes of 1-5 mm and an absorption surface of 10 ³ m ² .

Installation for water purification operates as follows.

We consider the operation of the installation in two examples: in the water treatment mode and in the removal mode of clogging from the filter material.

From an adjacent reservoir, water is pumped through the pipes of the network to the housing 17 of the hydrocyclone 14. When the tangential water supply is under pressure in the housing 17 of the hydrocyclone, the mass of water is rotated around the vertical axis II of the hydrocyclone 14. Large plant impurities and suspensions from the total mass of water behind the mesh surface of the filter 16 settle down, i.e. towards the bottom of the hull 17 and enter the collection 18 pollution products from the purified water.

Water with smaller sizes of suspensions from the cavity of the hydrocyclone 14, having passed the strainer 16, flows through a pipe into the pipe 11 on the housing 7 of the distributor 6 of water flows. With the upper position of the plunger 21 (see FIG. 1), water from the pipe 11 enters the cavity of the distributor body 7 and is directed by the grooves of the plunger 21 into the pipe 8, hydraulically connected to the perforated pipe 3 installed in the upper part of the container 2 above the filter material 1. Flow the water pipe 3 is evenly distributed in the volume of the tank 2. Due to the gravitational force, water molecules penetrate through the thickness of the layer of coarse sand laid in the tank 2 as filter material 1. Suspensions from the water settle on the surface STI sand and in the pores between the particles. Filtered water enters through the slots or perforations of the drainage pipes 5 into the collector 4, and from it under pressure into the nozzle 9 of the distributor housing 6. In the upper position of the plunger 21, the water to be purified, having passed the second cleaning stage, enters through the nozzle 12 into the housing 17 of the hydrocyclone 15 From the housing 17, purified water enters through the strainer 16 into the main or distribution piping of the drip irrigation system and is distributed via soil droppers or injectors directly into the root systems of plants crops. Suspensions, mineral and vegetable litter from water are precipitated and accumulated in the collections of 18 products of pollution of irrigation water.

The normal operation of the installation is estimated by the quantitative indicators of the pump pressure gauges (not shown in the drawing) and the pressure gauge 20 installed between the pipe 3 and the casing 7 of the distributor 6 of the water flows. With a differential pressure of more than 0.005 MPa, the lever 24 of the plunger 21 is transferred to the position for washing the filter material 1.

Consider the operation mode of the installation during the mudding of layers of filtration material. Clamage from the tank 2 is removed as follows.

The operator servicing the installation and the entire drip irrigation system, by hand or remotely puts the lever 24 into the locked position “Removing the clogging”. When moving the free end of the lever 24 upward, the plunger 21 in the housing 7 of the distributor 6 of the water flows takes the lowest position (see figure 2). Purified water, passing through the slots of the strainer 16 from the housing 17 of the hydrocyclone 14, is sent to the pipe 11 on the housing 7 of the distributor 6 and from it to the pipe 9, connected by a pipeline to the collector 4. From the collector 4 through the drainage pipes 5, the outgoing water flows direction of the perforated pipe 3, washing the layers of sand. The colmatage in the form of a finely dispersed sediment rises and is discharged by water flows into the cavity of the housing 7 of the distributor 6 of water flows by a pipe 3 and then to a network 13 to discharge pollution products. When visually assessing the water from the network 13 and based on the readings of the pressure gauge 20, the manual operator 24 puts the plunger 21 in the "Water purification" position. The process of separating suspensions from water occurs in the above sequence.

Litter and sediment from the collection of 18 pollution products in cyclones 14 and 15 are removed at the end of the next irrigation.

The simplicity of the installation design and the availability of filtration material in any farm operating the drip irrigation system ensure the smooth operation of irrigated areas during the growing season of cultivated plants. Labor costs for installation maintenance are reduced by 3-5 times in comparison with the known analogues.

The described set of essential distinguishing features in the claimed object ensures the achievement of the task - improving the quality of water purification while maintaining high productivity.

Claims (1)

Installation for water purification, containing a horizontally installed airtight container filled with filtration material, upper and lower distribution systems for supplying water from a reservoir and removal of purified water, respectively, and a network for removing pollution products, characterized in that it is equipped with the ability to periodically change the operating mode: water treatment - flushing filtration material by switching a two-position distributor of water flows, the casing of which is hydraulically connected by pipes to the henna and lower water distribution systems for supplying water from the reservoir and drainage of purified water, a network for the removal of pollution products, and cyclones sequentially installed at the inlet and outlet of the hydraulic network, in the cavities of which self-cleaning strainers are mounted, while the bottom parts of the cyclone bodies are associated with product collectors pollution.

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