RU143183U1 - LIQUID CLEANING PLANT - Google Patents

Abstract

1. Installation for cleaning liquids, containing a hollow body, which houses a filter compartment filled with a filter charge, a receiving tank for the original liquid in communication with the filter compartment, a clean liquid tank in communication with the body cavity, a water seal, siphon, gas inlet and gas outlet pipes, characterized in that it is equipped with at least one additional siphon, a line for supplying the source liquid to the filter compartment and collecting the washing liquid, one end of the line is introduced into the filter The main compartment is under loading and is configured to supply the source fluid from the line to the filter compartment and the washing liquid to enter the line through it, the other end of the line is connected to the inlet ends of the siphons, the drain ends of which are introduced into the water seal, the bends of the siphons are connected to the gas outlet pipe and to the gas inlets the tubes, the ends of which are immersed in the cavity of the casing, the filter load has a density lower than the density of water, while a delay grating is installed above the filter load. 2. Installation according to claim 1, characterized in that the ends of the gas inlet pipes are immersed in the cavity of the housing at different depths. Installation according to claim 1 or 2, characterized in that a vacuum pump is installed at the end of the exhaust pipe.

Description

The utility model relates to installations for purifying liquids by filtration, mainly of waste and natural waters, and can be used in utilities, as well as in chemical and other industries.

A known installation for cleaning liquids, comprising a housing with a filter load, a distribution system, a siphon with a water trap for removing wash water, having an air tube, one end of which is connected to the bend of the siphon, and the other is immersed in the filter housing above the distribution system, pipelines for supplying the original liquid and filtrate outlet, means for switching the filter operating mode, consisting of a water seal, its siphon for emptying and a pipe for filling the water seal with the initial liquid, which the inlet end of the siphon and emptying the outlet end of the initial liquid filling pipe has a water seal; the inlet end of the filling trap of the water trap is connected to the pipeline for supplying the source fluid at a mark above the bend of the wash water siphon, and the outlet end of the filling conduit, the inlet end of the siphon of washing and the end part of the descending branch of the washing water siphon are located in the water trap for draining the wash water, SU 1386235 A1, 04/07/1988.

The disadvantage of this installation is the complexity of the process of turning on the washing siphon by means of an overflow tube and an additional siphon for emptying the water seal. In addition, when filling a water trap with wash water, the impurities contained in it, washed out of the filter load, are deposited at the bottom of the water trap, after which the water trap is closed, which has a much smaller diameter than the main washing trap. As a result, the operation of the washing siphon becomes impossible, since the main siphon does not turn on.

Also known installation for cleaning liquids, mainly impurity-containing water; The installation comprises a housing in which a filter compartment is located, filled with a granular filter load, a receiving container for the initial liquid in communication with the filter compartment, a clean liquid reservoir into which it enters from the wash tank in communication with the housing, a water trap, a siphon, gas inlet and gas outlet pipes ; the unit is also equipped with an accumulation cup, overflow, charging and emptying siphons, while the charging siphon and the drain end of the overflow siphon are placed in the accumulating cup, the drain end of the charging siphon is in the hydraulic shutter of the gas outlet pipe, and the drain end of the emptying siphon is in the waste liquid tank; the bend of the emptying siphon is equipped with an interruption pipe connected to an overflow siphon installed with the possibility of vertical movement relative to the housing, SU 814395, 03.23.1981.

As the load used sand. The filtering of the initial liquid is carried out by feeding it from the receiving tank into the filter compartment from top to bottom. Rinsing is carried out due to the flow of water into the filter compartment through the drainage holes in its base.

This installation is adopted as a prototype of this utility model.

Installation reduces the possibility of clogging of the hydraulic lock; in addition, the inclusion of the main washing siphon for flushing is carried out by releasing air from the casing of the siphon through a gas outlet pipe, which allows you to reliably turn on the siphon in operation.

However, the installation does not allow controlling the intensity and duration of washing the filter load, which is necessary when cleaning liquids in which the content of contaminants is variable and may change, for example, depending on the time of year (for natural waters) or technological processes (for industrial wastewater ); in addition, the use of filter media, the density of which exceeds the density of water, significantly complicates and reduces the quality of washing.

The objective of this utility model is to provide the ability to control the intensity and duration of washing the filter load, depending on the nature and content of contaminants in the initial liquid, as well as improving the quality of the regeneration of the load.

According to a utility model, a liquid purification installation comprising a hollow housing in which a filter compartment is arranged filled with a filter charge, a receiving container for the initial fluid in communication with the filter compartment, a clean fluid reservoir in communication with the housing cavity, a water trap, a siphon, gas inlets and gas outlets is equipped with at least one additional siphon, a line for supplying the source liquid to the filter compartment and collecting the washing liquid, one end of the line is inserted into the filter the oval compartment is under loading and is configured to feed the source fluid from the line into the filter compartment and supply liquid through it to the line, the other end of the line is connected to the inlet ends of the siphons, the drain ends of which are introduced into the water trap, the bends of the siphons are connected to the gas outlet pipe and to the gas inlet pipes the ends of which are immersed in the cavity of the housing, the filter load has a density lower than the density of water, while a delaying grating is installed above the filter load; the ends of the gas inlet pipes can be immersed in the cavity of the housing at different depths; A vacuum pump can be installed at the end of the exhaust pipe.

The applicant has not identified any technical solutions identical to the claimed one, which allows us to conclude that the utility model meets the patentability condition “Novelty”.

The essence of the utility model is illustrated by the drawing, which schematically depicts the claimed installation.

The installation comprises a hollow body 1, in which a filter compartment 2 is placed, filled with a filtering charge 3. As the load, polystyrene foam granules are used. The receiving tank 4 for the initial (cleaned) liquid communicates with the filter compartment 2 through a pipe 5 and a line 20, one end of which is inserted into the filter compartment 2 and is equipped with a perforation 21, which provides fluid supply to the filter compartment from the line 20 and liquid from it to the line 20. The reservoir 6 of clean liquid communicates with the cavity of the housing 1 through the nozzle 7. Airlock 8 is placed in the drainage tank 9. The installation contains a siphon 10, as well as (in a specific example) two additional siphons 11 and 12. Gas inlet pipe and 13, 14, 15 are connected with excesses of siphons 10, 11, 12, respectively. Other (free) ends of the gas inlet pipes 13, 14, 15 are immersed in the cavity of the housing 1. The gas outlet 16 is connected to the bends of the siphons by means of nozzles 17, 18, 19, equipped with locking bodies (valves) 24, 25, 26. At the free end of the gas outlet pipe A vacuum pump 23 is installed 16. The ends of the gas inlet pipes can be immersed in the cavity of the housing 1 at different depths, which makes it possible to control the volume of the flushing liquid that is discharged. Siphons 10, 11, 12 can have a different cross section.

Installation works as follows. In the initial fluid cleaning mode, the latter flows through a pipe 27 to a container 4, from which it passes through a pipe 5 to a line 20 and then through a perforation 21 to a filter compartment 2. Filtration is carried out with the further passage of the initial liquid through the filter charge 3. Since the density of the filter load 3 is less than the density of water, load 3 pops up to the level of the retention lattice 22 and does not rise further, since the size of the holes in it is smaller than the size of the elements (granules) of the load 3. Filtro This liquid enters the cavity of the housing 1, from which through the pipe 7 it passes into the reservoir 6 of clean liquid, from which it is diverted for use through the pipeline 28. The impurities contained in the initial liquid are retained in the pores of the filter charge 3. Upon reaching the maximum pressure loss on the filter loading 3 or when the quality of the purified liquid deteriorates, the filter loading is regenerated. Regeneration is carried out by washing the load with filtered fluid from the cavity of the housing 1 (filter space). The direction of fluid movement is opposite to the direction of filtration, that is, from top to bottom. To carry out the regeneration of the filter load 3, open the valves 24, 25, 26 on the nozzles 17, 18, 19 and turn on the vacuum pump 23. After removing air from the siphons 11, 12, 13, turn off the vacuum pump 23, and the siphons begin to draw liquid through the perforation 21 and line 20 from the filter compartment 2. At the same time, clean liquid from the cavity of the housing 1 passes with great speed through the grate 22, the filtering load 3 and flushes out the dirt accumulated in the filtering mode. A washing liquid containing impurities, passing through siphons 10, 11, 12, enters a water trap 8 and then into a drainage tank 9, from where it is discharged through a pipe 29. The liquid level in the cavity of the housing 1 and, accordingly, in the receiving tank 4 for the initial liquid begins go down. After the liquid level in the cavity of the housing 1 drops below the ends of all the gas inlet pipes 13, 14, 15, air enters the gas inlet pipes and through them into the siphons 10, 11, 12, breaking the vacuum in them. The movement of the liquid through the siphons stops, thus, the regeneration of the load ends.

The flow rate of the liquid passed through the siphon is determined by its diameter; the duration of the siphon and the volume of discharged washing liquid depend on the degree of contamination of the initial liquid, respectively, the number of impurities detained by the load and are determined by the immersion depth of the ends of the gas inlet tubes in the cavity of the housing 1. Thus, including one, two, or with the help of locking bodies 24, 25, 26 three siphons, you can change the flow rate of the washing liquid, and, therefore, the washing intensity two or three times.

After the regeneration of the filter load is completed, the unit again operates in the filter mode.

The implementation of the features of this utility model ensures the achievement of a technical result consisting in the possibility of controlling the intensity and duration of washing the filter load, depending on the nature and content of contaminants in the initial liquid; the use of light floating filter media allows you to facilitate and improve the quality of its washing.

The installation has a simple and reliable design.

A prototype of the installation was manufactured and tested, which allows, in the applicant's opinion, to conclude that the utility model meets the patentability condition “Industrial Applicability”.

Claims (3)

1. Installation for cleaning liquids, containing a hollow body, which houses a filter compartment filled with a filter charge, a receiving tank for the original liquid in communication with the filter compartment, a clean liquid tank in communication with the body cavity, a water seal, siphon, gas inlet and gas outlet pipes, characterized in that it is equipped with at least one additional siphon, a line for supplying the source liquid to the filter compartment and collecting the washing liquid, one end of the line is introduced into the filter The main compartment is under loading and is configured to supply the source fluid from the line to the filter compartment and the washing liquid to enter the line through it, the other end of the line is connected to the inlet ends of the siphons, the drain ends of which are introduced into the water seal, the bends of the siphons are connected to the gas outlet pipe and to the gas inlets the tubes, the ends of which are immersed in the cavity of the housing, the filter load has a density lower than the density of water, while a delaying grating is installed above the filter load. 2. Installation according to claim 1, characterized in that the ends of the gas inlet pipes are immersed in the cavity of the housing at different depths. 3. Installation according to claim 1 or 2, characterized in that a vacuum pump is installed at the end of the exhaust pipe.