RU2183492C1 - Filter for liquids with controlled structurization of grainy charge - Google Patents

Abstract

FIELD: liquid cleaning. SUBSTANCE: proposed liquid filter with controlled structurization of grainy charge has housing, initial and clarified liquid chambers, filtering charge and distribution system under charge, raw and washing liquid feed pipes, washing liquid and filtrate outlet pipes, vacuum pump, for instance, ejector, connected through suction pipe with clarified liquid chamber. Suction pipe has vacuum tank with air microhole and quick-acting valve installed before clarified liquid chamber. EFFECT: reduced one second energy consumption for vacuum pump operation, reduced cost of liquid cleaning. 1 dwg

Description

 The invention relates to the field of water supply, irrigation and water disposal and can be used in systems for improving the quality of water, for example, during clarification, deferrization and comprehensive cleaning, as well as for cleaning other liquids.

 A known filter for cleaning liquids with controlled structuring of the filter load, including a housing, a filter load, under which a water distribution system is installed, pipes for supplying and discharging liquid with shut-off devices, a pipe with a valve for structuring the filter load, which can be used to complete the washing a discharge pipe of the first filtrate by abrupt opening of its valve and gravitational discharge of fluid through it [1].

 The technical disadvantage of the known device for cleaning liquids with controlled structuring of the granular load: insufficient power of the gravitational flow for the effective structuring of the granular load.

 Also known is a device with controlled structuring of a granular charge for liquids, including a housing, chambers of the initial and clarified liquids, a filter charge and a distribution system underneath, pipes for supplying crude and washing liquid, drainage of washing water and filtrate, a vacuum pump (ejector) connected to a suction a pipe to the clarified water chamber [2, 3].

 The technical drawback of the filter with controlled granular charge structuring is the need for a sharp increase in the second energy consumption for the operation of the vacuum pump during the structuring of the load, which leads to the need to equip the installation with an increased power vacuum pump.

 Technical task: reducing the second energy consumption for the operation of the vacuum pump, i.e. reduced power of the vacuum pump.

 According to the invention, in a filter with controlled structuring of the granular liquid loading, the suction pipe of the vacuum pump comprises a vacuum tank with an air micro-hole and a quick-acting valve in front of the clarified liquid chamber.

 The drawing shows a filter with controlled structuring of granular loading for liquids, General view.

 The filter contains a housing 1, a filtering charge 2 and a distribution system 3 underneath it, a source chamber 4 and clarified liquid 5, a raw supply pipe 6 and a washing liquid 7 with a valve 8, a drain pipe for a washing liquid 9 and a filtrate 10 with valves 11 and 12. B the filter includes a vacuum pump (for example, an ejector) 13 connected by a suction pipe 14 to the clarified liquid chamber 5. The suction pipe 14 contains a vacuum tank 15 with an air micro-hole 16 and a quick-acting valve 17 (for example, with an electromagnetic actuator) in front of the clarified camera dkosti 5.

 In the initial state, valve 17 is closed, valves 8 and 11 are closed, valve 10 is open. Case 1 is filled with liquid.

 A filter with controlled granular fluid loading structuring for liquids works sequentially in three main modes: filtering, rinsing and structuring of the filtering load.

 In the downward filtration mode, the crude liquid is supplied through a pipe 6 to the chamber of the initial liquid 4. Passing through the pores of the filter charge 2, the liquid is purified and enters the clarified liquid chamber 5, from where it is discharged through the filtrate pipe 10 through the open valve 12. During the entire filtering period, the valves 8 on the flush pipe 7 and 11 on the flush pipe 9 are closed.

 As the pores of the filter load 2 are clogged, the impurities recovered from the liquid deteriorate. To flush the granular load, close valve 10, open valves 8 and 11. The flush fluid enters the chamber 5 through the pipe 7 and then through the distribution system 3 to the granular load 2 and is discharged through the pipe 9. The flushing is carried out by the reverse fluid flow, as a result of which the load 2 “boils” and the grains are washed off from the adsorbate.

 During periods of useful filtering and washing, the vacuum pump (ejector) 13 is connected to an energy source (to the raw liquid supply pipe 6 or to the washing liquid supply pipe 7) and works. As a result, in the vacuum tank 15, the vacuum pump 13 gradually forms a deep vacuum.

 At the end of the flushing, the unit is switched over to the granular loading structuring mode. The quick-acting valve 17 is abruptly opened, and the liquid from the granular load 4, under the action of the vacuum of the vacuum tank 15, rushes into it through the suction pipe 14. The grain of the load 2 is forcibly captured and deposited, and small grains overtake large ones due to their lower inertial mass. By adjusting the depth of the vacuum in the vacuum tank 15 by the size of the micro-hole 16, it is possible to change the deposition rate of the fine fractions of the filter load relatively larger and, therefore, to control the structuring of the granular load. The regime of granular loading structuring ends at the moment of full forced precipitation of all grains.

 Then they again go to the filtering mode - close valves 8, 11 and valve 17, open valve 12. The air micro-hole 16 also serves to replace air with liquid in the vacuum tank 13 when it is emptied from the washing liquid after structuring the granular charge. The liquid pump is emptied by a vacuum pump 13, the operation of which continues, and this happens gradually, as does the further formation of a deep vacuum.

 Thus, equipping the suction pipe of the vacuum pump with a vacuum tank with an air micro-hole and a quick-acting valve in front of the clarified liquid chamber provides a gradual, extended for periods of useful filtering and washing, the formation of a deep vacuum is necessary for the subsequent structuring of the granular load and, as a result, the vacuum power is reduced the pump.

Sources of information
1. Ovodov V. S. Agricultural water supply and watering. M .: Kolos, 1984, p. 219-269.

 2. The decision to grant a patent for an invention according to the application 99104988/12, IPC 6 B 01 D 24/46. Water treatment filter with controlled structuring of filter media. / Ishchenko A.Yu., Zhirnov A.G., Poloshchuk O.M., Troshin A.A., Ishchenko Yu.A. Date of application 09. 03. 99.

 3. Ishchenko A. Yu. Justification of the technological parameters of groundwater purification means for poultry farming. - Diss. Ph.D. Volgograd, 1999, p. 46-49.

Claims (1)

 A filter with controlled granular charge structuring for liquids, including a housing, chambers of initial and clarified liquids, a filter charge and a distribution system underneath, raw and wash liquid supply pipes, wash liquid and filtrate discharge pipes, a vacuum pump, for example, an ejector connected to a suction pipe to the clarified liquid chamber, characterized in that the suction pipe comprises a vacuum tank with an air micro-hole and a quick-acting valve in front of the clarified liquid chamber.