SU1488260A2 - Water-purifying filter - Google Patents

Description

The invention relates to filters for cleaning liquids and allows to increase productivity, reduce production areas and improve the quality of cleaning. The filter consists of a housing 1, a channel with a ferromagnetic nozzle 4, dividing the housing into sections of coarse 5 and thin 8. cleaning, filled with large-granular 6 and small-granular 9 loads, respectively, which are made

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the pipeline for supplying fluid 23, which is hydraulically connected to the pipeline for entering the re-; agent and equipped with a means to enter the magneto-susceptible substance and magnetizing system. The liquid enters section 5, where, filtered in a horizontal direction through a floating large-granule load 6, located in a magnetic field created by a magnetizing system, forms a nozzle on the surface of the granules and in its pores an additional filter layer. Then the liquid is purified from finely dispersed magnetic

impurities, being filtered from the bottom up through the ferromagnetic nozzle 4, located in the magnetic field of the system, and the filtering rate in it is 5-10 times higher than in the ferromagnetic nozzle. The final clarification occurs after filtering the liquid in a horizontal direction through a fine granular floating load 9, where fine non-magnetic impurities are trapped. Deep softening is provided in section 10 when filtering from top to bottom through a layer of ion exchange material 11. 3 Cp f-ly, 3 ill.

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The invention is carried to the filters for the purification of water and other liquids and is an improvement of the filter according to the author. St. No. 1284581.

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. The aim of the invention is to increase productivity, reduce production areas and improve the quality of cleaning.

FIG. 1 shows the filter section; 35 in FIG. 2 shows section A-A in FIG. one; in fig. 3 - the same, the magnetizing system is made in the form of electromagnetic coils with cores.

A filter for purifying water or another liquid consists of a housing 1, a distribution pocket 2, a channel 3 that contains a ferromagnetic nozzle 4, made, for example, of steel granules or crushed iron ferrite, coarse section 5, containing; a large floating granular filtering load 6, and section 5 can be equipped with ferromagnetic elements 7. Fine cleaning section 8 consists of a fine granular floating load 9. Section 10 contains a load of ion exchange material 11. Sections 5 and 8 are separated from channel 3 vertical permeable partitions 12 θ and 13, respectively. Section 10 is separated from section 8 by a vertical waterproof partition 14 with an upper overflow edge. In case 1 above sections 5 and 8 and channel 3 a horizontal waterproof partition 15 is installed, separating the superfilter space 16 necessary to collect the liquid going to

washing of filtering loads 4, 6 and 9. In sections 5, 8 and channel 3, the upper 17-19 and lower 20-22 drainage systems are provided, respectively. Pipelines 23 and 24, respectively, are designed to supply the source fluid and drain the purified liquid. The pipeline with the means 25 for introducing and distributing the magnetosensitive substance is hydraulically connected by means of the pipeline 26 to the pipeline 23 for supplying the initial liquid, as well as the drainage system 22, and is intended for supplying the reagent and the magnetosensitive substance. Pipelines 27 and 28 are designed to supply and discharge of the regeneration solution during the regeneration of the ion-exchange material 11. For emptying the distribution pocket 2 serves as a pipeline 29.

The magnetic effect on channel 3 and section 5 with loadings 4, 6 placed inside them is carried out with the help of magnetizing system 30, which can be made in the form of permanent magnets 31 (Fig. 2} or in the form of electromagnetic coils 32 with cores, the pole ends of which adjacent to the channel 3 and the coarse section 5 (Fig. 3).

The reagent supply line, which is hydraulically connected to the pipeline with the source liquid supply water 23, is provided with an additional means 25 for introducing a magneto-susceptible substance, which allows, depending on the quality of the initial liquid and the degree of purification, to provide magnesium inlet

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product sensitive material, making the device more flexible in work and achieving the desired cleaning effect.

The magnetizing system 30, which exposes channel 3 and second 5 to a magnetic field, facilitates the process of holding a floating large-granular nozzle 6 in the pore space and on the surface of granules, which is injected into the liquid to be purified of a magnetic susceptible substance and magnetic and non-magnetic impurities flocked around it. This creates the possibility of contact magnetic clarification, which provides favorable conditions for the retention of both magnetic and nonmagnetic impurities, increasing the cleaning effect, and also allows you to increase! filtering rate through this section, increasing device performance. Moreover, in order to strengthen the magnetic field, section 5 can additionally have ferromagnetic elements 7, made, for example, in the form of plates, rods, grids (Figs. 2, 3).

Placing the ferromagnetic attachment 4 in the channel 3 exposed to the magnetic field created by the Magnetizing system 30 allows filtering the fluid through it at a speed of 5-10 times the filtration rate in the non-ferromagnetic attachment, which allows speeding up the cleaning process, i.e. increase the performance of the device, while not increasing its dimensions. In addition, filtering through the ferromagnetic nozzle 4, located in channel 3, the liquid, pre-cleaned in the adjacent section 5 of coarse magnetic and non-magnetic impurities, is cleaned of fine magnetic impurities, which allows to increase the useful life of the filter nozzle between its washings, and therefore , increase device performance. In addition, it creates the possibility of expanding the scope of the device, as well as achieving a higher cleaning effect. Depending on the quality of the source fluid, the performance, the desired cleaning effect, the ferromagnetic nozzle 4. can be made in the form of steel granules, crushed ferrite or

in the form of plates oriented along the flow of liquid n across the direction of magnetization.

The filter for cleaning fluid works as follows.

The source water or other liquid with a pre-inserted into it through the pipe 26 magnetic flux through the pipeline 23 enters the distribution pocket 2 of the housing 1 of the device. Then the liquid with flocoulamine formed in it from magnetosensitive material, magnetic and nonmagnetic impurities.

enters section 5 of coarse purification, where it is filtered in a horizontal direction through a floating load 6 located in a magnetic field connected with a magnetizing system 30.

In the process of filtering, the formation of an additional filtering medium occurs due to deposition in the pores and on the surface of the granules of a floating filtering load 6 formed flocs. Such a process of contact magnetic clarification allows cleaning the liquid from coarse magnetic and non-magnetic impurities, which expands the field of application of the device 30 and increases the cleaning efficiency. Then the liquid enters the intermediate channel 3 of the device through a vertical water-permeable barrier 12 and, being filtered from bottom to top through a ferromagnetic nozzle 4 located in a magnetic field created by the magnetizing system 30, is cleaned from fine magnetic impurities. High filtration rates through the ferromagnetic nozzle 4 allow, without increasing the size of the device, to increase the cleaning effect and its performance. After 45 the liquid, passing through the vertical water-permeable wall 13, is filtered in a horizontal direction through a floating filtering load 9 located in section 50 8 of the device, cleared of fine non-magnetic impurities accumulated in the superfilter space; 16. From the above filter space 16, the liquid enters section 10,

55 where by 'filtering through ion exchange material 11 is provided

. her deep softening. Pipeline 24 purified liquid is discharged

to the consumer.

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. Flushing of filtering loads in sections 5, 8 and in channel 3 is carried out by supplying fluid from the superfilter space 16 through pipelines of drainage systems 17-19, respectively, and flushing water is carried out respectively by drainage systems 20-22, and the magnetic field is turned off during washing.

Regeneration of the ion exchange material 11 is carried out in three stages. First, the ion-exchange material is loosened by supplying fluid through conduit 27 and withdrawal through conduit 28, then the regeneration solution is fed through conduit 27 and withdrawn through conduit 28 20

and finally, the passage of the ion-exchange material is provided by supplying liquid from the superfilter space 16.

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The proposed filter for cleaning the liquid allows' to increase the cleaning performance by 3-5 times, to reduce the productive area by 20-30%, as well as to improve the quality of 30 water purification from magnetic and non-magnetic impurities.

Claims (4)

Claim 1. Filter for water purification St. No. 1284581, characterized in that, in order to increase productivity, reduce production areas and improve the quality of cleaning, it is equipped with a magnetizing system to influence the channel and the coarse section, a ferromagnetic nozzle located in the channel between the fine cleaning section and a longitudinal partition, and a pipeline with means for IVODs of a magneto-susceptible substance, attached to the pipeline, for supplying the reagent and the pipeline for supplying the source water. 2. Filter pop. 1, characterized in that the ferromagnetic nozzle is made in the form of steel ’granules or crushed ferrite .. 3. Filter pop. 1, characterized in that the coarse section is provided with ferromagnetic elements. 4. Filter pop. ^ characterized in that the magnetizing system is made in the form of electromagnetic coils with cores, the pole end parts of which are adjacent to the channel and the coarse section. FIG. 2 1488260