RU2166363C2 - Combined-action filter for demineralization of water - Google Patents

Abstract

FIELD: high demineralization of water. SUBSTANCE: proposed filter has two housing: one housing is filled with cationite and other housing is filled with anionite; both housings are interconnected by means of mixing chamber fitted with branch pipe for removal of regenerating solutions and intake chamber with branch pipes for delivery of starting water and drain chamber for discharge of demineralized water. Intake and drain chambers are provided with branch pipes for pouring. EFFECT: reduced operation consumption.

Description

 The invention relates to installations for desalination (purification) of water, mainly of low productivity up to 100 l / h, used in industry, transport and in everyday life.

 A well-known analogue of the patented filter is a filter containing interconnected bodies filled with different loads, a receiving and draining chamber with nozzles for receiving the source and discharge of purified water (see US Patent No. 5,273,649, class B 01 D 27/02, 1993).

 However, the filter - analogue is not regenerated, which leads to the need to replace the load after it is depleted, and this, in turn, increases the cost of operation.

 The objective of the invention is the ability to regenerate the filter and, as a result, reduce operating costs.

 The problem is solved in a mixed-action filter for desalination of water, containing interconnected bodies, one of which is filled with cation exchanger, and the other with anion exchanger, a receiving chamber with a pipe for supplying source water and a drain chamber with a pipe for removing demineralized water, additionally equipped with a chamber for mixing regeneration solutions located between the housings and having a nozzle for the removal of regeneration solutions, while the intake and drain chambers have nozzles for filling the regeneration ra create.

 The mixed-action filter containing the above distinguishing features has the necessary structural elements of the new filter, making it regenerable, which reduces the cost of operation.

 The individual elements included in the filter are shown in FIG. thirteen.

 In FIG. 1 shows the proposed mixed-action filter assembly. The filter contains a pipe for receiving the source water 1 with an external thread for fastening the supply flexible pipe, a left cover 2, an elastic ring 3, to prevent leakage and fixation of the cover in the receiving chamber 4, containing a pipe for pouring the regeneration solution 5 with the cover 6, a drainage partition, consisting of two grids 7 and a perforated disk 8, also mounted in the receiving chamber on the fixing collar of the chamber 9, and secured from longitudinal movement by the left filter housing 10 from a corrosion-resistant material (for example measures, polyethylene) filled with an ion-exchange charge 11, a mixing chamber 12 identical to the left receiving chamber, as well as a right-hand housing 13 with a charge 14 different from that in the left-hand housing, a right-hand drain chamber 15 with a cover 16 and a pipe for removing demineralized water 17, identical left similar details.

 In FIG. 2 shows the individual parts that make up the left (and identical to the right) filter: 2 - a cover with a supply pipe 1, an elastic ring 3, a receiving chamber 4, two grids 7 and a perforated disk 8, forming a filter drainage system, as well as the left housing filter 10.

 In FIG. 3 shows the same as in FIG. 2 assembled parts: inlet pipe 1, cover 2, elastic ring 3, receiving chamber 4 with a pipe for pouring the regeneration solution 5, having a cover 6, two grids 7, a perforated disk 8, supported on the shoulder 9 and the left filter housing 10. Design the right case is completely identical to the design of the left.

 The filter works as follows. The source water enters through the pipe 1 to the left inlet chamber 4 and through the drainage wall, consisting of two nets 7 and a perforated disk 8, into the left filter housing 10, loaded with ion-exchange material (for example, cation exchange resin) 11, while the water is partially desalted through the chamber mixing 12 with its two drainage partitions enters the right housing 13 with a different load and then through the right drain chamber 15 and the outlet pipe 17 to the consumer or to the following filters.

 After exhausting the desalting action of the load, the filter is regenerated. To do this, open three covers 6, two of which are on the nozzles for filling 5 receiving 4 and drain 15 chambers, and one on the mixing chamber 12 regeneration solutions. After that, through the left pipe 5 on the intake chamber 4, for example, from a canister, an acid solution for regeneration of the cation exchanger contained in the left housing 11 is poured, at the same time, an alkali solution for the regeneration of the anion exchange resin is poured through the right pipe into the drain chamber 15. In this case, a neutral solution is drained through the middle drain pipe of the mixing chamber 12.

 At the end of the regeneration, tap water is introduced into the filter through the pipe 1, while the cover 6 on the pipe 5 of the receiving chamber 4 is closed, which ensures washing of the left housing from the regeneration products. The wash water is drained through the open pipe of the mixing chamber 12. After washing the left housing 10, close the cover 6 on the drain pipe of the mixing chamber 12 and open the cover 6 on the pipe of the drain chamber 15. In this case, water passes through the cation exchange charge through the inlet pipe 1 of the receiving chamber 4 the left housing 11, where it softens, and then, passing through the right housing 14, washes the anionite charge and is discharged into the sewer through the open filling port of the drain chamber 15. At the end of the washing, close the lid 6 on the drain chamber 15, and the pipe for draining demineralized water 17 is connected to a tank for collecting demineralized water (not shown).

Claims (1)

 A mixed-action filter for desalination of water, containing interconnected bodies, one of which is filled with cation exchange resin and the other with anion exchange resin, a receiving chamber with a pipe for supplying source water and a drain chamber with a pipe for removing demineralized water, characterized in that it is equipped with a chamber for mixing regeneration solutions located between the housings and having a nozzle for the removal of regeneration solutions, while the receiving and drain chambers have nozzles for filling the regeneration solutions.

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