RU2163829C1 - Domestic filter - Google Patents

Abstract

FIELD: purification of potable water by filtration. SUBSTANCE: domestic filter has filtering module mounted below reservoir containing water to purified. Filtering module consists of first layer for cleaning water from organic admixtures and introducing silver cations; second layer is used for decontamination of water by iodine compounds and third layer is used for removal of excessive iodine compounds from water and cleaning it from cations, anions and organic admixtures. Third layer is made in form of mixture of activated carbon and anion-exchange resin or in form of mixture of activated carbon, anion-exchange resin and cation-exchange resin or anion-exchange resin and mixture of activated carbon and cation-exchange resin laid in way of water flow. Module is placed for flow of water by gravity either downward or upward. EFFECT: preparation of decontaminated water at high organoleptic properties. 13 cl, 4 dwg

Description

 The invention relates to the purification of liquids and can be used as a household filter for the purification of drinking water.

 A device for cleaning drinking water, comprising a housing with ion-exchange, bactericidal and additional layers for fine mechanical cleaning (RF patent 2048856, publ. 1995).

 The known device allows for the presence of iodine and iodides in purified water and impaired organoleptic properties of water. In addition, the known device allows the deterioration of the flow of water during the development of the resource, because with a flow of water from top to bottom, it prevents air from escaping upward; the presence of fibrous components also prevents air from escaping.

 The objective of the present invention is to develop a household filter with high disinfection and cleaning efficiency and improve the organoleptic properties of water and a stably high flow rate of water with a long service life.

 The technical result consists in improving the operational characteristics of the filter and improving the quality of water.

The result is achieved by the fact that a household filter for drinking water purification, including a filter module installed below the tank with purified water and consisting of a first layer for cleaning organic impurities and introducing silver cations into the water, a second layer for disinfecting water with iodine compounds, and a third layer for removing excess iodine compounds from water, purifying water from cations, anions and organic impurities, made with the possibility of gravity flowing water through layers from the bottom up and / or top to bottom, and by filtering the first module is made with the separation of layers between themselves by porous partitions, and the fact that the first layer of the filter module is made in the form of silver-containing activated carbon, and that the second layer of the filter module is made in the form of an iodine-containing resin, and that a resin with high iodine release is used - 10-20 mg / l, and the fact that the third layer of the filter module is made in the form of the anion-exchange resin layer and the active carbon layer next to the water current, and that the third layer of the filter module is made in the form of the anion-exchange layer following the water current the jetty and the layer of the mixture of activated carbon and cation exchange resin, and the fact that the third layer of the filter module is made in the form of a mixture of active carbon and anion exchange resin, and the fact that the third layer of the filter module is made in the form of a mixture of activated carbon, anion exchange resin and cation exchange resin, and the fact that the filter module is configured to allow water to flow during filtration from the bottom up through the first and second layers and from top to bottom through the third layer, and the filter module is configured to allow the flow of water from top to bottom through the first and T a swarm of layers and from bottom to top through the third layer, and the fact that the filter is configured to allow purified water to enter the filter module through an additional filter module configured to mechanically purify water and deaerate the water, and that the porous walls are made in the form of polymer meshes or porous material with a pore size ≥100 μm, and the fact that the silver-containing activated carbon is made with a silver content of 0.05-1%, with a pore surface ≥1000 m ² / g, particle size distribution of 0.1-2 mm, and the fact that anion exchange resin made and in the form of a strongly basic anion exchange resin in chloride form with a total exchange capacity ≥ 1 mEq / g, and the fact that the cation exchange resin is made in the form of a weakly acid resin in H ⁺ -, Na ⁺ - or a mixture of H ⁺ -, Na ⁺ - forms with a full exchange capacity of ≥3 mEq / g, and the fact that the layers in the filter module have volume ratios (1.5-3): (2-5): (7-12).

 Restrictive and distinctive features are made in the form of a single set of features of the invention.

 Specific, but not limiting, embodiments of the household filter are shown in FIG. 1-4.

 The filter of FIG. 1-4 comprises a housing 1, a filter module 2 with porous partitions 3 and layers 4,5,6, a purified water outlet channel 7, an additional filter module 8, a container 9 with purified water, a container 10 with purified water. In FIG. 2, module 8 comprises an air outlet channel 11 with a plug of activated carbon.

 The filter works as follows.

 Water is poured into the container 9 and it passes into the housing 1 either directly or through module 8 (prefilter). In case 1, water flows by gravity (under the influence of gravitational forces) into module 2 and flows from bottom to top through gravity 3 into the first layer 4, where water is purified from organic impurities and simple or enhanced introduction of silver cations into the water. Then the water through the partition 3 flows into layer 5, where it is disinfected by iodine compounds and through the partition 3 enters into layer 6, where organic impurities, anions, cations, iodine compounds and water are removed from the water through channel 7 into reservoir 10. air particles generated in the process of water purification also come from bottom to top in accordance with the flow of water and then go into the tank 10 and out, without creating obstacles to the flow of water and without slowing down the cleaning process. In addition, since layer 6 has an increased volume, all the above listed components that affect the quality of water — organic impurities, anions, cations, iodine compounds — are removed from the water to be purified in a maximum amount, which improves the quality of purified water and its organoleptic properties.

 When using the second design option, water, falling into the housing 1 by gravity, enters the module 2, where from the bottom up through the partition 3 it enters the layer 4, then, also from the bottom up, through the partition 3 into the layer 5. Next, the water enters the layer 6 and, flowing through it from top to bottom, flows through the partition 3 and channel 7 into the tank 10. The water treatment technology in this case fully coincides with the previous example, but since the water passes from top to bottom through the largest filter layer, a channel 11 is provided for air removal, allocated during iltratsii. This helps to maintain a high filtration rate over the entire filter life. An activated carbon plug prevents iodine vapor from entering.

 When using the third embodiment of the household filter, the filtering process is carried out when water flows by gravity from top to bottom through the partition 3, layer 4, partition 3, layer 5. Then, water flows through the partition 3 into layer 6 and is filtered from the bottom up. Since this layer is the most voluminous and the direction of movement of water and air in it coincide, the air does not create obstacles for water to enter the tank 10, i.e. Does not slow down the filtration rate. Qualitative and taste indicators of water correspond to indicators of the filter made according to the first (base) option.

 When using the fourth embodiment of the household filter, the process is identical to the third option, but the channel 7 serves as an annular channel at the outlet of layer 6. Since the direction of movement of water and air in the last 6, the most voluminous layer of the filter are the same, this does not slow down the filtration rate throughout resource. Quality and taste indicators of purified water coincide with the indicators of the base case.

 Thus, the used filter design and materials make it possible to obtain effectively disinfected water with high organoleptic properties, and the water filtration rate remains constantly high for the entire specified filtration resource. This provides improved operational characteristics, improved quality and improved organoleptic properties of purified water.

Claims (13)

 1. A household filter for drinking water purification, including a filter module installed below the tank with purified water and consisting of a first layer for purifying water from organic impurities and introducing silver cations into the water, a second layer for disinfecting water with iodine compounds and a third layer for removal from water excess iodine compounds, water purification from cations, anions and organic impurities, made in the form of a mixture of activated carbon and anion-exchange resins, or in the form of a mixture of activated carbon, anionic and cation-exchange resins, or placed water flow of anion-exchange resin and a mixture of activated carbon and cation-exchange resin, while the module is installed with the possibility of water flowing by gravity through the layers in the direction from the bottom up and / or top to bottom.  2. The household filter according to claim 1, in which the filter module is made with the separation of layers between each other by porous partitions.  3. The household filter according to claim 1, in which the first layer of the filter module is made in the form of silver-containing activated carbon.  4. The household filter according to claim 1, in which the second layer of the filter module is made in the form of an iodine-containing resin.  5. The household filter according to claim 4, in which a resin with high iodine release is used - 10 - 20 mg / l.  6. The household filter according to claim 1, in which the filter module is configured to leak water during filtration from bottom to top through the first and second layers and from top to bottom through the third layer.  7. The household filter according to claim 1, in which the filter module is configured to leak water during filtration from top to bottom through the first and second layers and from bottom to top through the third layer.  8. The household filter according to claim 1, configured to receive purified water into the filter module through an additional filter module, configured to mechanically clean and deaerate the water.  9. The household filter according to claim 2, in which the porous partitions are made in the form of polymer networks or porous material with a pore size ≥ 100 μm. 10. The household filter according to claim 3, in which the silver-containing activated carbon is made with a silver content of 0.05 - 1%, with a pore surface ≥ 1000 m ² / g, particle size distribution of 0.1 - 2 mm.  11. The household filter according to claim 1, in which the anion exchange resin is made in the form of a strongly basic anion exchange resin in chloride form with a total exchange capacity of ≥ 1 mEq / g. 12. The household filter according to claim 1, in which the cation exchange resin is made in the form of a weakly acid resin in H ⁺ -, Na ⁺ - or a mixture of H ⁺ -, Na ⁺ forms with a total exchange capacity of ≥ 3 mEq / g.  13. The household filter according to claim 1, in which the layers in the filter module have volume ratios (1.5 - 3): (2 - 5): (7 - 12).

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