RU2206397C1 - Water cleaning filter - Google Patents

Abstract

FIELD: water treatment. SUBSTANCE: proposed water cleaning filter has housing where filter element with additive proportioner is mounted; hollow filter element is mounted coaxially relative to housing and is provided with locking member on which additive proportioner is mounted; additive proportioner is made in form of container where capsule with additive having perforated cover is placed; filter element and at least upper part of container engageable with perforated cover are made from material of spatial globular structure; area of holes of perforated cover does not exceed 2% of area of cover and height of upper part of container does not exceed 30% of height of capsule. Length of filter element exceeds height of container by at least 10 times. EFFECT: enhanced efficiency. 5 cl, 1 dwg, 1 tbl

Description

 The invention relates to water treatment and can be used to produce purified drinking water at home with the physiologically necessary (therapeutic) content of targeted additives, such as trace elements, salts, vitamins, etc.

 The need to create purified water of a given composition, which has a healing, and in certain cases a healing effect on our body, has been proven by scientists today.

 The prior art knows a significant number of solutions related to water purification while enriching the filtrate with the necessary additives.

 So, in (1) a water purification device is described, which contains sequentially arranged: a filter based on porous activated carbon for purifying water from smelling components, toxic ions and bacteria; a sterilizing filter to suppress the development of bacteria; mineralizing filter, from which calcium and potassium ions enter the water passing through the filter. To supply additives to the mineralizing filter, the latter is equipped with a tank with a tapering lower part and an outlet.

 The known device is rather bulky, inconvenient for use in everyday life and allows you to enter into the water only large concentrations of minerals.

 According to (2), the filter for water purification contains a coal element and a layer of microorganisms, which allows to restore the mineral balance of purified water.

The device known from (3) contains a housing in which an element is made of organic ion exchanger having a porous structure in the air-dry state, pre-treated with solutions of substances entering into exchange or redox reactions with the precipitation of one or more reaction products . The specified processing provides the introduction of macro- and microelements with a specific productivity of more than 1 min ^-1 .

 Closest to the claimed solution is a filter for water purification, known from (4), containing a housing in which a filter element of porous carbon with holes for supplying and discharging water is installed. A mineral rock is installed inside the element, the components of which are washed out by a stream of water saturated with air. Air bubbles cause microvibration of the mineral and facilitate its delivery to the stream.

 The known solution has a narrow range of applications (the introduction of only mineral additives), does not allow you to widely control the concentration of additives in the filtrate and purify water while enriching it with mineral and other necessary additives.

 The objective of the invention is to provide a device that provides effective water treatment with the simultaneous introduction of a variety of additives in the filtrate, both inorganic and organic, in a wide range of concentrations, accessible to the consumer and easy to use.

 The technical result is achieved by the fact that in the filter for water purification, comprising a housing in which a filter element with an additive dispenser is installed, the filter element is hollow, mounted coaxially to the body and provided with a locking element on which the additive dispenser is installed, made in the form of a container in which placed a capsule with a perforated lid containing an additive, while the filter element and at least the upper part of the container in contact with the perforated lid are made of material ranstvenno-globular structure (CBC), the area of holes of the perforated cover does not exceed 2% of the lid, and the height of the upper part of the container does not exceed 30% of the height of the capsule.

 ASG material having a globule size of 5-7 μm is usually used for sorption processes at high transmission rates of solutions. Since the size of the microglobules of PGS ion exchanger is 2 orders of magnitude smaller than that of standard granite ion exchangers (5-7 μm versus 0.5-0.7 mm), the volumetric transmission rates of solutions can reach values that are 100 times or more higher than the transmission rates of solutions through a fixed layer of ion exchanger of ordinary granulation (1000-2000 against 10-15 beats. rev / h, respectively). Microglobules in PGS ion exchanger form a regular highly permeable structure, which is due to the spontaneous self-regulating mechanism of polymer formation. The average pore size is 3-5 microns, the total porosity of more than 65 vol.%. The structure and properties of PGS ion exchanger are known, for example, from (5). Various modifications of the method for producing ASG material, for example, in accordance with (6), (7) and others, can significantly expand the range of sizes of its pores and thereby increase the permeability of the sorbent.

 The volume of solid additives does not exceed 0.9 capsule volumes, i.e. a solid additive is installed with the necessary clearance relative to the walls of the capsule.

 The height of the upper part of the container is not more than 30% of the height of the capsule, and the area of the perforation holes is not more than 2% of the area of the capsule lid.

 The length of the filter element exceeds the height of the container, preferably not less than 10 times.

 These ratios make it possible to ensure high efficiency of water purification with ion exchange resin, which, depending on its effective pore diameter and water supply rate, sorb a wide range of elements and contaminants.

 These ratios ensure the operation of the ASG container material not as a sorbent, but as a mechanical filter, the pores of which allow the additive to pass into water. The noted working mechanism is achieved by the fact that upon contact of the container and the capsule with water in the capsule a saturated solution of the additive is formed (if it was initially introduced as a solid phase), whose ions almost instantly displace the mobile ions from the ASO. When the height of the upper part of the container in contact with the perforated lid of the capsule exceeds 30% of the height of the capsule, the material of the container absorbs the ions of the additive solution and dosing is absent or not effective enough.

 With the introduction of vitamins, for example, ascorbic acid, ASG works exclusively as a filter, as ion exchange in this case does not take place.

 The capsule contains salts of calcium, magnesium, iodides, vitamins (in particular, ascorbic acid) and other sources of elements that need to enrich water.

 In cases where the container is entirely made of ASG material, it is advisable to install it with a gap relative to the inner surface of the filter element. This eliminates the formation of stagnant zones. The optimal gap is not more than 0.1 of the wall thickness of the filter element.

The invention is illustrated in the drawing, which shows a General view of the device in section, where
1 - filter housing, 2 - filter cover, 3 - filter element made of ASG material, 4 - additive dispenser container made of ASG material, 5 - capsule installed in container 4, 6 - tablet or powder additive placed in capsule 5, 7 — holes in the lid of capsule 5, through which water enters the capsule 5 and the additive solution is dosed, 8 — the case on the container, the presence of which in some cases is due to the technological features of manufacturing the container 4, 9 — a locking element installed in the bottom filter parts element 3, on which the dispenser container 4 is installed with a gap of 10.

 The claimed device operates as follows.

 Water from the water supply is supplied under pressure through the cavity of the lid 2 into the space between the inner surface of the housing 1 and the outer surface of the filter element 3. Water passing through the wall thickness of the element 3 is subjected to purification due to ion exchange occurring in the ASG material of element 3. Purified water, the filling cavity of the element 3, through the pores of the ASG of the container 4 and the opening 7 of the lid of the capsule 5 reaches the additive and dissolves it. A saturated solution is formed containing additive ions, which, rushing to the upper part of the container 4, saturate the ion exchanger almost instantly and ensure its further operation in the mode of a mechanical filter. The selection of the optimal speed of water flow is achieved by the introduction of additives of a given concentration. Purified water enriched with calcium, magnesium (and / or other additives) is discharged through cover 2.

 When implementing the inventive device, the container and filter element were made of PGS polymer with pores of 0.01-3 μm in size, containing groups of β-resorcylic acid in an amount of 2.4 mEq / g dry matter. The container is placed in a case made of polypropylene.

 The invention is illustrated by the following example.

A device made according to the claimed invention was used for purification and mineralization of soft water. As an additive, a tablet of the composition was used: CaCl ₂ • 6H ₂ O — 7.4 g and MgCl ₂ • 6H ₂ O — 15.4 g. The parameters of the initial water and filtrate are presented in the table.

Water analyzes were carried out in accordance with the following regulatory documents:
GOST 2874-82 Drinking water. Hygiene requirements and quality control.

 GOST 3351-74 Drinking water. Methods for determining taste, smell, color and turbidity.

 GOST 4011-72 Drinking water. Methods for measuring the mass concentration of total iron.

 GOST 4974-72 Drinking water. Methods for determination of manganese content.

 It should be noted the high adaptability of the device - its main elements are made of one material - ASG material.

 The data presented indicate that the inventive device provides a high degree of water purification with the simultaneous introduction of the elements necessary for health in quantities absorbed by the body to the maximum extent. This approach is fundamentally different from existing methods of healing, in which the patient drinks a shock dose of a healing supplement, most of which is not absorbed by the body and subsequently removed from it.

Sources of information
1.Z. JP 3-80078 from 12.23.85, C 02 F 1/23, 1/50, 1/68.

 2. Z. WO 94/20422 dated 03/11/1993, C 02 F 1/68, 1/28.

 3. RF patent 2131847 from 04.24.1998, C 02 F 1/68.

 4. Z. WO 9615990 of 11/18/1994, C 02 F 1/68 - prototype.

 5. Encyclopedia of polymers. M., Publishing House Soviet Encyclopedia, 1972, p. 652-658.

 6. A.S. USSR 1378319 dated 05.23.1985, C 08 J 5/20, C 08 G 8/22.

 7. A.S. USSR 1023788 dated 10.24.1980, C 08 J 9/10.

Claims (5)

 1. The filter for water purification, comprising a housing in which a filter element with an additive dispenser is installed, characterized in that the filter element is hollow, installed coaxially to the housing and provided with a locking element on which the additive dispenser is installed, made in the form of a container in which a capsule with a perforated lid containing an additive, while the filter element and at least the upper part of the container in contact with the perforated lid are spatially globally made of material th structure, the area of the holes of the perforated lid does not exceed 2% of the area of the lid, the height of the upper part of the container does not exceed 30% of the height of the capsule, and the length of the filter element exceeds the height of the container by at least 10 times.  2. The filter according to claim 1, characterized in that the container is additionally provided with a cover.  3. The filter according to claim 1 or 2, characterized in that the volume of the solid additive does not exceed 0.9 of the volume of the capsule.  4. The filter according to claim 1 or 3, characterized in that the container is made of a material of a spatially globular structure.  5. The filter according to claim 4, characterized in that the container is installed with a gap relative to the inner surface of the wall of the filter element, the value of which does not exceed 0.1 of the wall thickness of the filter element.

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