RU118873U1 - FILTER FOR PURIFICATION OF WATER (OPTIONS) AND FILTER BLOCK (OPTIONS) - Google Patents

Abstract

1. A filter for water purification with a housing made with water inlet and outlet openings, characterized in that a filter unit with porous copolymer granules based on functional methacrylates, or amides, or amines, or alkylphenols, or polyphenols with polyguanidine is installed in the housing. ! 2. The filter according to claim 1, characterized in that the copolymer contains 0.1-1% by weight of polyguanidine. ! 3. The filter according to claim 1, characterized in that polyhexamethylene guanidine is used as the polyguanidine. ! 4. The filter of claim 1, wherein the filter unit further comprises carbon material. ! 5. The filter according to claim 1, characterized in that the filter unit additionally contains a layer of activated carbon, or birch coal, or coal from coconut, or activated carbon treated with a salt of polyguanidine, or shungite, or vermiculite, or thermally expanded graphite, or graphene mixture. ! 6. A filter according to claim 1, wherein the copolymer layer comprises an impurity of carbon material. ! 7. The filter according to claim 1, wherein the filter unit further comprises activated carbon treated with a polyguanidine salt. ! 8. A filter according to claim 1, characterized in that the layer thickness of the granular copolymer is not less than 2 mm. ! 9. A filter according to claim 1, characterized in that the particle size of the copolymer is in the range from 0.2 mm to 5 mm. ! 10. The filter according to claim 1, characterized in that it further comprises a filter unit containing activated carbon, or birch charcoal, or coconut charcoal, or activated charcoal treated with polyguanidine salt, or shungite, or vermiculite, or thermally expanded graphite, or graphene mixture. ! 11. Filter d

Description

The technical field to which the utility model relates.

The utility model relates to filters for water purification, in particular, drinking water and household water.

State of the art

Currently, the widespread use of filters for the purification of drinking water and water for household purposes. A significant problem of water purification consists, along with purification from pollution, in purification from microorganisms.

It is known that membrane filters are used to purify water from microorganisms, but they have a low throughput.

It is known to use ion-exchange resins for water treatment, see, for example, patent RU83941, published on June 27, 2009. However, the use of ion exchange resins entails a complication of the filter design.

At the same time, antimicrobial polymeric materials are known, namely polyguanidine and polyhexamethylene guanidine (PHMG), which have a unique combination of physicochemical and biocidal properties, allowing these polymers to be used in almost all areas of the national economy.

They relate to biocides of a wide spectrum of antimicrobial activity against gram-negative and gram-positive bacteria (including mycobacterium tuberculosis, legionellosis), viruses (including enteric and parenteral hepatitis viruses, HIV, poliomyelitis, influenza, herpes, etc.), fungi, including mold, yeast and yeast-like fungi of the genus Candida, candidiasis, dermatophytes.

From the patent of the Russian Federation No. 2055844, publ. 03/10/96, a bactericidal polymer composition containing polyhexamethylene guanidine and polyethylene or epoxy resin is known. From the patent of the Russian Federation No. 232,478, publ. 01/10/2008 a broad-spectrum antiseptic agent is known that combines a polyguanidine copolymer from an alkylguanidine salt with diamine.

From the patents of the Russian Federation No. 2167707, publ. 05/27/2001 and No. 2034789, publ. 05/10/1995, known material for water sterilization - activated carbon treated with polyhexamethylene guanidine salts. From the patent of the Russian Federation No. 2373192, publ. 11/20/2009 copolymers of polyguanidine salts with organic or mineral salts are known as disinfectants.

However, the filter for water purification described in international application PCT / EP2006 / 010136, published May 31, 2007 (WO 2007/059832), including a housing made with water inlet and outlet openings, and a filter unit, is known. The disadvantage of this known device is that it does not provide for the purification of water from microorganisms.

Also known, described in patent application US2007 / 0235381, published 11.10.2007, a filter for water purification, which is the closest analogue and includes a housing made with water inlet and outlet openings, and a filter unit containing carbon material. A disadvantage of this known device is also that it does not provide for the purification of water from microorganisms.

Also known, described in patent application US2007 / 0235381, published October 11, 2007, a filter unit (element) for water purification, which is the closest analogue. A disadvantage of this known device is also that it does not provide for the purification of water from microorganisms.

Utility Model Disclosure

The technical result achieved in the claimed utility models is to increase the degree of water purification from bacteria, viruses, fungi, candidiasis, dermatophytes.

In addition, since the claimed utility model is intended to expand the arsenal of technical means, namely, filters for water treatment, the technical result consists in the implementation of this purpose.

The indicated technical results are achieved in a filter for water purification with a housing made with water inlet and outlet openings, while a filtering unit with porous copolymer granules based on functional methacrylates, or amides, or amines, or alkyl phenols or polyphenols with polyguanidine is installed in the housing.

The copolymer may contain 0.1-1% mass fraction of polyguanidine.

Polyhexamethylene guanidine can be used as polyguanidine.

The filter unit may further include carbon material.

The filter unit may further comprise a layer of activated carbon, or birch charcoal, or coconut charcoal, or schungite, or vermiculite, or thermally expanded graphite, or a graphene mixture.

The copolymer layer may include an admixture of carbon material.

The filter unit may further include activated carbon treated with a polyguanidine salt, in particular a polyhexamethylene guanidine salt.

The thickness of the granular copolymer layer is assumed to be at least 2 mm.

The size of the granules of the copolymer can be in the range from 0.2 mm to 5 mm.

The filter may further include one or more filter units. In particular, the filter may include another filter unit containing activated carbon, or birch charcoal, or coconut charcoal, or activated carbon treated with a polyguanidine salt, or shungite, or vermiculite, or thermally expanded graphite, or a graphene mixture.

The indicated technical results are achieved in a filter for water purification, including a housing made with water inlet and outlet openings, and a filter unit installed inside the housing containing carbon material, the filter unit additionally containing porous copolymer granules based on functional methacrylates, or amides, or amines, or alkyl phenols or polyphenols with polyguanidine.

Polyhexamethylene guanidine can be used as polyguanidine.

These technical results are achieved in a filtering unit for water purification, containing a layer of porous granules of a copolymer based on functional methacrylates, or amides, or amines, or alkyl phenols or polyphenols with polyguanidine, located in a housing configured to pass water through this layer.

The copolymer may contain 0.1-1% mass fraction of polyguanidine.

The filter unit may further include activated carbon, or birch charcoal, or coconut charcoal, or shungite, or vermiculite, or expanded graphite, or a graphene mixture.

The filter unit may further include activated carbon treated with a polyguanidine salt, in particular a polyhexamethylene guanidine salt.

The filter unit may further include a layer of activated carbon, or birch charcoal, or coconut charcoal, activated carbon treated with a polyguanidine salt, or schungite, or verniculite, or expanded graphite.

The thickness of the granular copolymer layer is assumed to be at least 2 mm.

The size of the granules of the copolymer can be in the range from 0.2 mm to 5 mm.

Polyhexamethylene guanidine can be used as polyguanidine.

The indicated technical results are achieved in a filtering unit for water purification, containing a carbon material and a layer of porous granules of a copolymer based on functional methacrylates, or amides, or amines, or alkyl phenols or polyphenols with polyguanidine, located in a housing configured to pass water through the specified layer .

The carbon material may include activated carbon, or birch charcoal, or coconut charcoal, or shungite, or vermiculite, or expanded graphite, or a graphene mixture.

The carbon material may include activated carbon treated with a polyguanidine salt, in particular a polyhexamethylene guanidine salt.

The thickness of the granular copolymer layer is assumed to be at least 2 mm.

The size of the granules of the copolymer can be in the range from 0.2 mm to 5 mm.

Polyhexamethylene guanidine can be used as polyguanidine.

Brief Description of the Drawings

Figure 1 shows the 1st version of the filter for water purification.

Figure 2 shows the 2nd version of the filter for water purification.

Figure 3 shows the 1st variant of the filtering unit for water purification.

Figure 4 shows the 2nd variant of the filtering unit for water purification.

Utility Model Implementation

1 shows a filter housing 1, made, for example, of stainless steel or plastic, and a filter unit 2 with activated carbon or activated carbon treated with polyguanidine salt, or schungite, or vermiculite, or thermally expanded graphite, or graphene mixture and filter block 3 with a copolymer based on functional methacrylates, or amides, or amines, or alkyl phenols or polyphenols with polyguanidine. Water enters the filter unit 2 through the hole 4 in the housing 1 passes through the specified contents of the filter, leaves the filter unit 2 and through the hole 5 enters the filter unit 3. Then water passes through the above contents of the filter unit 3 and through the hole 6 leaves the filter . The housing 1 consists of parts 7, 8 and 9, screwed onto each other. The filter unit 2 is installed in the compartment formed by parts 7 and 8 of the housing 1, and the filter unit 3 is installed in the compartment formed by parts 8 and 9 of the housing 1. The filter provides for the replacement of filter units after their use.

Figure 2 shows the filter housing 10, also made of stainless steel or plastic. A filter unit 11 with a layer 12 of activated carbon, a layer 13 of a copolymer based on methacrylate with polyguanidine and a layer 14 of thermally expanded graphite is installed in the housing 10. Water enters the filter unit 11, through the hole 15 in the housing 10 passes sequentially layers 12, 13 and 14 and leaves the filter unit in the hole 16 of the housing 10. The housing 10 consists of parts 17 and 18, screwed onto each other. The layers are separated by partitions 19 made, for example, of non-woven material. The filter provides for the replacement of the filter unit after its use.

For better water passage through the expanded graphite layer, shungites, activated carbon, birch charcoal and vermiculite, which are mixed with expanded graphite, are used as a baking powder of expanded graphite.

Figure 3 shows a filter block consisting of a housing 20 made of plastic and a layer 21 of porous granules (microspheres) of a methacrylate-polyguanidine-based copolymer. A layer 70 mm thick is formed by partitions 22 made, for example, of non-woven material. The granule size of the copolymer is from 2 mm to 3 mm.

Figure 4 shows a filter block consisting of a housing 23 of plastic and layers 24 of activated carbon, 25 of porous granules (microspheres) of a copolymer based on methacrylate with polyguanidine and 26 of thermally expanded graphite. The layers are separated by partitions 27 made, for example, of non-woven material. The thickness of the granular copolymer layer 25 is 30 mm with a copolymer granule size of from 1 mm to 2 mm.

Claims (25)

1. A filter for water purification with a housing made with water inlet and outlet openings, characterized in that a filtering unit with porous copolymer granules based on functional methacrylates, or amides, or amines, or alkyl phenols, or polyphenols with polyguanidine is installed in the housing. 2. The filter according to claim 1, characterized in that the copolymer contains 0.1-1% of the mass fraction of polyguanidine. 3. The filter according to claim 1, characterized in that polyhexamethylene guanidine is used as polyguanidine. 4. The filter according to claim 1, characterized in that the filter unit further includes a carbon material. 5. The filter according to claim 1, characterized in that the filter unit further comprises a layer of activated carbon, or birch charcoal, or coconut charcoal, or activated carbon treated with a polyguanidine salt, or shungite, or vermiculite, or thermally expanded graphite, or graphene mixture. 6. The filter according to claim 1, characterized in that the copolymer layer includes an admixture of carbon material. 7. The filter according to claim 1, characterized in that the filter unit further comprises activated carbon treated with a polyguanidine salt. 8. The filter according to claim 1, characterized in that the thickness of the granular copolymer layer is at least 2 mm. 9. The filter according to claim 1, characterized in that the size of the granules of the copolymer is in the range from 0.2 mm to 5 mm 10. The filter according to claim 1, characterized in that it further includes a filter block containing activated carbon or birch charcoal, or coconut charcoal, or activated carbon treated with a polyguanidine salt, or shungite, or vermiculite, or thermally expanded graphite, or graphene mixture. 11. A filter for water purification, comprising a housing made with water inlet and outlet openings, and a filter unit installed inside the housing containing carbon material, characterized in that the filter unit further comprises porous copolymer granules based on functional methacrylates, or amides, or amines or alkyl phenols, or polyphenols with polyguanidine. 12. A filter unit, characterized in that it contains a layer of porous granules of a copolymer based on functional methacrylates, or amides, or amines, or alkyl phenols or polyphenols with polyguanidine, located in a housing configured to pass water through said layer. 13. The filter unit according to item 12, wherein the copolymer contains 0.1-1% mass fractions of polyguanidine. 14. The filter unit according to claim 12, characterized in that it further includes activated carbon, or birch charcoal, or coconut charcoal, or shungite, or vermiculite, or expanded graphite, or a graphene mixture. 15. The filter unit according to item 12, characterized in that it further includes activated carbon treated with a polyguanidine salt. 16. The filter unit according to item 12, characterized in that it further includes a layer of activated carbon, or birch charcoal, or coal from coconut, or activated carbon treated with a salt of polyguanidine, or schungite, or vermiculite, or expanded graphite. 17. The filter unit according to item 12, wherein the thickness of the granular copolymer layer is at least 2 mm. 18. The filter unit according to item 12, wherein the size of the granules of the copolymer is in the range from 0.2 mm to 5 mm 19. The filter unit according to item 12, characterized in that polyhexamethylene guanidine is used as polyguanidine. 20. A filter unit containing carbon material, characterized in that it further comprises a layer of porous granules of a copolymer based on functional methacrylates, or amides, or amines, or alkyl phenols or polyphenols with polyguanidine, located in a housing configured to pass water through said layer . 21. The filter unit according to claim 20, characterized in that the carbon material includes activated carbon, or birch charcoal, or coconut charcoal, or shungite, or expanded graphite, or a graphene mixture. 22. The filter unit according to claim 20, characterized in that the carbon material includes activated carbon treated with a polyguanidine salt, in particular a polyhexamethylene guanidine salt. 23. The filter unit according to claim 20, characterized in that the thickness of the granular copolymer layer is at least 2 mm. 24. The filter unit according to claim 20, characterized in that the granule size of the copolymer is in the range from 0.2 mm to 5 mm. 25. The filter unit according to claim 20, characterized in that polyhexamethylene guanidine is used as polyguanidine.