RU2236281C1 - Filter for cleaning water - Google Patents

Abstract

FIELD: cleaning portable water; filtration of water through adsorption bactericidal material.

SUBSTANCE: proposed filter has housing with base and cover; expiration of filter module service life is indicator on filter cover; filter is also provided with purified water discharge pipe union, purified water discharge pipe line, end-piece, initial water supply pipe line, connecting unit, filter module with inlet and outlet; each of them is provided with sealing rings; housing is provided with initial water supply pipe union, bush for securing the branch pipe on pipe union, bush for securing the branch pipe on cock connection unit including nut, body, aerator and adapter. Filter module has housing with base and cover, screen and unit for smooth distribution of water to be cleaned. Cleaning unit consists of two groups of layers of dense material with groups of layers of sorbing elements between them. Cleaning unit is made in form of sleeve with bead and holes in upper part of sleeve lateral surface; cylinder mounted in sleeve is closed with cover which has escape hole in the center and is which is connected with outlet of filtering unit through branch pipe; between sleeve and housing of filter module there is mixture of sorbing element. Units for smooth distribution of water to be cleaned are made in form of perorated disk on which radial stiffeners are provided on one side and axial guide mounted on other side is made in form of tetrahedron.

EFFECT: improved quality of cleaned water; enhanced flexibility of cleaning.

8 cl, 7 dwg

Description

The invention relates to the purification of drinking water, in particular to means for filtering water through an adsorption-bactericidal material in domestic conditions, and can be used to purify and improve the quality of drinking water.

A known filter for water purification (RF patent No. 2060779, class B 01 D 35/02, publ. 09/10/96), containing a housing made in the form of a base connected to a cover, a filter module and fittings for supplying cleanable are installed in the housing water and purified water drainage connected to the filtering module and to the pipelines for supplying purified water and drainage of purified water.

The known filter does not provide sufficient quality of water purification and the possibility of changing the degree of water purification.

An object of the present invention is to correct these drawbacks.

The technical result is to improve the quality of water purification and increase the flexibility of the degree of purification.

The result is achieved in that in the filter for water purification, comprising a housing made in the form of a base connected to a cover, a filter module and fittings for supplying purified water and discharge of purified water are installed in the housing, connected to the filtering module and with pipelines for supplying purified water and drain purified water, the pipeline for supplying purified water is connected through a connecting block to a source of purified water, the pipeline for removing purified water is made in the form of a pipe bend protruding above the filter with a tip m, the connecting block is made with the possibility of cleaning from mechanical impurities, aeration of water and the ability to connect to a source of purified water made with an external thread, with an internal thread and without a thread, the nozzle for supplying purified water is hermetically connected to the bottom of the base of the housing, the nozzle for removing purified water is installed in the upper part of the housing cover and is hermetically connected to the outlet of the filter module, the pipelines for the supply of purified water and the outlet of purified water are hermetically connected to the corresponding fittings, the inlet fitting and the purified water is hermetically connected to the input of the filter module, an indicator of the end of the resource of use of the filter module is installed on the housing cover, made with the possibility of flexible change of the resource of use of the filter module, and the fact that the fittings for supplying purified water and removal of purified water are connected to the input and output of the filter module by means of sealing rings, and the filter module is made with the possibility of one-stage or two-stage filtration of the purified water in the cleaning block of the filtering mode It contains a housing made of a base and a cover hermetically connected by friction welding, a mesh is installed and connected to it by ultrasonic welding on the base, an even distribution unit of the water to be purified is installed between the input of the filter module and the mesh, and that in the filter module, made with the possibility of single-stage filtration of the water to be treated in the cleaning block, between the cleaning block and the output of the filter module there is a uniform distribution unit cleaned water, and the cleaning unit is made in the form of two groups of layers of fibrous ion-exchange material, between which there is a mixture of sorbent components, and the fact that in the filter module made with the possibility of two-stage filtration of the water to be purified in the cleaning unit, the cleaning unit is made in the form of a glass with bumpers and holes in the upper part of the side surface, in the cavity of the glass is installed a cylinder with hollow fibers, covered with a lid that seals the upper part of the cylinder relative to the cavity of the glass and the cavity of the glass relative to itelno upper part of the filter module housing, an outlet lid through a nozzle connected to the output of the filter module, between the sleeve and the housing of the filter module is placed a mixture of sorbing components, and in that the mixture of sorbing components consists of coal active NORIT 18H40 AG 3N V = 60 + 1 cm ³ and activated carbon 607C V = 240 + 5 cm ³ , and the fact that the layers of dense material are made of Fiban-K5 canvas with a thickness of 4.6 + 0.3 mm, d = 60 + 1 mm or d = 80 + 1 mm, and the fact that the nodes of the uniform distribution of the purified and purified water are made in the form of a disk with holes on which, on the one hand, radial stiffeners are located, and on the other hand, an axial guide made in the form of a tetrahedron is installed in the center, and that the indicator of the end of the resource of use of the filter module with the possibility of flexible change of the resource of use of the filter module is made in the form of a counting unit with the ability to multiply by a coefficient corresponding to the number of users.

In figure 1. shows a General view of the filter, Fig.2 is a sectional view of a General view of the filter, Fig.3 is a construction of a nozzle for supplying purified water and a connecting block, Fig.4 is a sectional top of the filter, Figs.5, 6 are design options the execution of the cleaning unit, Fig.7 is a design of a uniform distribution of water.

The filter contains a housing 1, consisting of a base 2 and a cover 3, an indicator 4 for the end of the service life of the filter module, a fitting 5 for purified water discharge, a pipe 6 for purified water discharge, a tip 7, a pipe 8 for supplying purified water, a connecting block 9, is installed on the cover module 10 with input 11 and output 12, on each of which sealing rings 13, 14, the bottom of the housing base 15, the fitting 16 for supplying purified water, the sleeve 17 for fixing the pipe 8 on the fitting 16, the sleeve 18 for fixing the pipe 8 on the block 9 are fixed, block 9 s Connections with a tap made with an internal thread comprise a nut 19, a housing 20, an aerator 21, a connection block 9 with a tap made with an external thread, contains a nut 19, a housing 20, an aerator 21, an adapter 22, the upper part of the filter contains a communication channel 23 the outlet 12 of the filter module 10 with the nozzle 5 for the removal of purified water, in which the pipeline 6 for the removal of purified water is mounted, the filter module 10 is configured to unchanged direction of flow of the purified water in the cleaning block of the filter module, contains a housing 24 made of bases 25 and covers 26, tightly interconnected by friction welding (Handbook “Welding of polymeric materials”, ed. K.I. Zaitseva. - M .: Engineering, 1986, section “Friction welding”), in the middle of the base and the cover, an input 11 and an output 12 of the filter module with sealing rings 13, 14 are formed respectively, a mesh 27 of M / L fabric is welded to the base 25 by ultrasonic welding, article 30 bees 120, between the inlet 11 of the filter module and the mesh 27 there is a unit 28 for even distribution of the water to be purified, the cleaning block 29 is made of two groups of layers 30 and 31 of dense material, which is a Fiban-K5 cloth TU RB 14525568.008 - 97 with a diameter of 80 or 60 mm and a thickness of 4.6 mm and is located ennoy between the groups of layers 30 and 31 with a mixture of 32 sorbing elements consisting of coal active NORIT 18H40 AG 3N V = 60 + 1 cm ³ and the carbon active 607C V = 240 + 5 cm ^3, between the cleaning unit 29 and the outlet 12 of the filter module is installed node 33 for uniform distribution of purified water, the filter module 10 with the ability to change the direction of flow of the purified water in the cleaning block of the filter module contains a housing 24 made of a base 25 and a cover 26, tightly interconnected by friction welding (Reference “Welding of polymeric materials”, u K.I. Zaitseva. - M .: Engineering, 1986, section “Friction welding”), in the middle of the base and cover, respectively, the inlet 11 and outlet 12 of the filter module with sealing rings 13, 14 are formed, mesh 27 of M / L fabric is welded to the base 25 by ultrasonic welding, article 30 pc 120, between the inlet 11 of the filter module and the mesh 27 there is a unit 28 for even distribution of the water to be purified, in this module the cleaning unit 29 is made in the form of a cup 34 with a side 35 separating the upper part of the cavity of the housing 24 of the filter module 10 from the cleaning unit 29 , and 36 in the upper part of the side surface of the glass, in the cavity of which a cylinder 37 is installed, covered by a cover 38, which seals the cavity of the glass 34 from the upper part of the housing 24 of the filter module 10 and the upper part of the cylinder 37 from the cavity of the glass 34, the outlet 39 in the center of the cover 38 through the pipe 40 it is connected to the outlet 12 of the filter unit 10, between the cup 34 and the housing 24 of the filter module 10 a mixture of 41 sorbent elements is placed, consisting of activated carbon NORIT 18X40 AG 3N V = 60 + 1 cm ³ and activated carbon 607C V = 240 + 5 cm ³ , in the cylinder 37 are placed hollow filter fibers 42. Units 28, 33 for uniform distribution of purified water are made in the form of a disk 43 with holes 44 on which radial stiffening ribs 45 are located on one side and an axial guide 46 made in the form of a tetrahedron is mounted in the center on the other side.

The filter works as follows.

The connecting block 9 is connected to the source valve by screwing the housing 20 onto the external thread of the valve and screwing the nut 19 onto the housing 20. The water coming from the valve is aerated in the aerator 21 and flows through the pipe 8 into the fitting 16 and then to the input 11 of the filter module 10. If the tap has an internal thread, then the adapter 22 is screwed into it and then, as described above. Indicator 4 sets the number of family members. Since indicator 4 is made in the form of a counter with a conversion factor depending on the number of family members, a change in the number of members in the direction of increasing decreases the cartridge resource, and decreasing it increases this resource and indicates a later date for its replacement.

Water entering the filter module 10, made with the possibility of a constant direction of flow of the purified water in the cleaning unit 29 of the filter module 10, washes the tetrahedron of the guide 46 and passes to the mesh 27 through the holes 44 of the disk 43. Water enters the cleaning unit 29. Passing through the layers 30 material “Fiban - 5”, water is freed from mechanical and other impurities. Then the water enters mixture 32 and is purified from active chlorine, organic and organochlorine compounds, pesticides, oil products, unpleasant odors and flavors. A mixture of carbon adsorbents, including silver plated, prevents the biofouling of the filter cartridge, purifies toxic metals from water, and reduces water hardness (carboxyl cation exchange resin). Then the water passes through the layers 31, where the content of iron, aluminum, surfactants is reduced. The purified water directly and through the holes 44 of the node 33 is washed by the tetrahedron of the guide 46 and enters the output 12 of the filter module 10. From the filter module, the purified water enters the nozzle 5 and is collected through the pipe 6 and the tip 7 in the tank for purified water. To seal the connection of the pipeline 6 and the nozzle 5, rubber rings are used that are installed in grooves grooved on the pipe 6.

After receiving the required amount of purified water, the tap of the source of purified water is closed.

When using the filter module 10, configured to change the direction of flow of the purified water in the cleaning block of the filter module, water enters the input 11 of the filter module, washes the tetrahedron of the guide 46, passes to the mesh 27 through the holes 44 of the disk 43 and enters the cleaning block 29. Water passes from bottom to top through a mixture of 41 sorbent elements, where it is purified from active chlorine, organic and organochlorine compounds, pesticides, petroleum products, unpleasant odors and tastes. A mixture of carbon adsorbents, including silver plated, prevents the biofouling of the filter cartridge, purifies toxic metals from water, and reduces water hardness (carboxyl cation exchange resin). The water purified at the first stage rises and through the openings 36 in the upper part of the glass 34 enters its cavity. The side 35 prevents water from entering the upper part of the housing 24 of the filter module 10. Water falling into the glass 34 from above flows down its walls and enters the cylinder cavity 37. Thanks to the cover 38, water cannot enter the upper part of the housing 24 from the cavity of the glass 34. . Rising up in the cavity of the cylinder 37, the water is purified in hollow fibers with 42 pores of 0.05-0.2 microns in size, which allows ultrafiltration of microorganisms, solids and heavy metals. Next, the water passes through the outlet 39 of the cover 38 and through the pipe 40 enters the outlet 12 of the filter module 10. From the module 10, the purified water through the nozzle 5, the pipe 6 and the tip 7 is collected in the purified water tank.

Thus, the filter provides high quality water treatment, the degree of water treatment can be changed through the use of various designs of the filter module, the use of an indicator allows you to flexibly change the filter resource.

Claims (8)

1. The filter for water purification, comprising a housing made in the form of a base connected to a lid, a filter module and fittings for supplying purified water and drainage of purified water connected to a filtering module and pipelines for supplying purified water and drainage of purified water are installed in the housing, characterized in the fact that the pipeline for supplying purified water is connected through a connecting block to a source of purified water, the pipeline for removing purified water is made in the form of a pipe protruding above the filter with a tip, The unit is made with the possibility of cleaning from mechanical impurities, aeration of water and the ability to connect to a source of purified water made with an external thread or with an internal thread, the nozzle for supplying purified water is hermetically connected to the bottom of the base of the housing, the nozzle for removing purified water is installed in the upper part of the housing cover and hermetically connected to the output of the filter module, the pipelines for supplying purified and discharge of purified water are tightly connected with the corresponding fittings, the nozzle for supplying purified water metichno connected to the input of the filter module is installed on the housing cover closure resource usage indicator filter module configured to flexibly change the resource utilization filter module. 2. The filter for water purification according to claim 1, characterized in that the fittings for supplying purified water and drainage of purified water are connected to the inlet and outlet of the filter module by means of sealing rings, and the filter module is configured to unchanged direction of flow of the purified water in the filter cleaning block module or with the possibility of changing the direction of flow of the purified water in the cleaning unit of the filter module and contains a housing made of a base and a cover sealed together by welding friction based installed and connected thereto by ultrasonic welding mesh, between the input of the filter module and the grid assembly mounted uniform distribution of treated water by the cleaning unit. 3. The filter for water purification according to claim 2, characterized in that in the filtering module, made with the possibility of a constant direction of flow of the purified water in the cleaning unit of the filtering module, between the cleaning unit and the output of the filtering module there is a unit for the uniform distribution of purified water, and the cleaning the block is made in the form of two groups of layers of fibrous ion-exchange material, between which a mixture of sorbent components is placed. 4. The filter for water purification according to claim 2, characterized in that in the filter module, configured to change the direction of flow of the purified water in the cleaning unit of the filter module, the cleaning unit is made in the form of a glass with sides and holes in the upper part of the side surface, a cylinder with hollow fibers is installed in the glass cavity, covered with a lid that seals the upper part of the cylinder with respect to the glass cavity and the glass cavity with respect to the upper part of the filter module housing, roof outlet A ki is connected through the pipeline to the outlet of the filter module, and a mixture of sorbent components is placed between the glass and the housing of the filter module. 5. The filter for water purification according to claim 3 or 4, characterized in that the mixture of sorbent components consists of activated carbon NORIT 18X40 AG 3N V = (60 + 1) cm ³ and activated carbon 607C V = (240 + 5) cm ³ . 6. The filter for water purification according to claim 3, characterized in that the layers of fibrous ion-exchange material are made of Fiban-K5 cloth with a thickness of (4.6 + 0.3) mm, d = (60 + 1) mm or d = (80 + 1) mm. 7. The filter for water purification according to claim 2 or 3, characterized in that the nodes for the uniform distribution of the treated and purified water are made in the form of a disk with holes on which radial stiffeners are located on one side and an axial guide is installed on the other side in the center made in the form of a tetrahedron. 8. The filter for water purification according to claim 1, characterized in that the indicator of the end of the resource of use of the filter module with the ability to flexibly change the resource of use of the filter module is made in the form of a counting unit with the ability to multiply by a coefficient corresponding to the number of users.

Images