RU51521U1 - HOUSEHOLD FILTER FOR CLEANING DRINKING WATER - Google Patents

Abstract

A household filter for drinking water purification refers to the treatment of both prepared and unprepared drinking water for consumers. To improve operational and technical qualities, increase reliability during the filtration of drinking water, both in domestic and field conditions, it contains the first coarse flow filter 3 connected to the water supply network 1, connected to a pressure boosting pump 6, protected by a dry-running sensor 7, which, in turn, is connected to a pressure sensor 8 and a power supply 9. The pressure boosting pump 6 is connected to a bypass valve 12, which is connected to the inlet fitting 14 of the second fine filter 15, which feeds the filter water to the first flow-through, ultrafiltration membrane filter 19, in which the pipe 22, by means of a flow restrictor 24, discharges water that has not passed through the drainage line, and through the pipe 23 the filtrate, purified from high molecular weight organics and colloidal particles, is supplied to the third flow-through (carbon) filter 26, and further, having passed in the carbon flow filter 26, the removal of chlorine and low molecular weight organics goes to the second flow, reverse osmosis, membrane filter 30, which produces a chemical filter, i.e. delaying compounds of iron, manganese, ammonia and most of the salts of heavy metals. From it, through the pipe 33 connected to the bypass valve 12, the purified water flows through the tee 36 to the post-filter 38, and then to the consumer tap 40. Unclaimed drinking water enters the storage tank 42. The water that is not purified in the second flow-through, reverse osmosis membrane filter 30 is water the pipe 34 through the flow limiter 43 is fed through a tee 44 to the pressure boosting pump 6.

Description

The utility model relates to the treatment of both prepared and unprepared drinking water for consumers, in particular, in apartments, in children's institutions, hospitals, mobile food units, including military field kitchens and hospitals, field camps, expeditions, etc. .

A device is known for purifying tap drinking water from a consumer, including a cylindrical body, a filter cell with a ceramic membrane filter element or several ceramic filter elements, and a sealed storage tank that houses a sorbent absorber of dissolved toxic and odorous substances (see RF patent 2052278, cl . 01 D 63/00, priority 08.07.1993).

A disadvantage of the known device is the inability to use it for unprepared water, which reduces its performance, in addition, the known filter has low reliability.

These disadvantages are due to the design features of the known device, which requires frequent regeneration or replacement of ceramic filter elements and an absorbent sorbent of dissolved toxic and odorous substances.

Also known is a filter unit for deep purification of drinking water in domestic conditions (RF Patent No. 2196632, CL B 01 D 29/56 of 10/19/2001), which contains flow filters with fittings for draining purified and uncleaned water, a cartridge with

sorbent absorber, a means for supplying contaminated water and a consumption tap and a mixer tap installed on the sink.

A disadvantage of the known installation of water treatment is its low productivity and reliability in domestic conditions.

These disadvantages are due to the design features of the known device.

The closest in technical essence and the achieved result to the claimed utility model is a filter unit for cleaning and disinfecting water, which contains two flow-through membrane filters, each of which has a cylindrical body with a means for supplying contaminated water attached to it, fittings for discharging purified and uncleaned water and a membrane filter element installed in the housing, and a single means for removing purified water from each filter is connected to an additional tap Blenheim mounted on a sink, and is provided with a sorbent cartridge absorber (see. Russian Patent №2167695, cl. B 01 D 63/00, on 16.02.2000).

A disadvantage of the known installation are low operational and technical qualities, reliability and dirt capacity.

These disadvantages are due to the fact that in the known installation, membrane filters work with contaminated untreated and uncleaned water, so they quickly fail, and the sorbent absorber is placed in the means for removing purified water after the membrane filter, and therefore, the degassing process (dechlorination, etc. .d.) is carried out after the filtration process, which may impair the quality of the water, as the adsorbent absorber itself can increase the presence of solid suspensions and become again a source of bacterial danger in purified water.

The technical result of the claimed utility model is to increase operational and technical qualities, increase

reliability when filtering drinking water, both in domestic and field conditions.

The problem is solved in that in the known filter for drinking water purification, comprising at least two flow-through membrane filters, inlet and outlet fittings associated with nozzles for supplying and discharging untreated, unrefined and purified water, a post-filter with an adsorbent absorber, connected by a pipe for draining purified water to a consumption tap, according to a utility model, it is additionally equipped with at least two flow filters, a bypass valve, a pressure boosting pump with a power supply and accumulate moreover, the first flow filter is connected through an inlet fitting to a pipe for supplying untreated water and, through an outlet fitting, by means of pipes for supplying untreated water and inlet fittings of the aforementioned pressure boosting pump and bypass valve, is connected to a second flow filter, which, in its the turn is connected by a pipe for supplying untreated water to an inlet fitting of a first flow-through membrane filter made with two outlet fittings, one of which is connected to a branch pipe for removing untreated water, and the second, by means of a supply pipe for under-treated water, with a third flow filter, which is connected to the inlet fitting of the second flow-through membrane filter, having two outlet fittings, one of which is connected to the purified water discharge pipe through the aforementioned distribution valve with a storage tank and with a consumption tap through the post-filter with a sorbent-absorber, and the second fitting is connected through the pipe outlet of the untreated water to the inlet fitting of the pressure increase pump, and the pressure increase pump is equipped with dry run detector, and the inventive household filter for drinking water purification can be additionally equipped with three flow

filters, namely: the first filter is a coarse filter, the second is a mechanical filter and the third is a carbon filter, flow filters have a cylindrical shape, and of the two flow membrane filters, the first is ultrafiltration and the second is reverse osmosis.

Between the distinguishing features and the achieved technical result, there is the following causal relationship.

Unlike analogs and prototypes, equipping the design of the inventive household filter with at least two additional flow filters, a bypass valve and a pressure-boosting pump equipped with a dry-running sensor made it possible to supply prepared water to the first and second membrane filters, which increased the reliability of the claimed filter and the durability as well as the quality of purified water. Pre-treatment of water in front of the first ultrafiltration membrane filter and return of the concentrate after the second flow reverse osmosis membrane filter has passed through the water to a repeated cleaning cycle has allowed not only to increase the service life of the reverse osmosis membrane, but also significantly increase the dirt capacity of the claimed filter, and hence reliability and durability, while reducing the volume of water discharged into the drainage line (sewage) is 2 times, which increases the technical quality of the inventive filter. The presence in the inventive filter of the storage tank of purified water and a pressure boosting pump equipped with a dry-running sensor with a power supply allows not only to prepare a spare volume of purified water, but also to automatically stop the filter by turning off the pressure boosting pump when stopping the consumption of purified water and full filling the storage tank, which also increases the reliability and durability of the proposed filter, increasing its operational and

technical qualities. The equipment of the inventive household filter for drinking water purification with three flow filters, namely: the first filter is a coarse filter, the second is a mechanical filter and the third is a coal filter in combination with two flow membrane filters with ultrafiltration and reverse osmosis filters and the proposed connection scheme of these components with nozzles for supply and discharge of untreated, under-treated and purified water allowed the use of the claimed utility model, both in domestic and in the field.

An analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identifying sources containing information about analogues of the claimed utility model, made it possible to establish that the applicant did not find an analogue characterized by features identical to those of the claimed utility model "Household filter for cleaning drinking water ”, and the definition from the list of identified analogues of the prototype, as the closest in the totality of the characteristics of the analogue, allowed to identify the totality data in relation to the technical result perceived by the applicant as distinctive features in the claimed object, set forth in the utility model formula.

Therefore, the claimed utility model meets the criterion of "novelty," according to current legislation.

The set of essential features characterizing the essence of the claimed utility model “Household filter for drinking water purification” can be repeatedly used in the production and use of similar filters for drinking water purification to obtain a technical result consisting in increasing the productivity and reliability of filtering drinking water in a domestic environment, which allows conclude compliance

the claimed utility model to the criterion of "industrial applicability".

The essence of the claimed utility model is illustrated by an example of a specific implementation, which shows a diagram of a household filter for drinking water purification.

A household filter for drinking water purification consists of a line of the water supply network 1 connected to the inlet fitting 2 of the first flow-through filter 3 of the cartridge type, the so-called coarse filter, which is made in the form of a vertically mounted cylinder, and then through the pipe 4 to the pump inlet 5 pressure increase 6, protected by a dry-running sensor 7, which, in turn, is connected to a pressure sensor 8 and a power supply 9. The pressure increase pump 6 is connected through an outlet fitting 10 and a discharge pipe 11 with an overflow valve 12, which by means of a pipe 13 is connected to an inlet fitting 14 of a cylindrical vertically mounted second fine filter (mechanical) flow filter 15, which supplies filtered water through an outlet fitting 16 of the second flow filter 15, a pipe 17 for supplying under-treated water and an inlet fitting 18 to the first flow, ultrafiltration a membrane filter 19, having two outlet fittings 20 and 21 connected by outlet pipes 22 and 23, respectively, of untreated and untreated water. The pipe 22 by means of a flow limiter 24 discharges water that has not passed filtration on the first ultrafiltration flow membrane filter 19 into the drain line. Through the pipe 23 from the first ultrafiltration flow membrane filter 19, the filtrate, purified from high molecular weight organics and colloidal particles, is fed through the inlet fitting 25 to the third flow (carbon) filter 26, made in the form of a vertical cylinder and further,

having passed in the flow-through charcoal filter 26, purification from chlorine and low molecular weight organics through the outlet fitting 27 of the flow-through charcoal filter 26 through the nozzle 28 enters the inlet fitting 29 to the second flow-through, reverse osmosis, membrane filter 30, which chemically purifies water from 2 valence, 3 valence and t .d. ions, i.e. delaying compounds of iron, manganese, ammonia and most of the salts of heavy metals, thus bringing their composition to SANPiN - drinking water. The second, flowing, reverse osmosis, membrane filter 30, is equipped with two outlet fittings 31 and 32, connected by outlet pipes 33 and 34, respectively, of purified and uncleaned water. The pipe 33 is connected to a bypass valve 12, from which a pipe 35 leaves, supplying purified drinking water through a tee 36 through a pipe 37 to a postfilter 38 containing carbon cartridges that hold odors and tastes, after which the purified water passes through the pipe 39 to the consumer valve 40. Unclaimed drinking water through a tee 36 enters through a pipe 41 into an accumulation tank 42. A pipe 34 through a flow restrictor 43 brings unfiltered in the second flow, reverse osmosis, membrane filter 30 through a tee 44 to the inlet The thrust fitting 5 of the booster pump 6.

Household filter for drinking water purification, works as follows.

The source water from the water supply network 1 or directly from the natural reservoir is supplied to the inlet 2 to the first cartridge-type flow filter 3, where the water passes through the so-called rough cleaning, and then, to increase the working pressure, water is supplied through the pipe 4 to the pressure increase pump 6, connected with the bypass valve 12, and then through the pipe 13 is fed to the second flow mechanical filter 15, thin

cleaning the cartridge type, protecting the ultrafiltration membrane filter 19 from suspended particles larger than 10 microns. From the second flow filter 15 through the pipe 17, the untreated water enters the aforementioned first, ultrafiltration membrane filter 19, where it is cleaned of high molecular weight organics and colloidal particles, and the filtrate is fed to the third flow carbon filter 26, where the water is cleaned of chlorine and low molecular weight organics, after which through the pipe 28 enters the second flow-through, reverse osmosis, membrane filter 30, where the deep water purification takes place. After the second reverse osmosis membrane filter 30, the purified water through the nozzle 33 through the bypass valve 12, enters the post-filter 38 containing carbon cartridges that hold odors and smacks, and then through the nozzle 39 enters the consumer valve 40. Unclaimed drinking water through the tee 36 enters pipe 41 into the storage tank 42. Unfiltered after the first ultrafiltration membrane filter 19 water is discharged into the drainage line (sewer), and unfiltered after the second reverse osmosis one filter membrane 30 water is supplied to the inlet nipple 5 of the pump 6 and the pressure rise through the conduit 13 water is supplied to the second flow-through mechanical filter 15, repeating the cleaning cycle with the water flowing past the first 3 Coarse filter. When filling the storage tank 42 through the tee 45 through the pipe 46, a signal is sent to the pressure sensor 8, after which the pressure increase pump 6 is turned off and the bypass valve 12 closes the supply of source water to the pressure increase pump 6.

The use of this utility model “Household filter for drinking water purification” made it possible to improve the operational and technical qualities of household filters for drinking water purification,

to increase their durability and reliability during the filtration of drinking water, both in domestic and in the field.

Claims (5)

1. A household filter for drinking water purification, comprising at least two flow-through membrane filters, inlet and outlet fittings associated with nozzles for supplying and discharging untreated, uncleaned and purified water, a post-filter with an adsorbent absorber connected by a nozzle for draining purified water with a consumption tap, characterized in that it is additionally equipped with at least two flow filters, a bypass valve, a pressure boosting pump with a power supply and a storage tank, the first flow filter connected through an inlet fitting to a pipe for supplying untreated water, and through an outlet fitting, through nozzles for supplying a crude water and inlet fittings of the aforementioned pressure boosting pump and bypass valve, connected to a second flow filter, which, in turn, is connected to a pipe for supplying untreated water with the inlet fitting of the first flow-through membrane filter made with two outlet fittings, one of which is connected to the raw water outlet pipe, and the second through the underflow supply pipe water - with a third flow filter, which is connected to the inlet fitting of the second flow-through membrane filter, having two outlet fittings, one of which is connected to the outlet of purified water through the aforementioned distribution valve with a storage tank and with a consumption tap through a post-filter with an adsorbent absorber, and the second fitting is connected through the outlet pipe of the untreated water to the inlet fitting of the pressure boosting pump. 2. A household filter for drinking water purification according to claim 1, characterized in that the pressure boosting pump is equipped with a dry-running sensor. 3. A household filter for drinking water purification according to claim 1, characterized in that it is equipped with three flow filters, namely: the first filter is a coarse filter, the second is a mechanical filter and the third is a coal filter. 4. A household filter for drinking water purification according to claim 3, characterized in that the flow filters have a cylindrical shape. 5. A household filter for drinking water purification according to claim 1, characterized in that of the two flowing membrane filters, the first is ultrafiltrational and the second is reverse osmosis.