RU172621U1 - HIKE FILTER FOR WATER TREATMENT - Google Patents

Abstract

The utility model relates to the field of portable water-purifying filters suitable for operational use in traveling conditions, as well as in emergency situations using surface water sources with various natural and anthropogenic pollution contaminated with pathogenic microorganisms, including spore forms, viruses, poisonous, potent and radioactive The inlet filter contains an intake filter for rough water treatment 1, a suction tube 2, a housing consisting of coaxial bottom 3 and the upper 4 parts connected to each other by a threaded connector 5, a manual piston pump 6 connected to the housing, the piston end 7 of which is equipped with a pressure valve 8, and the cylinder end 9 - a suction valve 10, a sorbing filter 11, a sterilizing microfilter 12, a tube 13 for drainage of purified water, equipped with a mouthpiece 14 with a removable protective cap 15. To prevent the loss of the cap 15, it is connected to the mouthpiece 14 by a flexible element 16. The sorbent filter 11 is made in the form of a cup 17 filled with sorbent with a perforated cover 18 and an entrance a threaded nozzle 19 in the bottom, interacting with the seating surface 20 inside the hollow piston 7 of the pump 6. In the cover of the upper part of the housing 4 there is a threaded hole 21 for fastening the sterilizing filter 12. On the lower part of the housing 3 there are protrusions 22 that limit the stroke of the piston 7 in cylinder 9. 1 ill.

Description

This utility model relates to the field of portable water purification filters intended for operational use in field conditions, as well as in emergency situations using surface water sources with various natural and man-made pollution contaminated with pathogenic microorganisms, including spore forms, viruses, poisonous, potent and radioactive substances.

Known portable filter for water purification (RU 18648, B01D 63/00, 2000), comprising a housing with a bottom, a discharge pipe, means for supplying purified water and a filter element in the form of a plate ceramic membrane tangential filter and an opening for draining under-treated water. This filter has several disadvantages. Tangential filtration increases the productivity and resource of the membrane, but taking into account the discharge of a significant amount of under-treated water (concentrate) requires a 1.5-3 times increase in the supply of source water. For a field filter with a hand pump, this means an increase in physical activity for pumping water through the filter. The ceramic filter can retain mechanical impurities, but allows dissolved substances, including toxic ones, which limits its use for drinking water from surface sources. In addition, the means for supplying purified water does not form a whole with the filter itself, which is undesirable for a field filter, which should be as compact as possible.

Known marching cartridge filter for water (RU 110285, B01D 27/00, 2011), comprising a cylindrical body with an inlet threaded hole for a standard plastic bottle and an outlet provided with a stopper with an outlet for the outlet of purified water, and inside the case between the upper and lower layers of hydrophobic cotton wool, forming a pre-filter and post-filter, a layer of sorbent is placed. Such a filter is able to purify water from both mechanical and dissolved organic and toxic contaminants, but it will not protect against bacteria and viruses. To supply contaminated water to the filter, a plastic bottle filled with source water is screwed into the threaded inlet. The disadvantages of this method of water supply are the insignificant pressure and, consequently, the low filter performance, especially when cleaning medium and high water, as well as the need to carry an empty bottle without filtering.

A known system for water purification in extreme circumstances (US Pat. US 6245228, B01D 27/00, 2000), which contains a tank filled with raw water, a vessel for prepared water and a cylindrical filter cartridge, which includes an anion exchange resin, a filter material for trapping suspended impurities and activated carbon for trapping organic impurities and residual chlorine. A disinfectant is loaded into the source water, and the inlet of the filter cartridge is equipped with a physicochemical holding device that does not pass water into the cartridge until the water is disinfected. The disadvantages of this system are the necessity of completing with a disinfectant chlorine-containing reagent, a container for source water, low efficiency of use (the time of dissolution of the reagent and the required exposure of the source water before filtration should be at least 0.5 hours), as well as low productivity due to the low pressure of the source water .

Known hand-held portable pump for filtering water (US Pat. US 5366642, 210-767, B01D 35/26, 1992), comprising a housing with an inlet, outlet and with a removable filter cartridge in the form of a tubular cylinder with a central cylindrical channel forming a pump cylinder around which a mechanical filter and activated carbon are concentrically placed to trap chlorine and organochlorine compounds. The pump intake is plunged vertically into the water source. The pump is equipped with a handle that drives the piston. The handle in the working position is located at an angle to the pump housing, and in the transport is disconnected from the rod and installed in a position along the pump. This device does not have a sterilizing agent, which limits its use to obtain drinking water from surface sources. Another disadvantage is the inconvenience of using the pump, which is associated with the need to hold the pump casing with the intake pipe submerged beneath the surface of the water source with one hand, and use the other hand to reciprocate with the angled handle, creating an alternating moment of force that deflects the pump casing from vertical position.

Known adopted as a prototype travel filter for water purification (patent for utility model RU 120370 U1, 2012, B01D 35 | 26), containing an intake filter for rough water purification, a suction tube, a housing consisting of coaxial upper and lower parts, a prefilter , a hand pump, a sorbing filter, a sterilizing microfilter installed behind the sorbing filter, a hand pump, the piston of which is made as a continuation of the upper part of the housing, the cylinder as a continuation of the lower part of the housing, and the ends of the piston and cylinder are equipped with a pump by suction valves, the housing made detachable due to the mutual rotation of its components around the longitudinal axis in the position of the top dead center of the pump, and the upper part of the housing is equipped with a pipe for removing purified water, equipped with a mouthpiece with a removable protective cap, while the sterilizing microfilter is made on the basis of positive a charged membrane with a pore size of 0.2 μm.

The sterilizing microfilter ensures the purification of water from pathogenic bacteria due to the pore size of the membrane of 0.2 μm and from viruses due to the positive charge of the membrane. Thus, equipping the filter with a mechanical prefilter, a sorption filter and a sterilizing microfilter provides reliable comprehensive reagent-free purification of drinking water from surface water sources from mechanical impurities, colloids, color, pathogenic microorganisms, including their spore forms, viruses, toxins, high and low molecular weight organic compounds, poisonous, potent and radioactive substances. The pump is driven back and forth along an ergonomic path with a comfortable grip of the pump parts.

When stowed, the filter is placed in a disassembled case. To bring the filter into working condition, the upper and lower parts of the housing should be connected by introducing the piston into the cylinder, while letting the protrusions on the upper part of the housing pass through the grooves on the lower part of the housing and turning the housing parts relative to each other around a longitudinal axis by an angle of about 90 °. The intake filter is immersed in the water source or container with the source water, and water is pumped through the filter by the pump. Purified water can be drunk directly through the mouthpiece or fill the flask or bottle by inserting the mouthpiece into its mouth.

Providing effective treatment of water containing a complex of contaminants, to drinking quality, the prototype has several disadvantages.

The need to connect the filter parts at the beginning of the work and to separate them when laying in the cover at the end of it requires quite precise manipulations and time-consuming. In addition, a significant amount of air in the suction zone of the pump requires the dry filter to run the pump idle or suck it in with the mouth until the water fills the sorption filter and reaches the pump, only after which the pump “picks up” water and ensures efficient pumping of water through the filter . The inability to change the sorbent and the sterilizing microfilter after exhausting their resource limits the filter service life.

The technical task of this utility model is to create a convenient and easy-to-use portable camping filter for water purification, which ensures reliable purification of water to drinking quality from surface sources with a high degree of pollution and contamination and having a long service life.

The specified technical result is achieved by the fact that a field filter for water purification, comprising a coarse water intake filter, a suction tube, a manual piston pump, the hollow piston of which is connected to a housing consisting of coaxial lower and upper parts, inside of which there is a sorbent filter and a sterilizing microfilter based on a positively charged membrane with a pore size of 0.2 μm, a tube for the removal of purified water, equipped with a mouthpiece with a removable protective cap, according to the technical solution, the upper and lower the casing parts are connected by a screw connector, the sorbent filter is made in the form of a replaceable sorbent-filled cup with an inlet nozzle in the bottom and a perforated cover, a seating surface is provided inside the pump hollow for fixing the inlet nozzle of the sorbent filter, and the lid of the upper part of the housing has a central threaded hole for mounting the replaceable sterilizing microfilter.

The drawing shows a travel filter device for water purification.

The in-line filter contains a coarse water intake filter 1, a suction tube 2, a housing consisting of coaxial lower 3 and upper 4 parts connected to each other by a threaded connector 5, a piston pump 6 connected to the housing, the piston end 7 of which is equipped with a pressure valve 8 and the end face of the cylinder 9 - by a suction valve 10, a sorbing filter 11, a sterilizing microfilter 12, a pipe 13 for removing purified water, equipped with a mouthpiece 14 with a removable protective cap 15. To prevent loss of the cap 15, it is connected to the mouthpiece 14 bend element 16. The sorbent filter 11 is made in the form of a cup 17 filled with sorbent with a perforated cover 18 and an inlet pipe 19 in the bottom interacting with a seating surface 20 inside the hollow piston 7 of the pump 6. A threaded hole 21 is made in the cover of the upper part of the housing 4 for fastenings of the sterilizing filter 12. On the lower part of the housing 3 there are protrusions 22 that limit the stroke of the piston 7 in the cylinder 9.

Coarse intake filter 1 is immersed in a water source or container with source water. The reciprocating movement of the pump 6 corresponds to the suction and discharge strokes performed by the piston 7 in the cylinder 9. The suction 10 and pressure 8 valves provide directional movement of water from the coarse intake filter 1 through the suction tube 2 through the sorption filter 11, sterilizing the microfilter 12, the tube for drainage of purified water 13 to the mouthpiece 14. The purified water can be drunk directly through the mouthpiece 14 or fill the flask or bottle by inserting the mouthpiece into its mouth. In the stowed position, the mouthpiece is closed by a removable protective cap 15 mounted on the mouthpiece using a flexible element 16. The protrusions 22 limit the specified amplitude of the piston 7 from the bottom to the top dead center of the pump 6.

The sequential passage of the source water through a coarse filter, a sorbent layer and a sterilizing microfilter based on a positively charged membrane with a pore size of 0.2 μm provides reliable complex reagent-free purification of water from drinking particles from contaminated surface water sources from mechanical particles, colloids, color, pathogenic microorganisms, including their spore forms, viruses, toxins, high and low molecular weight organic compounds, poisonous, potent and radioactive substances, then validated by testing samples of the filter in the purification of highly contaminated water.

The filter has a monoblock design that does not require the connection of its parts to bring the filter into working condition and disconnect them when the filter is placed in a bag at the end of work, which makes it possible to immediately use and quickly roll up the filter.

Placing all filter elements in the pressure zone of the pump minimizes the volume of the suction zone of the pump, which facilitates its filling with water during dry start-up and allows the pump to quickly “pick up” water and begin its active pumping through the filter, thereby reducing the time from the start of deployment of the filter to obtaining purified water.

The presence of a threaded housing connector allows for multiple changes of the sorbent and sterilizing filter elements after the exhaustion of their resource, prolonging the service life of the filter as a whole.

Claims (1)

A field filter for water purification, containing a coarse water intake filter, a suction tube, a manual piston pump, the hollow piston of which is connected to a housing consisting of coaxial lower and upper parts, inside of which there is a sorption filter and a sterilizing microfilter based on a positively charged membrane with size pore 0.2 μm, a pipe for removing purified water, equipped with a mouthpiece with a removable protective cap, characterized in that the upper and lower parts of the housing are connected by a threaded connector, a sorbing filter R is made in the form of a replaceable sorbent-filled glass with an inlet nozzle in the bottom and a perforated cover, a seating surface is provided inside the pump hollow for fixing the inlet nozzle of the sorbent filter, and the cover of the upper part of the housing has a central threaded hole for attaching a replaceable sterilizing microfilter.

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