RU101649U1 - MEMBRANE FILTER FOR CLEANING DRINKING WATER - Google Patents

Abstract

 1. Membrane filter for drinking water purification, including a collector housing for collecting the filtrate, filter elements, covers with intake slit openings, a fitting connecting the collector to a drain hose to drain filtered water, characterized in that the device includes locks for bending without creases of the elastic drain hose and the creation of a reliable water shutter, while the body is made in the form of a flat element of a rectangular or square shape with a needle field located on two flat sides of the body , the shape of the elements of the needle field is a pyramid or cone with smoothed vertices, a narrow strip is located around the perimeter of the housing for fastening to the housing by heat sealing filter elements made in the form of a laminated track membrane, the design additionally contains elements that allow several filters to be combined into blocks due to use of connecting plugs or using locks on frames covering the housing. ! 2. The membrane filter for drinking water purification according to claim 1, characterized in that the design contains a special manual pump, which creates a forced negative pressure - vacuum under the filter elements and serves to accelerate the start of the filter in working condition. ! 3. The membrane filter for drinking water purification according to claim 1, characterized in that a check valve is inserted into the gap of the drain hose, which serves to protect the membrane from purging the filter in the opposite direction. ! 4. The membrane filter for drinking water purification according to claim 1, characterized in that on the outside of the lid there is an organizer that allows

Description

The invention relates to devices for the fine purification of water from suspensions, bacteria and chemical compounds dissolved in water.

Known industrial filter household "Rodnik-3M" TU 6-16-22-91-87 flow type, adopted as an analogue. Water purification is carried out due to the presence of a filter element filled with activated carbon, impregnated with silver. A necessary condition for its operation and ensuring the given performance is the creation of a certain pressure drop on the filter element, sufficient if there is a water supply network with a pressure of 0.6 MPa. In civilized conditions, with a water supply network, this problem can be solved simply, but in conditions where there is no possibility of connecting the Rodnik-3M filter to the water supply system - in emergency situations where the Ministry of Emergencies works, this filter is useless.

As a prototype, “Household filter for fine water purification” was selected (RF Patent No. 214593, IPC 7: F C02 9/00), which includes a housing closed by covers and having a hose for draining filtered water, prefilters and filter elements located between the housing and covers, the covers have intake holes, the housing surface is corrugated, and the collector for collecting the filtrate is formed by this surface and the surface of the filter element (nuclear membrane) - polymer, for example, polyethylene terephthalate, film, 9-11 microns thick, in Through holes are made through holes with a diameter of 0.2-0.4 microns.

Film membranes are a delicate material; in the working state of the filters, membranes experience surface pressure and are pressed against the elements of the housing. In such collectors, to eliminate this phenomenon, an embodiment of the housing surface with ruled elements (stripes, arcs, rays, mesh, etc.) is used as an option. The prototype body is made with a support for the membrane corrugated surface. However, this also has drawbacks - under the influence of surface pressure at the point of contact of the membrane with the corrugated ruled element of the housing surface, a large number of membrane openings overlap, and this prevents the filtered liquid or gas from passing through the blocked openings, thereby reducing the working surface of the membrane and, accordingly, the throughput filter ability.

In the prototype, as pre-filters in the underwing space of the filter, foam (polyurethane) plates are used for coarse filtration of suspensions from dirty water, which is strictly contraindicated - foam in water decomposes and releases toxic components that are harmful to health.

The basis of the invention is the task of creating such a membrane filter for the purification of drinking water, which would constructively ensure maximum filter capacity, have reliable strength characteristics, and give a high degree of water purification from the maximum number of pollutants that adversely affect human health.

The problem is solved in such a way that the membrane filter for drinking water purification includes a housing made in the form of a flat rectangular or square element with a needle field located on two flat sides of the housing and a narrow strip around the perimeter of the housing for fixing by heat sealing on the laminated track membranes with a thickness of 9 to 23 microns with a pore diameter of 0.18 to 0, 45 microns; a collector for collecting the filtrate, which is the space formed by the surface of the laminated track membrane and the needle field of the housing; covers with intake holes; a fitting that connects the collector to a drain hose to drain filtered water; manual pump for putting the filter into working condition and to comply with hygiene requirements. The elements of the needle field are in the shape of a truncated pyramid or cone with slightly smoothed vertices. The design of the new filter provides for the use of so-called locks - bend fixation elements without creases of the elastic drain hose and the creation of a reliable water shutter that prevents contaminated air from entering the drain hose when the container with dirty water is empty and when the remaining water is drained from the drain hose. Magnetic microparticles, bioenergetically charged microparticles, which have a beneficial effect on the physiological processes in the human body, as well as silver microparticles, which improve the bactericidal properties of the filter, are impregnated into the body material, or into the laminate, or into a special cartridge that is inserted into the rupture of the drain hose. or selective sorbents capable of improving the efficiency of the filter by various indicators (for example, iron, arsenic, chromium, etc.). The filter design provides for the presence of frames with special locks covering the collector body, or in the absence of frames, special connecting plugs that enable rigid connection between 2-3-4-10 and more filters per unit, which increases the productivity of the cleaning process by a multiple of increasing the number filters.

On the outside of the lid is a special organizer that allows you to compactly lay the drain hose.

To bring the filter into working condition, a special manual pump is used, which creates a forced negative pressure (vacuum) under the filter elements, which can significantly reduce the process of putting the filter into working condition and at the same time ensure the cleanliness and hygiene of this process.

A check valve can be installed in the gap of the drain hose, which serves to protect the membrane from blowing the filter in the opposite direction. The consumer, not having read the operating instructions, sometimes tries to “clean” the membrane by blowing through the drain hose, thereby tearing the membrane away from the housing and renders the entire filter unusable.

The drain hose, which is used to drain purified water, creates a negative pressure (vacuum) under the filter elements (laminated membrane) due to the falling column of clean water in the hose, which can significantly increase the filter performance.

The use of a laminate in the form of a porous non-woven fiber allows processing the non-woven material in different ways, by “implanting” (impregnating) magnetic microparticles, energetically charged microparticles, various sorbents capable of selectively improving the filtering properties of the filter according to such indicators as various types of iron, arsenic chrome etc. And the application of technology of implantation of silver elements will improve the bactericidal properties of the filter. Various sorbents, magnetic microparticles, energetically charged microparticles or silver can also be impregnated into the plastic material of which the housing is made, or into a cartridge that is inserted into the gap of the drain hose.

A causal relationship between the essential features of the technical solution that is claimed and the expected result is as follows. The prototype uses a nuclear membrane (TU 1664-88) with a thickness of 9-11 microns with a pore diameter of 0.2-0.4 microns and a density of up to 10 ⁵ pores per 1 cm2. The manufacturing technology of the nuclear membrane had an important drawback - the pores that are formed are perpendicular to the surface of the membrane and there was a situation where a large number of pores overlap ("doublets" and "triplets"), which led to instability of the diameters of the holes in the nuclear membrane. This did not guarantee effective filtration — the pore diameters were not stable. In the inventive filter applied track membrane (TU 9428-03-8626319-95), the manufacturing technology of which is significantly different from the manufacturing technology of a nuclear membrane. In the track membrane, the pores are located not perpendicular to the surface of the membrane, but at different angles. It is such a technology that avoids the likelihood of uncalibrated holes and guarantees the protection of filtered water from any kind of bacteria. In addition, the design of the new filter used a track membrane with a thickness of 9 to 23 microns, with a pore diameter of 0.18 to 0.45 microns and a density of up to 10 ⁸ pores per 1 square centimeter, which significantly increases the strength, and, accordingly, filter performance.

The laminate of the membrane is made of non-woven synthetic material of a certain thickness and density and raises the membrane itself above the needle surface of the collector body, which creates additional space for the free passage of droplets of filtered liquid or gas, increasing the throughput of the device.

The signs of the prototype, coinciding with the essential features of the invention, is the presence of:

• case closed by covers,

• filter elements located between the housing and the covers,

• the collector space formed between the surface of the membrane and the housing,

• a fitting to which a hose for draining filtered water is connected.

The filter is presented graphically.

The drawing (Fig. 1) shows the design of a membrane filter for drinking water purification, which has a laminated track membrane 1 as a filter element, a housing 2 with a needle surface 3 supporting the membrane 1 and a narrow strip 4 around the perimeter of the housing 2 for tight sealing on it heat sealing method of the track membrane; a collector for collecting the filtrate is formed by the space between the surface of the laminated track membrane and the needle field of the housing; a fitting 5 connecting the manifold to a drain hose 6 for receiving filtered fluid; lids 7 with slotted holes 8.

The membrane filter operates as follows (see Figure 2).

The filter is lowered into the intake tank 9 (stationary dishes, a plastic bag, a wineskin, etc.) with untreated water, locks 10 are fixed on the drain hose 6, eliminating the possibility of a crease in the drain hose, the filter is started using the manual pump 11. A selective cartridge 12 is inserted into the rupture of the drain hose, which allows to increase the efficiency of the filter. A check valve can be installed in the rupture of the drain hose to protect the membrane from blowing the filter in the opposite direction (not shown in the figure).

Figure 3 shows the ability to connect filters into blocks. On the outer side of the covers there are frames with special locks (not shown in the figure) that cover the collector body, or special connecting plugs 13 are installed that enable rigid connection between 2-3-4-10 and more filters, which increases productivity the cleaning process is a multiple of the increase in the number of filters. In the claimed design of the filter, the slotted holes 8 in the covers 7 additionally carry the function of attaching special connecting plugs, with which the filters are combined into blocks. The plug 13 is fixed in the openings-slots 8 of the cover of one of the filters and also in the openings-slots of the cover of the adjacent filter, interlocking between the filters. On the lid there is a special device - organizer 14, which allows you to compactly, spirally lay the drain hose.

In the prototype, the filter is launched by the method of flooding the entire structure and a long wait for all the voids of the filter and the drain hose to be filled with filtered water. Due to the fact that this method does not use any pressure, this process lasts tens of minutes. In addition, after removing the drain hose from the dirty water vessel into which it was previously immersed and lowering it into a lower container with filtered water, it is possible that dirty, untreated water will swell on the outer surface of the hose into the tank with purified water, which in conditions of epidemiological danger it is fraught with the introduction of pathogenic bacteria into clean water.

A new pump design is used in the kit of a manual pump, which allows you to bring the filter into working condition for several seconds, while all hygiene requirements are observed and there is no risk of contamination of purified water and the tank for receiving clean water.

In addition, the drain hose is used not only to drain purified water, but is also an integral part of the pump, which creates pressure under the track diaphragm, because it is the falling column of water in the hose that plays the role of the pump, which provides the necessary filter performance.

The advantages of the new design should also include the following factors.

Laminate is a porous non-woven fabric. Due to its capillary properties, this structure of the web allows, although not significantly, to increase the filter performance. This laminate structure also prevents the adhesion of the film membrane to the surface of the housing, which prevents the overlap of the pores of the membrane, while also increasing the filter performance.

The design of the new filter allows you to combine filters into blocks, which significantly increases the performance of such a device and expands the possibilities of its application. If in the prototype the openings on the cover functioned as a window for dirty water to enter the filter, then in the new design of the filter, the openings in the covers still have the function of attaching special connecting plugs with which the filters are combined into blocks. The plug is fixed in the slit holes of one cover, and also fixed in the slit holes of the adjacent cover - this is the clutch element between the filters.

Also, this design of the covers of the new filter allows you to fix a special device on the cover - an organizer, which allows you to compactly, spirally lay the drain hose, which gives the filter an aesthetic appearance and allows you to carefully transport the filter together with the drain hose.

Claims (4)

1. Membrane filter for drinking water purification, including a collector housing for collecting the filtrate, filter elements, covers with intake slit openings, a fitting connecting the collector to a drain hose to drain filtered water, characterized in that the device includes locks for bending without creases of the elastic drain hose and the creation of a reliable water shutter, while the body is made in the form of a flat element of a rectangular or square shape with a needle field located on two flat sides of the body , the shape of the elements of the needle field is a pyramid or cone with smoothed vertices, a narrow strip is located around the perimeter of the housing for fastening to the housing by heat sealing filter elements made in the form of a laminated track membrane, the design additionally contains elements that allow several filters to be combined into blocks due to use of connecting plugs or using locks on frames covering the housing. 2. The membrane filter for drinking water purification according to claim 1, characterized in that the design contains a special manual pump, which creates a forced negative pressure - vacuum under the filter elements and serves to accelerate the start of the filter in working condition. 3. The membrane filter for drinking water purification according to claim 1, characterized in that a check valve is inserted into the gap of the drain hose, which serves to protect the membrane from purging the filter in the opposite direction. 4. The membrane filter for drinking water purification according to claim 1, characterized in that an organizer is placed on the outside of the lid, which allows a compact laying of the drain hose.