RU60874U1 - CARTRIDGE FILTER ELEMENT (OPTIONS) - Google Patents

Abstract

The utility model relates to devices for cleaning liquids, in particular, to filters for treating drinking water, and can be used in the food and medical industries. The objective of the utility model is to develop a replaceable filter element for the effective removal of negatively charged particles from the water, including microbiological contaminants, mainly bacteria and viruses. Two variants of the cartridge filter element are proposed, the first version of the cartridge filter element contains a perforated tube and a layered filter material formed around it, connected by end parts, the filter material formed around the perforated tube in the form of a cylindrical roll, made in the form of a “sandwich”, the lower and upper layers which are synthetic non-woven material that freely passes water, between which there is an inner layer of sorption material n based fibrous sheet material of organic or inorganic origin, modified nanoscale particles of alumina hydrate, intended for fine-water purification and water purification from microorganisms, wherein the inner layer is formed as a smooth belt formed of a plurality of layers of the sorption material. The second version of the cartridge filter element contains a perforated tube and a layered filter material formed around it, connected by end parts, the filter material formed around a perforated tube in the form of a cylindrical roll, made in the form of a “sandwich”, the lower and upper layers of which are synthetic non-woven material, freely water-permeable, between which there is an inner layer of sorption material based on a fibrous sheet material of organic or ganic origin, modified nanoscale particles of alumina hydrate, intended for fine-water purification and water purification from microorganisms, wherein the inner layer is a corrugated tape formed of a plurality of layers of the sorption material.

Description

The utility model relates to devices for cleaning liquids, in particular, to filters for treating drinking water, and can be used in the food and medical industries.

One of the main components of various water treatment systems are replaceable filter elements, called either cartridges or cartridge filters.

Such filter elements are often made of non-woven materials, providing various types of filtration.

Known cartridge filter [WO 93/09862, IPC 7 01 D 27/06, 1993], containing a pleated PTFE filter membrane with supporting grids on both sides to avoid deformation during filtration. The supporting grid is made in the form of non-woven sheets of thermally bonded PTFE fibers. The filter membrane is fixed around the porous core. The ends of the filtering membrane, the core and the supporting shell surrounding the membrane are attached to the end caps and thermoplastic polymer or the end adapter by melting.

Known [RU 2183493 C2, 2002] the cartridge filter element includes a pleated filter film and an inner perforated tube connected to the end parts. The filtering film is made of polytetrafluoroethylene and has an average pore size of from 1 to 100 microns with an effective porosity of at least 40%, a thickness of 100-900 microns, preferably 300-600 microns, while the inner surface of the film is shaped in the form of protrusions; point, extended, with a height equal to 20% of the film thickness. The inner perforated tube and the end parts of the filter element are also made of polytetrafluoroethylene. The inner perforated tube and the corrugated filter film formed around it on both sides are connected by welding to the end parts so that the fluid flow in the welding zones is excluded. The filter element may also have external support elements in the form of a perforated frame or belts made of polytetrafluoroethylene. One or both end parts of the filter element may have a seat for connection with the filter holder or with each other.

The disadvantage of both analogues is the material from which the main filter element is made, which does not provide microbiological treatment of water.

As the closest analogue, a filter element for precise filtration was selected, having a uniform pore diameter and undeformable during filtration. The filter element is used to effectively remove germs and fine particles. For this, a layered material is formed from a plurality of layers of a nonwoven web of fibrous polypropylene, by rolling through heating rolls. Further, such a multilayer material is corrugated. The filter element consists of a porous support cylinder on which a layered material is installed, the ends of which are fixed to the end caps and are made of polypropylene resin. An external porous mesh cylinder covers the pleated multilayer filter media.

The disadvantage is the material from which the filter medium is formed - polypropylene, which does not have the ability to effectively absorb microorganisms.

The objective of the utility model is to develop a replaceable filter element for the effective removal of negatively charged particles from the water, including microbiological contaminants, mainly bacteria and viruses.

The technical result is a high degree of purification.

The task and technical result is achieved in that, like the well-known cartridge filter element, it contains a perforated tube and a layered filter material formed around it, connected by end parts.

What is new is that the filter material formed around the perforated tube in the form of a cylindrical roll is made in the form of a “sandwich”, the lower and upper layers of which are synthetic non-woven materials that freely pass water, between which there is an inner layer of sorption material based on fibrous sheet material organic or inorganic origin, modified with nanosized particles of aluminum oxide hydrate, designed for fine water purification and water purification t of microorganisms, while the inner layer is made in the form of a smooth tape formed from many layers of sorption material.

In addition, the total thickness of many layers of sorption material is at least 2 mm.

In addition, as a synthetic non-woven material using sheet polymer material with a pore size of 10-100 microns.

In addition, a filter element formed around a perforated tube is fitted with a support element, such as a polymer mesh.

In addition, the end parts have means for attaching them to the filter holder.

The task and technical result is also achieved by the fact that, like the well-known cartridge filter element, it contains a perforated tube and a layered filter material formed around it, connected by end parts.

What is new is that the filter material formed around the perforated tube in the form of a cylindrical roll is made in the form of a “sandwich”, the lower and upper layers of which are synthetic non-woven materials that freely pass water, between which there is an inner layer of sorption material based on fibrous sheet material organic or inorganic origin, modified with nanosized particles of aluminum oxide hydrate, designed for fine water purification and water purification t of microorganisms, while the inner layer is made in the form of a corrugated tape formed from many layers of sorption material.

In addition, the total thickness of the corrugated layer of sorption material is at least 2 mm.

In addition, as a synthetic non-woven material using sheet polymer material with a pore size of 10-100 microns.

In addition, a filter element formed around a perforated tube is fitted with a support element, such as a polymer mesh.

In addition, the end parts have means for attaching them to the filter holder.

In the proposed variants of the replaceable cartridge filter element, a filter material is used that contains a layer of sorption material based on fibrous sheet material of organic or inorganic origin, modified with nanosized particles of aluminum oxide hydrate, capable of creating an electric potential of 100-150 mV even when in contact with distilled water. Such an electropositive fibrous material removes microbiological contaminants from water due to electrokinetic retention of negatively charged particles. In this case, high adsorption rates are observed, which

makes it possible to create compact and high-performance equipment for water purification.

Filter material is a “sandwich” containing an inner layer of electropositive fibrous material, which is a smooth or corrugated tape made of many of these layers. It was experimentally established that for effective sorption, the total thickness should be at least 2 mm, with a cartridge length of 125 mm and a diameter of 65 mm. The lower and upper layers of the “sandwich” are made of synthetic non-woven material that freely passes water.

If the filter material has the shape of a corrugation, the winding on the perforated sleeve is made in such a way that the corrugations retain their geometry. To this end, the inner layer has an additional support layer, also made of synthetic non-woven material.

Figure 1 shows a cartridge filter element (in section), in which the filter material has an inner layer in the form of a smooth ribbon.

Figure 2 shows the appearance of the cartridge filter element.

Figure 3 shows a cartridge filter element (cross section), in which the filter material has an inner layer in the form of a smooth ribbon.

Figure 4 shows a cartridge filter element (cross section), in which the filter material has an inner layer in the form of a corrugated tape.

The cartridge filter element (Fig. 1) contains a perforated tube 1, on which a filter material with an inner layer 2 is formed in the form of a cylindrical roll, end parts 3, 3 ′ are two adapters located at the ends of the filter element mechanically connected with a perforated filter tube 1 material with an inner layer 2 and a polymer mesh 4, worn on the filter material, the inner layer 2 is placed between the two outer layers (upper and lower) 5 and 5 ′.

Adapters 3, 3 ′ do not allow filter material to move along the perforated tube 1 and serve to attach the element to a filter holder (not shown).

A cylindrical roll of filter material pre-made in the form of a “sandwich” is formed on a perforated tube 1 made of low-pressure polyethylene, whose inner layer 2 is obtained by adding 14 layers (total thickness ~ 2 mm) of filter material based on the Petryanov filter

FPA-15-2.0, modified with nanosized particles of aluminum oxide hydrate, having a size of ~ 0.1 μm, a specific surface of ~ 250 m ² / g and porosity of ~ 0.2 g / cm ³ .

When using a corrugated tape, 4 layers of the above filter material are folded.

The lower and upper layers 5 and 5 ′ (FIG. 3) are made of low pressure polyethylene with sizes of elementary pores from 10 to 100 μm, an additional supporting layer 6 is made of the same material (FIG. 4).

Adapters 3, 3 ′ and polymer mesh 4 are also made of low pressure polyethylene.

Figure 2 shows the design in case the filter material 2 has corrugations. In this case, the winding on the perforated tube 1 is made in such a way that the corrugations retain their geometry.

The cartridge filter element with filter material, the inner layer of which is formed in the form of corrugations, works as follows.

The filter element is mounted in the seat of the filter holder (not shown). Filtered fluid supplied to the filter holder body passes through the pores of the synthetic non-woven fabric layer 5 ′, enters the inner layer 2, in which the electrokinetic retention of negatively charged particles - bacteria and viruses, passes through the synthetic non-woven fabric layers 5 and 6, passes in the gap between folds, then through the perforated inner tube 1 into the inner cavity of the filter element and through the outlet of the filter holder (not shown) gets to the consumer.

When the size of the filter element is 125 mm long and 65 mm in diameter, in the case of corrugated tape, the total surface area is S = 0.05 m ² with a maximum volume of water passing 2.5 m ³ / h and a maximum service life of 50 · 10 ⁹ PFU, in the case of using a smooth tape, the total surface area S = 0.25 m ² with a maximum volume of transmitted water of 1.25 m ³ / h and a maximum service life of 25 · 10 ⁹ BOE.

Particles of contaminants larger than the pore diameter of the synthetic non-woven material are retained on its surface.

The utility model can be used mainly in drinking water supply, in household filters for finishing water purification.

Claims (11)

1. A cartridge filter element comprising a perforated tube and a layered filter material formed around it, connected by end parts, characterized in that the filter material formed around the perforated tube in the form of a cylindrical roll is made in the form of a “sandwich”, the lower and upper layers of which are synthetic non-woven material that freely passes water, between which there is an inner layer of sorption material based on fibrous sheet material of organic and whether it is of inorganic origin, modified by nanosized particles of aluminum oxide hydrate, designed for fine purification of water and purification of water from microorganisms, while the inner layer is made in the form of a smooth tape formed from many layers of sorption material. 2. The cartridge filter element according to claim 1, characterized in that the total thickness of the plurality of layers of the sorption material is at least 2 mm. 3. The cartridge filter element according to claim 1, characterized in that as a synthetic non-woven material using a sheet of polymeric material with a pore size of 10-100 microns. 4. The cartridge filter element according to claim 1, characterized in that a support element, for example, a polymer mesh, is worn on the filter material formed around the perforated tube. 5. The cartridge filter element according to claim 1, characterized in that the end parts have means for attaching them to the filter holder. 6. Cartridge filter element containing a perforated tube and a layered filter material formed around it, connected by end parts, characterized in that the filter material formed around the perforated tube in the form of a cylindrical roll is made in the form of a “sandwich”, the lower and upper layers of which are synthetic non-woven material that freely passes water, between which there is an inner layer of sorption material based on fibrous sheet material of organic and whether it is of inorganic origin, modified by nanosized particles of aluminum oxide hydrate, intended for fine purification of water and purification of water from microorganisms, while the inner layer is made in the form of a corrugated tape formed from many layers of sorption material. 7. The cartridge filter element according to claim 6, characterized in that the total thickness of the plurality of layers of the sorption material is at least 2 mm. 8. The cartridge filter element according to claim 6, characterized in that a support layer of synthetic non-woven material is additionally applied to the plurality of layers of sorption material. 9. The cartridge filter element according to claim 6 or 8, characterized in that as a synthetic non-woven material use sheet polymer material with a pore size of 10-100 microns. 10. The cartridge filter element according to claim 6, characterized in that a filter element formed around a perforated tube is equipped with a support element, for example, a polymer mesh. 11. The cartridge filter element according to claim 6, characterized in that the end parts have means for attaching them to the filter holder.