RU2407580C1 - Cartridge filter (versions) - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention serves to clean fluids of impurities. Filter comprises casing, cartridge grid, purified and initial fluid chamber, tangential inlet branch pipe, porous permeable web separating pre-purified fluid chamber from initial fluid chamber, the former accommodating filtration element. In compliance with first version, porous permeable web represents a hollow cylinder arranged vertically in initial fluid chamber with its bottom end stopped and attached to guide element bottom part inner surface, while its top end is open and communicates its inner space with pre-purified fluid chamber. In compliance with second version, porous permeable web represents two hollow cylinders arranged vertically in initial fluid chamber with cylinder bottom end stopped and attached to guide element bottom part inner surface, while its top end is open and communicates its inner space impermeable web. Inner hollow cylinder top open end communicates with pre-purified fluid chamber. Outer hollow cylinder top end is closed by annular impermeable web.

EFFECT: higher efficiency.

4 dwg

Description

The invention relates to a device for cleaning neutral and aggressive liquids from mechanical impurities by filtration, in particular for cartridge filters, and can be used for microfiltration in all industries where thin highly efficient cleaning of liquid media from dispersed particles is required.

Known cartridge filter (RF patent No. 2040306, B01D 27/08, 07/25/1995), containing a bottom with rigidly fixed nozzles for supplying and discharging liquid, a removable cylindrical housing in which the filter elements are concentrically arranged, a dividing wall connected by a pulling rod with a pressure a device acting on the filter elements, the locking device and the annular sealing gaskets, while the dividing wall contains conical bevels converging at an angle towards each other, in which the end Grooves are made thrice and ring seals are installed in them, a removable cylindrical body and the bottom contain conical flanges made with the same angle of inclination equal to the angle of inclination of the bevels of the dividing wall, and filter elements are made with pore sizes increasing from the center to the periphery.

The disadvantage of the analogue is the low efficiency of the filter, because due to the lack of rotational movement of the liquid, it becomes clogged with large and small particles, which shortens the life of the filter elements, and cleaning the filter elements requires disassembly.

Known filter cartridge (RF patent No. 2050928, B01D 27/04, 12/27/1995) for cleaning liquids, containing a vertical housing with a bottom and a removable cover, inlet and outlet pipes and mounted along the axis of the housing a cylindrical filter element made, for example, of polyvinyl formal equipped with a distribution element made in the form of a cylindrical perforated ring, hermetically attached to the bottom and bottom of the filter element, and a corrugated tube of elastic material, hermetically attached to the covers e and to the upper part of the filter element, while the supply pipe is attached to the bottom, and the outlet to the cover.

The disadvantage of the analogue is the low efficiency of the filter, because the fluid flow velocity vector is directed perpendicular to the surface of the filter elements.

A known cartridge filter (RF patent No. 2058802, B01D 27/00, 04/27/1996), comprising a housing divided by a tube plate into the upper and lower chambers, filter cartridges with protective cases, fixed with open ends in the tube plate and mounted vertically in the lower chamber, and nozzles with gate valves, the protective cases being made of openly porous elastic material and provided with perforated clips of rigid material, and the upper and lower chambers are equipped with two additional nozzles with gate valves.

The disadvantage of the analogue is the low efficiency of the filter, the complexity of the design and operation.

A cartridge filter is also known (USSR author's certificate No. 1274724, B01D 27/06, 07/05/1984), comprising a housing divided by the height of the cartridge grill into a source fluid chamber having a tangentially located inlet nozzle and a purified fluid chamber with a cartridge located in it on the cartridge the lattice of filtering elements, while the filter is equipped with a guide element located in the chamber of the initial liquid, made in the form of a reverse truncated cone with a spiral adjacent the upper edge to the outer surface of the truncated cone, connected to the cartridge grill, and the spiral is connected to the housing by means of a detachable connection.

The disadvantage of the filter is the low efficiency of the filter, a high drop in hydraulic resistance on the filter, due to the limitation of the working surface of the filter elements and the design of the filters.

The closest in technical essence and the achieved result to the claimed one is a cartridge filter (RF patent No. 2352381, B01D 27/14, 04/28/2009) containing a housing divided in height by a cartridge grate with filtering elements fixed on it onto the source liquid chamber, which has a tangential located inlet pipe and provided with a guide element made in the form of a reverse truncated cone, and a chamber of purified liquid, while containing a porous permeable partition that separates in height from the chamber of the original dkosti preliminarily purified liquid chamber, wherein filter elements are arranged, and a reverse truncated cone is connected with a porous septum permeable and has on the outer surface of the guide vanes.

The disadvantage of the closest analogue is the limited area of the porous septum and the inability to increase it, while the fluid velocity vector has a small angle, which “compresses” the contamination into the surface of the porous septum.

The objective of the invention is to increase the efficiency of the filter by increasing the area of the filtering surface of the porous permeable septum, enhancing the dynamic effect, which ensures a longer operation of the filter between preventive cleaning operations.

The task according to the first embodiment is achieved by the fact that in the cartridge filter comprising a housing divided by the height of the cartridge grill into a purified liquid chamber and a source liquid chamber having a tangentially located inlet pipe provided with a guide element connected to a porous permeable partition separating in height from the chamber of the source fluid, the chamber of the pre-purified fluid in which the filter element is located, according to the invention, the porous permeable partition is made in in the form of a hollow cylinder located vertically to the source fluid chamber, the lower end of which is closed and fastened by strips to the inner surface of the lower part of the guide element so that the surface area of the ring formed by the diameters of the inner surface of the guide element and the outer surface of the hollow cylinder as a result of the horizontal section of the place their fastening in the lower part should be greater than or equal to the area of the inlet of the guide element or inlet pipe, and The upper end of the hollow cylinder is open and connects its inner cavity to the chamber of the pre-purified liquid, hermetically attached along the circumference of its outer surface to the inner surface of the filter housing through an impermeable partition.

The task according to the second embodiment is achieved by the fact that in the cartridge filter containing a housing divided by the height of the cartridge grill into a purified liquid chamber and a source liquid chamber having a tangentially located inlet pipe provided with a guide element connected to a porous permeable partition separating in height from the chamber of the source fluid, the chamber of the pre-purified fluid in which the filter element is located, according to the invention, the porous permeable partition is made in in the form of two hollow coaxial cylinders located vertically in the source fluid chamber, the lower end of the inner hollow cylinder is closed and fastened with straps to the inner surface of the lower part of the guide element, and the outer hollow cylinder has an open lower end and is attached to the inner surface of the guide element on the outer surface with impermeable partitions, while the surface area is limited by the inner diameter of the outer cylinder and the outer diameter of the inner cylinder, should be b is greater than or equal to the area of the inlet of the guide element, and the upper open end of the inner hollow cylinder is connected to the chamber of the pre-cleaned liquid, the upper end of the outer hollow cylinder is closed by an annular impenetrable partition, and the upper ends of both coaxial hollow cylinders are fixed by strips to the inner surface of the filter housing.

The invention is illustrated by drawings. Figure 1 shows a cartridge filter according to the first embodiment. Figure 2 shows the cartridge filter according to the second embodiment.

The cartridge filter according to the first embodiment comprises a housing 1, divided by the height of the cartridge grill 2 into a chamber of purified liquid 3 and a chamber of the initial liquid 4, including a tangentially located inlet pipe 5, a guide element 6, in which the porous permeable partition 7 is arranged vertically, made in the form of a hollow cylinder, the lower end of which is closed, and separating from the chamber of the source liquid 4 the chamber of the pre-purified liquid 8, in which the filter element 9 is located. Porous permeable partition 7 p is positioned in the chamber of the initial liquid 4 and is attached with its lower end to the inner surface of the guide element using the straps 10. The upper end of the porous permeable septum 7 is attached to the inner surface of the filter housing using an impermeable partition 11.

The cartridge filter according to the second embodiment is characterized in that the porous permeable septum is made in the form of two hollow coaxial cylinders of the outer 7, the lower end of which is open, and the inner 12, located vertically in the chamber of the initial liquid 4, and separates the chamber of the pre-purified liquid from the chamber of the initial liquid 4 8, in which the filter elements 9 are located. The lower end of the inner cylinder 12 is fastened by straps 10 to the inner surface of the lower part of the guide element 6. The upper end of the outer hollow qi Lindra 7 is closed by an annular impenetrable partition 11.

The cartridge filter works as follows. The source fluid is fed into the lower part of the filter housing 1 into the chamber of the source fluid 4 through a tangentially located inlet pipe 5. In this case, the guiding element 6 enhances the tangential effect acting on the mechanical impurities in the fluid by increasing the angular velocity of the fluid. Particles having a large mass are discarded by centrifugal forces to the inner surface of the housing wall and move downward under the influence of gravitational forces, settle in the lower part of the chamber of the initial liquid 4. Next, the liquid through the hole located in the lower part of the guide element 6 enters its inner cavity where it moves upward along the porous permeable septum 7 forming the surface of the hollow cylinder, the axis of which is located vertically and parallel to the velocity vector of the initial fluid. The porous permeable partition 7 is located in the source fluid chamber and is attached in the lower part to the inner surface of the guide element 6 using straps 10, and in the upper part to the filter housing 1 using an impermeable partition 11, which separates the height of the filter housing 1 from the source chamber liquid 4 to the chamber of the pre-purified liquid 8. Thus, the initial liquid from the chamber of the initial liquid 4 enters the chamber of the pre-purified liquid through a porous permeable partition on the outer surface STI is deposited mechanical impurities up to a granulation composition. In the chamber of the pre-purified liquid 8, filter elements 9 are located, which are mounted on the cartridge grill 2, separating the chamber of the purified liquid 3 from the chamber of the pre-purified liquid 8. Then the liquid, moving in the chamber of the pre-purified liquid 8 along the axis of the filter elements 9, seeps through their walls and enters the chamber of the purified liquid 3. In this case, smaller particles are deposited on the outer surface of the filter elements, and the purified liquid is discharged from the upper part of the filter housing a - chambers of the purified liquid 3.

According to the second option, in order to increase the surface area of the porous permeable septum, the latter is made in the form of two hollow coaxial cylinders: the outer 7, the lower end of which is open, and the inner 12, which are located vertically in the chamber of the initial liquid 4, as in the first embodiment, in the inner cavity of the guide element 6. Using the straps 10, the lower parts of the two hollow coaxial cylinders 7 and 12 are attached to the inner surface of the filter housing 1. At the same time, the liquid moving upward along the generatrices of the inner cylinder 12 and the inner surface of the outer cylinder 7 will seep through their porous surfaces into the cavities connected to the chamber of the pre-purified liquid 8. In this case, the impermeable partition 11 provides the flow of the original liquid into the chamber of the pre-purified liquid only through the porous permeable surfaces of the two hollow coaxially located cylinders.

So, the claimed invention allows to increase the efficiency of the filter by increasing the area of both the porous septum and the filter element. In this case, the fluid velocity vector is directed along the generatrix of the surface of the cylinders, both of the porous septum and of the filter elements. This reduces the adhesion forces (adhesion) of mechanical impurities with the surface of porous permeable partitions and filter elements, increases the inter-control period of operation of the filter.

Claims (2)

1. The cartridge filter, comprising a housing, height-separated by a cartridge grill into a purified liquid chamber and a source liquid chamber having a tangentially located inlet pipe provided with a guide element connected to a porous permeable partition that separates the previously purified liquid chamber in height from the source liquid chamber, in which there is a filter element, characterized in that the porous permeable partition is made in the form of a hollow cylinder located vertically in the chamber ref one liquid, the lower end of which is closed and attached by straps to the inner surface of the lower part of the guide element so that the surface area of the ring formed by the diameters of the inner surface of the guide element and the outer surface of the hollow cylinder as a result of the horizontal section of the place of their attachment in the lower part should be greater than or equal to the area of the inlet of the guide element or inlet, and the upper end of the hollow cylinder is open and connects its inner a cavity with a chamber of pre-purified liquid, hermetically attached along the circumference of its outer surface to the inner surface of the filter housing through an impermeable partition. 2. A cartridge filter comprising a housing divided in height by a cartridge grill into a purified liquid chamber and a source liquid chamber having a tangentially located inlet pipe provided with a guide element connected to a porous permeable partition that separates a previously purified liquid chamber in height from the source liquid chamber, in which the filter element is located, characterized in that the porous permeable partition is made in the form of two hollow coaxial cylinders located vertically flaxly in the source fluid chamber, the lower end of the inner hollow cylinder is closed and secured with straps to the inner surface of the lower part of the guide element, and the outer hollow cylinder has an open lower end and is attached to the inner surface of the guide element with an impermeable partition, while the surface area limited by the inner diameter of the outer cylinder and the outer diameter of the inner cylinder, must be greater than or equal to the area of the inlet of the guide ementa and the upper open end of the inner hollow cylinder is connected to the pre-purified liquid chamber, the upper end of the outer hollow cylinder closed annular impermeable wall and the upper ends of the two coaxial hollow cylinders are fixed to the slats inner surface of the filter housing.

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