RU2445146C1 - Edge filter - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to filtration of fluids and may be used in various industries for cleaning low-viscosity fluids, e.g. water, kerosene, gasoline etc, on mechanical impurities. Proposed edge filter comprises tube with its filtration sections provided with perforations, filtration element made up of coiled wire, and spring. Filtration element is arranged concentrically with said tube between fixed bottom support element and moving two-side thrust in annular clearances between tube OD and inner diameters of bottom support element and moving two-side thrust, to rest on annular section of every said element. Spring with initial force exceeding elastic deformation of filtration element spring to allow tight fit of filtration element wire coils is arranged between two-side moving thrust and top moving thrust, in annular clearances between tube OD and inner diameters of bottom support element and moving two-side thrust, to rest on annular section of every said element.

EFFECT: improved self-cleaning, longer life, lower operating costs.

3 cl, 11 dwg

Description

The invention relates to a device for filtering liquid media and can be used in various industries where effective cleaning of low-viscosity liquid media, such as water, kerosene, gasoline, acetone, diesel fuel and others, from mechanical impurities is required.

Known well filter containing a perforated housing with a sleeve mesh placed along it, worn on a cylindrical spring support frame (Patent 2133820, IPC ЕВВ 43/08, published July 27, 1999).

A filter is known which comprises a perforated housing, a cylindrical spring support frame provided with a plug fixed to its lower end, a hose mesh stretched over the support frame and made in the form of a mesh tape spirally wound with overlapping turns on the support frame so that the turns of the mesh tape are installed with the possibility of their sliding relative to each other when compressing or stretching the cylindrical spring support frame. The upper end of the mesh tape is fixed in the upper part of the housing together with the upper end of the cylindrical spring support frame; the lower end of the mesh tape is fixed to said plug; the amount of overlap h - the distance between the lower edge of the overlapped turn of the mesh tape and the upper face of the next overlapping turn of the mesh tape - is from 2/3 N to 1/3 H, where H is the width of the mesh tape (RF Patent No. 2203366, IPC E03B 3 / 18, ЕВВ 43/08, published on April 27, 2003).

A filter is known that includes a frame and filter elements that are closely packed with alternating radial grooves and protrusions, which are made on each filter element on both sides opposite each other, while the protrusions of one filter element enter the grooves of the other (AS USSR No. 1076572, IPC ЕВВ 43/08, published on 02/28/1984).

A known filter comprising a perforated frame with a wire filter element laid on it with protrusions that have an ellipse in cross section (AS USSR No. 1645470, IPC ЕВВ 43/08, published April 30, 1991).

A well-known slotted filter with a wire filter element containing a perforated pipe with a nipple and coupling parts, which concentrically has a filter element made of spiral wound wire connected to longitudinal wire stringers, the wire is laid in a spiral to turn, and at least on one of the contacting sides of the wire has a notch providing a filter gap, while the notch on the wire is tangential or intersecting. The profile of the notch can be made rectangular, triangular or semicircular. The wire of the filter element is made of stainless steel (RF Patent No. 2378494, IPC Е21В 43/08, published January 10, 2010).

The disadvantage of these filters is the quick clogging of the filter element with mechanical impurities, which reduces the throughput of the downhole filter, the insufficient efficiency of self-cleaning negatively affects the reliability and durability of the downhole filter, increases the cost, since there is a need for periodic replacement of the filter elements.

The objective of the invention is to increase the effect of self-cleaning the filter due to the periodic cleaning of the filter elements, increasing the service life of the filter, reducing operating costs.

This problem is solved due to the fact that in the slotted filter containing the pipe, the filter section of which has a perforation in the form of holes, the filter element is mounted concentrically to the pipe between the fixedly fixed lower support element in the form of a cup and a movable bilateral stop in the annular gaps between the outer diameter of the pipe and the inner diameters of the lower support element and the movable two-way stop, with support on the annular platform of each, and between the movable two-way stop and the upper movable stop in annular gaps between the outer diameter of the pipe and the inner diameters of the stops with a support on the annular platform of each spring is installed, the initial force of which exceeds the elastic deformation of the spring of the filter element, which ensures a snug fit of the coils of the wire of the filter element.

In addition, on the side surface of the movable double-sided stop, a screw holding the double-sided stop against rotation is fixed, the end of which is located in a keyway made in the pipe, while the movable double-sided stop has the possibility of axial movement along the pipe, and the length of the movement section is limited by the length of the keyway .

In addition, the filter element is made in the form of a spiral wound onto a pipe pipe, the profile of which is an isosceles triangle with rounded peaks, one of the side peaks of which is wrinkled to a depth of Δ ₁ , the collapse section alternates with a step at a constant step, while after winding onto a gap is formed between the evenly spaced protrusions at the collapse points, which is equal to the collapse value Δ ₁ , which increases during the backwashing process to the value Δ ₂ .

The invention is illustrated by drawings.

Figure 1 - General view of the slit filter.

Figure 2 - profile of the protrusion of the wire of the filter element.

Figure 3 - view a, the location of the slotted holes of the filter element.

Figure 4 - section BB, the profile of the wire of the filter element.

5 is a General view of the filter in the process of filtering the cleaned liquid.

6 is a view, filtering the liquid to be cleaned through slits equal to the amount of crushing Δ ₁ .

Fig.7 - the accumulation of sediment on the filter element.

Fig. 8 is a rinsing diagram of a filter element.

Fig.9 - the position of the turns of the wire of the filter element during washing.

Figure 10 is a diagram of the distribution of forces during washing.

11 is a view of D, the removal of sediment from the filter element.

The slotted filter consists of a pipe 1, the filter section of which has a perforation in the form of holes 2, a key groove 3 is made on the outer surface of the pipe 1, a connecting thread is provided at the pipe end 4. The length of the perforated section L and the number of holes are determined by the required performance. At the lower end of the pipe 1, a plug 5 is installed and the lower support element 6 is fixedly fixed in the form of a cup, a filter element 7 is installed in the annular gap between the inner diameter of the support element 6 and the outer diameter of the pipe 1 with support on the annular pad, which is a spiral wound concentrically to the pipe 1, the wire 8, the profile of which is an isosceles triangle with rounded peaks, one of the side peaks of which is wrinkled to a depth of Δ ₁ , the crushing section alternates with a constant pitch with high dull 9. After winding onto the pipe 1 of the wire 8 between the evenly spaced protrusions 9, crevice holes 10 are formed at the places of collapse, the initial width of which is equal to the amount of collapse Δ ₁ , which increases during the backwash to Δ ₂ . The other end of the filter element 7 is mounted based on the annular platform of the movable double-sided stop 11 in the annular gap between its inner diameter and the outer diameter of the pipe 1, on the lateral surface of the movable double-sided stop 11 a clamp 12 is fixed in the form of a screw, which holds the bilateral stop from turning, the end of the clamp located in the keyway 3, while the movable two-way stop 11 has the ability to move in the axial direction along the pipe 1, and the length of the movement section is limited by the length of the keyway groove 3.

An upper movable stop 13 is installed in the upper part of the pipe 1, pressed by a nut 14 with a locking screw 15, which serves to adjust the compression force of the spring 16 installed between the two-sided movable stop 11 and the upper movable stop 13 into the annular gaps between the outer diameter of the pipe 1 and the inner diameters of the stops , relying on the annular platform of each, while the initial force of the spring 16 exceeds the elastic deformation of the spring of the filter element 7, which ensures a snug fit of the coils of wire 8 of the filter element 7.

Slotted filter works as follows. The liquid to be cleaned enters the filter element 7. Through the formed slots 10, equal to the crushing value Δ ₁ , the liquid to be purified is filtered. During operation, the slots 10 of the filter element 7 become clogged with deposits over time, its throughput decreases sharply. To clean the slots 10 from deposits, a backwash is performed, in which liquid is supplied into the inner space of the perforated pipe 1 and enters through the openings 2 into the space between the outer wall of the pipe and the filtering element 7, while exerting hydraulic pressure on the movable double-sided stop 11, preloaded by the spring 16 forces arise in excess of the force of the spring 16. The movable double-sided stop 11 begins to move, compresses the spring 16, the turns of the wound wire 8 of the filter element 7 are stretched. In addition, the fluid flow running from the inside to the triangular profile of the wound wire, falling on the inclined side faces, has an additional effect, contributing to the spread of the turns. In this case, the size of the slots will increase to a value of Δ ₂ and under the influence of a liquid flow, the filter element will be cleaned of impurities.

The proposed slotted filter is simple, durable, provides a high self-cleaning effect, increases reliability and reduces operating costs.

Claims (3)

1. A slit filter containing a pipe, the filter section of which has a perforation in the form of holes, a filter element in the form of a spiral-wound wire, a spring, characterized in that the filter element is installed concentrically between the fixed lower support element in the form of a cup and a movable double-sided stop in the annular gaps between the outer diameter of the pipe and the inner diameters of the lower supporting element and the movable bilateral stop, with support on the annular platform of each, and between the movable outside the upper abutment and a movable abutment in an annular gap between the outer pipe diameter and inner diameters abutments relying on the annular area of each a spring, the initial force which exceeds the elastic deformation of the filter element of the spring that ensures a snug fit of the filter element of turns of wire. 2. The slit filter according to claim 1, characterized in that a retainer in the form of a screw, the end of which is located in a keyway made in the pipe, is fixed on the lateral surface of the movable bilateral stop against rotation, while the movable bilateral stop has the ability to move axially along the pipe, and the length of the displacement section is limited by the length of the keyway. 3. The slit filter according to claim 1, characterized in that the filter element is made in the form of a spring, representing a wire wound in a spiral concentric with a pipe, the profile of which is an isosceles triangle with rounded vertices, one of the side vertices of which is wrinkled to a depth of Δ ₁ , section crushing with a constant pitch alternated with the projection, wherein after the winding on the tube uniformly disposed between the protrusions formed in places crushing gap equal magnitude crumpling Δ _1, increasing during backwash led to Δ ₂ ranks.

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