WO2021256957A1

WO2021256957A1 - Filter unit

Info

Publication number: WO2021256957A1
Application number: PCT/RU2020/000689
Authority: WO
Inventors: Иван Соломонович ПЯТОВ; Юрий Владимирович Кирпичев; Андрей Николаевич КОРЧАГИН; Лариса Владимировна ВОРОБЬЕВА; Андрей Вадимович РАДЛЕВИЧ
Original assignee: Иван Соломонович ПЯТОВ
Priority date: 2020-06-18
Filing date: 2020-12-15
Publication date: 2021-12-23
Also published as: RU2739655C1; IL294701A

Abstract

The invention relates to the field of mechanical engineering, and more particularly to filter units for use in filters for purifying liquid or gaseous media. Proposed is a filter unit consisting of annular end pieces arranged at the ends of an inner cylindrical permeable cage, between which one or a number of filter elements are arranged, said filter elements being configured in the form of solids of revolution with a concentric hole, made of a permeable material in the form of a pressed metal wire blank. Both ends of each filter element and one end of each annular end piece are designed to be congruent with one another in the form of zigzag-shaped locks. The proposed invention is directed toward achieving the technical result of improving the performance of a filter unit by providing for the leak-tight connection of filter elements to one another and to the end parts.

Description

FILTER BLOCK

The invention relates to the field of mechanical engineering, in particular to filtering blocks used as part of filters for purifying liquid and gaseous media.

A well-known filter of a borehole pump containing a cylindrical body made of a segment of a perforated pipe and a filtering system located outside the cylindrical body. The filtering system is made of filtering elements in the form of a tubular element made of a permeable material made of a spiral wire "metal rubber" and is installed on a centralizer, which is located in an annular cavity between the body and the filtering system, and the filter is additionally equipped with an adjusting washer. According to an embodiment, the centralizer is made of rings in the form of a tee or an I-beam in cross-section, the rings are installed between adjacent filtering elements with coverage of their ends (according to patent RU89188, class F03D 29/00, publ. 27.11.09).

The disadvantage of this filter is that the filter elements are interconnected by metal rings in the form of a tee or an I-beam, which does not provide a tight connection between the filter elements, and also reduces the filtration area.

A filter module is taken as a prototype, which contains a filter module, which is a block of self-contained replaceable filter sleeves. Each block contains a centralizer made in the form of an annular cylindrical, preferably thin-walled frame, installed coaxially to the filter element adjacent to its inner cylindrical surface, and an additional centralizer made in the form of an annular cylindrical, preferably thin-walled frame, installed coaxially to the filtering element adjacent to its outer surface. Moreover, both centralizers are installed coaxially to the filtering element with full adjoining to the outer and inner cylindrical surfaces of the filtering element, respectively, along the entire circumference of these cylindrical surfaces, and are rigidly connected to both ends of each block of autonomous replaceable annular filtering sleeves of the filtering element by means of annular tips made on both ends of the block (according to patent RU186587, class E21B 43/08, publ. 01.24.19).

The proposed technical solution does not indicate a method for connecting the replaceable filter sleeves to each other and to the ring tips. The efficiency of the filter module will largely depend on the reliability of their connection.

The technical result to be achieved by the present invention is to increase the efficiency of the filter unit by ensuring the tightness of the connection of the filter elements between themselves and the end parts.

The specified technical result is achieved by the fact that the filtering unit consists of annular tips located at the edges of the inner cylindrical permeable frame, between which there are one or more filter elements made in the form of a body of revolution with a concentric hole and made of a permeable material, which is a pressed metal wire blank , and differs in that both ends of each filter element and one of the ends of each ring tip are made congruent to each other in the form of zigzag locks.

In addition, an outer cylindrical permeable frame can be installed on the outside.

In addition, the permeable frames can be made of stainless steel wire.

In addition, the permeable frameworks can be made from a perforated pipe.

In addition, the filter elements can be installed concentrically in several layers with displacement of the ends of the filter elements of one layer relative to the ends of the filter elements of the other layer.

In addition, the locks can be made with abutting end surfaces, while one lock is made in the form of a cylindrical protrusion, and the other lock is in the form of a cylindrical groove.

In addition, the locks can be made with abutting end surfaces, while one lock is made in the form of an external cone, and the other lock is in the form of an internal cone.

In addition, the abutting end surfaces can be perpendicular to the axis of the filter element, made at an angle to the axis and be parallel to each other.

The invention is illustrated by the following drawings, which show a particular case of its implementation:

FIG. 1 - filtering block;

FIG. 2 - filtering block with an external cylindrical permeable frame;

FIG. 3 - filter element with locks in the form of a cylindrical protrusion and groove, longitudinal section; FIG. 4 - filter element with locks in the form of external and internal cones, longitudinal section;

FIG. 5 - filter element with thrust end surfaces made at an angle, longitudinal section;

FIG. 6 - filter module;

FIG. 7 - hanging filter.

The filter unit (Fig. 1) consists of ring tips 1, an inner cylindrical permeable frame 2 made of wire, and filter elements 3 made of a permeable material, which is a pressed metal wire blank. Ring lugs 1 are fixed at the edges of the inner cylindrical permeable frame 2 with pins 4.

FIG. 2 shows a variant of the filter unit, additionally containing an outer cylindrical permeable frame 5 made of wire, which, like the inner frame 2, is fixed with pins 4.

Alternative options for fixing frames 2 and 5 are possible, for example, using cotter pins, screws, rivets, retaining rings, rubber rings (including swellable rubber), metal rings (including U-shaped, L-shaped), rolling frames, welding.

Filter element 3 (Fig. 3) is a body of revolution with a concentric hole 6. The ends of the filter element are made in the form of congruent locks 7 and 8. Lock 7 is a cylindrical groove 9 with thrust end surfaces 10 and 11, and lock 8 is a cylindrical protrusion 12 with stop end surfaces 13 and 14. FIG. 4 shows a filter element with locks in the form of an inner cone 15 with abutment end surfaces 10 and 11 and an outer cone 16 with abutment end surfaces 13 and 14.

FIG. 5 shows a filter element with stop end surfaces 10 and 13, 11 and 14, made at an angle ai and a ₂ to the axis of the filter element, respectively. The angles _\ and a ₂ can be equal to each other.

Ring lugs 1 from one end have the same configurations of locks as filter elements 3.

Application.

The filtering unit can be used as part of a downhole filtering module (Fig. 6), which contains a head 15 and a base 16, connected by a housing 17, outside of which a filtering unit 18 is coaxially installed. An annular cavity 19 between the housing 17 and the filtering unit 18 is connected to the outlet cavity 20 module by means of holes 21 in the head 15. Inside the housing 17, the shaft 23 is mounted on the bearing supports 22.

Also, the filter unit can be used as part of a downhole suspension filter (Fig. 7), which contains a perforated housing 24 with threads 25 at the ends, outside of which a filter unit 18 is coaxially installed, secured from axial movement by rings 26 and screws 27. One of the ends of the suspension filter closed with a plug 28.

The use of filtering filter elements and ring tips, connected to each other by means of zigzag locks congruent to each other, as part of the block, makes it possible to achieve a tight tight connection between the filter elements and the ring tips.

Thus, the solutions used in the invention can improve the efficiency of the filter unit by providing the tightness of the connection between the filter elements and the end parts and thereby contribute to the achievement of the technical result.

Claims

CLAIM

1. A filter block, consisting of annular tips located at the edges of the inner cylindrical permeable frame, between which one or more filter elements are located, made in the form of a body of revolution with a concentric hole and made of a permeable material, which is a pressed metal wire blank, and characterized by the fact that both ends of each filter element and one of the ends of each ring tip are congruent to each other in the form of zigzag locks.

2. The block according to claim 1, characterized in that an outer cylindrical permeable frame is installed on the outside.

3. Block according to claim 1 or 2, characterized in that the permeable frame is made of stainless metal wire.

4. Block according to claim 1 or 2, characterized in that the permeable frame is made of a perforated pipe.

5. Block according to claim 1 or 2, characterized in that the filter elements are installed concentrically in several layers with the ends of the filter elements of one layer offset relative to the ends of the filter elements of the other layer.

6. Block according to claim 1 or 2, characterized in that the locks of the filter elements and ring tips are made with stop end surfaces, one lock being made in the form of a cylindrical protrusion, and the other lock in the form of a cylindrical groove.

7. Block according to claim 1 or 2, characterized in that the locks of the filter elements and ring tips are made with stop end surfaces, one lock being made in the form of an external cone, and the other lock in the form of an inner cone.

8. A block according to claim 6 or 7, characterized in that the stop end surfaces of the filter element locks and ring tips are perpendicular to the filter element axis.

9. A block according to claim 6 or 7, characterized in that the stop end surfaces of the filter element locks and ring tips are made at an angle to the filter element axis.

10. The block according to claim 9, characterized in that the stop end surfaces of the filter element locks and the annular tips are parallel to each other.