SU1366182A1 - Self-cleaning filter - Google Patents

Description

The invention relates to the field of purification of liquids and can be used to filter fuels and oils in systems of internal combustion engines. Inventions allow-. It does not increase the filter life and the efficiency of its regeneration by reducing the amplitude of pressure pulsations. Filtered fluid enters

chamber 5 through nozzle 2. Then it is filtered in filtering elements 7 and discharged through nozzle 3. At the same time, regeneration is carried out, for this the rotary mechanism 11 rotates spool 13 uniformly, combining one or the other nozzle 10 with filtering elements 7 different ring rows and through Windows 18 and 19 with branch pipe 9. At each moment of time, only one filter element 7 regenerates. After the spool 13 has completed a full rotation, the stepping mechanism 12 rotates the branch pipe 3 so that window 19 is one series of annular filter elements, combined with the window before turning 18, is combined with a bridge between the windows 18, and vice versa, box 19 of another annular array combined. with a window 18. 1 Il.

with

<C

1366182 A1

one

2

The invention relates to the field of purification of liquids and can be used to filter fuels and oils in the systems of internal combustion engines.

The aim of the invention is to increase the service life of the filter and the efficiency of its regeneration by reducing the amplitude of the pressure pulsations.

The drawing shows a filter, a longitudinal section.

The filter includes a housing 1 with nozzles 2 and 3 for the supply and removal of fluid, respectively. The housing 1 is divided by a partition 4 into chambers 5 and 6 of the source liquid and filtrate, respectively. The filter elements 7 are installed in annular concentric rows on the partition 4. Regenerating device 8 contains a branch pipe 9, suction suction nozzles 10, a rotary 11 and a stepper 12 mechanisms and a spool 13. The number of nozzles 10 is equal to the number of annular rows (in the drawing there is a filter with two annular rows 14 and 15 and, respectively, with two pipes 10). The spool 13 is made in the form of a glass 16, telescopically mounted rotatably on the branch pipe 9. The glass 16 is connected to a rotary 11 and a stepper 12 mechanisms. Windows 18 and 19 are provided on the side walls 17 of the branch pipe 9 and glass 16, respectively. The window 19 is in communication with the nozzles 10, the stepping mechanism 12 is kinematically connected with the branch pipe 9.

Self-cleaning filter works as follows.

The source fluid through the pipe 2 enters the chamber 5, passes through the filter elements 7, is cleaned, enters the chamber 6 of the filtrate and is discharged through the pipe 3.

Regeneration of the filter elements 7 is as follows.

The rotary mechanism 11 evenly rotates the cup 16 connected with it and, together with the last nozzle 10, alternately combining their inlets with all the filter elements of the corresponding row, and the windows 19 with the windows 18 of the branch pipe 9. At the moment the filtering element undergoes regeneration 1366182

Ment one row, the window 19 of the pipe 10 of the other row is blocked by a bridge between the windows 18 of the branch pipe 9 and vice versa. Thus, only one filter element is regenerated at the same time, while the contaminants enter first into the corresponding nozzle 10, and then into the 1θ discharge pipe 9. After the spool 13 performs a full “turn, the stepping mechanism 12 turns the discharge pipe so that 19 in one row, communicated in front of the turn with a window 18 of the branch pipe,

is blocked by a jumper between windows 18, and a window 19 of another row, which was blocked by a jumper, communicates with window 18. After this, the 20th cycle is repeated, and the filter elements that have not been cleaned in the previous cycle are regenerated. Thus, regeneration of all filter elements is carried out.

The invention makes it possible to increase the service life of an autonomous non-serviced filter operation, due to better regeneration of the filter elements, which is achieved by increasing the speed of the return / leaching. flow, as well as a decrease in the amplitude of pressure pulsations in the filter cavity. As a result, the efficiency of cleaning the fluid increases, the period of its service in the hydraulic system, the wear rate of the hydraulic system parts decreases.

40

Claims (1)

A self-cleaning filter comprising a housing with liquid inlet and outlet connections, divided by a partition into the chambers of the initial liquid and filtrate, filtering elements arranged in circular concentric rows and a regenerating device containing a discharge pipe, a pollution suction nozzle and 50 rotary mechanism, characterized in that, in order to increase the filter life and the efficiency of its regeneration by reducing the amplitude of the pressure pulsations, the filter 55 additionally equipped with nozzles suction, stepper mechanism and spool, the number of suction nozzles equal to the number of ring rows the spool is made in the form of glass 3 1366182 four telescopically mounted with the possibility of rotation on the branch pipe and rigidly connected to the rotary and stepping mechanism and suction nozzles, while on the side walls of the bypass pipe and glass there are windows, the last of which are connected with suction nozzles