SU1699515A1 - Self-cleaning filter for liquids with counterflow washing of filter elements - Google Patents

Abstract

The invention relates to devices for filtering liquids under pressure with backwashing filter elements without turning off the filter and can be applied in the energy, transport, petrochemical and other industries for filtering fuels, oils and other liquids. The goal is to increase the efficiency of countercurrent washing of filter elements by optimizing the countercurrent parameters. The self-cleaning filter for liquids with countercurrent washing of filter elements is provided with a spatula mounted on a rotating nozzle with a guiding step adjustable in speed of the countercurrent. 3 il.

Description

The invention relates to devices for filtering liquids under pressure with backwashing filter elements without turning off the filter and can be applied in the energy, transport, petrochemical and other industries to filter fuels, populations and other liquids.

The goal is to increase the efficiency of countercurrent washing of filter elements by optimizing the countercurrent parameters.

FIG. 1 shows a general view of the filter, a section; in fig. 2 shows section A-A in FIG. ; in fig. 3 - unit I in FIG. 2

The filter has a cylindrical body 1, divided by the height of the support plate 2 into chambers. At the top

The chamber contains filtering elements 3 placed on the base plate 2 in the cylindrical windows 4 and the outlet nozzle 5. The inlet nozzle 6 and the nozzle 7 rotating around the vertical axis are placed in the lower chamber, in the lower part of which there is a blade unit with an adjustable guide step protected from the ingress of the original liquid by the shell 8. The blade apparatus includes working blades 9 fixed directly on the rotating nozzle 7, guide vanes 10 placed on vertical axes x 11 fixed in bo ttom horizontal plate 12. Fork 13 tail vane 10 oxrfatykaet rod 14 palogo lattice (1 cylinder 15. The apertures 16 in nizht n-p-shte 12 soedini05

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The internal cavity of the shell 8 through the connecting pipes 17, with an intermediate collector 18, to which the drain pipe 19 is connected. Inside the pipe 19, a flow rate meter 20 is installed. In addition, the drain pipe 19 is connected to the modular amplifier 25 via an invamoklapan (not shown). torus 23, which will change the air pressure in the bellows 22 and the latter will turn the lattice cylinder 15 by a lever 21 by a proportional angle. Rotation of the cylinder 15 will rotate the guide vanes 10 and increase the angle of attack of the flow as it enters the channels between

bone (not shown). Hollow lattice Q with working blades 9, which, in its particular cylinder 15, can be rotated around its own axis with the aid of a lever 21 and a bellows 22, which is connected through controller 23 to receiver 24, as well as to amplifier 20 and flow rate gauge 20.

The device works as follows.

The source liquid through the inlet 6 enters the lower chamber 20 of the cylindrical body 1 and then through the windows 4 in the base plate 2 inside the filter elements 3. Passing the filter seals, the filtered liquid through the outlet 5 is directed into the pipeline. Upon reaching the maximum pressure drop in the filter, the pneumatic valve opens:

This will cause an increase in the speed of rotation of the nozzle 7. The increase in the angle of rotation of the guide vanes 10 will continue until the flow rate in the nozzle 19 becomes close to optimal. With the reverse ratio of speeds, the adjustment process will also be reversed. After washing the filter elements, the rotating nozzle is stopped by closing the pneumatic valve on the nozzle 19.

The use of the invention compared with the prototype will allow

to increase the efficiency of washing the filter elements and to eliminate the filtrate overrun for washing by optimizing the speed of rotation of the nozzle

backwash coupled with collection and rinsing time; Noah capacity, located iodine atmospheric pressure. Under the action of pressure drop in the filter and collecting tank, the flow of fluid from the upper chamber rushes through the filter septum inside the filter element 3, and then through the window 4 the plate 2 into the rotating nozzle 7 and into the cavity of the lattice cylinder 15. Then through its windows between the rods 14 the flow is distributed into the channels between the guide vanes 10. An organized flow from the guide apparatus enters the working vanes. 9, drive the nozzle 7 into rotation,

reduce fuel consumption by optimizing the flow rate of the filtrate for flushing and, accordingly, reduce the energy consumption associated with the supply of fuel to the line;

increase overhaul time

in the support filter due to efficient washing and reduce labor costs associated with filter repair.

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Claims (1)

Invention Formula A self-cleaning filter for liquids with countercurrent washing of filter elements, containing a cylinder into the internal cavity of the shell, an air-cased structure divided by 8 and through the holes 16 in the bottom plate 12 through the nozzle 17 into the intermediate collector 18, and from there through the drain nozzle 19 with the flow velocity meter 20 through the pneumatic valve into the collection container. The process of controlling the rotational speed of the nozzle 7 is carried out as follows. Since the rotational speed of the nozzle 7 into the initial litter is small (and the flow rate in the nozzle 19 is substantially lower than the optimum), the flow velocity meter 20 will give proportional 50 A cell is supported on the chambers, at the top of which are placed filter elements, reinforced with a supporting plate, and an outlet, and at the bottom — an inlet and rotating around the vertical axis. washing, characterized in that, in order to increase the washing efficiency of filter elements by optimizing the parameters of the backflow, the filter is equipped with a spatula with a speed-controlled counter-flow positioned on a rotating nozzle. This will cause an increase in the speed of rotation of the nozzle 7. The increase in the angle of rotation of the guide vanes 10 will continue until the flow rate in the nozzle 19 becomes close to optimal. With the reverse ratio of speeds, the adjustment process will also be reversed. After washing the filter elements, the rotating nozzle is stopped by closing the pneumatic valve on the nozzle 19. The use of the invention compared with the prototype will allow to increase the efficiency of washing the filter elements and to eliminate the filtrate overrun for washing by optimizing the speed of rotation of the nozzle and washing time; Invention Formula Self-cleaning filter for liquids with countercurrent washing of filter elements containing cylinder 0 The cell is supported on the chambers, in the upper of which are filter elements, reinforced with a support plate, and outlet, and in the lower - inlet and rotatable around the vertical axis. washing, characterized in that, in order to increase the washing efficiency of filter elements by optimizing the countercurrent parameters, the filter is equipped with a spatula mounted on a rotating nozzle with a speed-controlled countercurrent guide. U1 oh oh 4D