RU33874U1 - Liquid filter - Google Patents

Description

22 A 1

2 O.P ..

FILTER FOR CLEANING LIQUIDS

The utility model relates to devices for filtering, namely, filters for cleaning liquids and can be used in oil refining, oil production, chemical and other industries.

Known cartridge filter (ed. Ev, USSR N 159550, B01 24/46, publ. 30.09.90), comprising a housing, nozzles, a filter element made in the form of a cylinder and a device for cleaning the filter element, made in the form of scrapers mounted on a sleeve, which is movable under the influence of a differential pressure, which is mounted concentrically to the filtering element inside the cap and is connected to the latter by means of a bellows. With an increase in pressure drop, the sleeve moves up, and the scrapers remove the sediment from the filter element. When restoring the pressure drop, the sleeve, together with the scrapers, is returned to its original position under the action of a spring. During operation of this filter device with significant contamination of the filter element, the cartridge does not return to its original position, then the safety valve is activated, which is configured for a given overpressure. In this case, the resistance of the medium in the filter housing drops and the liner returns to its original position under spring pressure. However, after this, the filter element must be replaced with a new one or regenerated by known means outside the filter, which leads to

B01D 24/46

interruption of the filtration process and carrying out additional measures for the regeneration of the filter element.

The problem solved by the claimed utility model is to increase the efficiency of regeneration of the filter element in the filtering process and increase the efficiency of liquid purification.

The essence of this utility model is that in the filter housing in front of the inlet pipe there is a rotor connected to the gearbox, on the axis of which a device for cleaning the filter element is fixed in the form of two mutually perpendicular frames located along the length of the filter element with an adjustable gap between the side of the frame and surface of the filter element.

This constructive solution of the filter for cleaning the liquid allows the kinetic energy of the flow of the supplied liquid to be used in order to actuate the rotor installed in the filter housing in front of the inlet pipe. The rotor, through a gearbox connected to it, transmits rotation to the device for cleaning the filter element, made in the form of two mutually perpendicular frames located along the length of the filter element. The rotation of the frames provides throughout the filtering process, cleaning the surface of the filter element from the formed sediment. Regulation of the flow rate of the filtered fluid allows avoiding the accumulation of sediment on the surface of the filter element, which is removed by rotating the frames of the cleaning device and removed from the filter.

Setting a fixed gap between the surface of the filter element and the side of the frame allows you to create a layer of uniformly distributed sediment on the surface of the filter element when the frames rotate, which acts as an additional filter layer and improves the quality of the filtered liquid. The size of the gap is determined by the properties and condition of the filtered fluid.

In FIG. 1 shows a filter - a General view, in FIG. 2, section AA in FIG. 1.

The filter for cleaning liquids contains a housing 1, which is equipped with a cover 2 with an inlet pipe 3 and a housing base (sump) 4 with an outlet pipe 5 and an outlet pipe for precipitation b. In the filter housing there is a filter element 7 connected to the filter fluid collector 8. Before the output the nozzle 3 contains a rotor 9 (for example, in the form of an impeller) connected to a reducer 10, on the axis of which a filter cleaning device is fixed in the form of two mutually perpendicular frames 11. On the upper flange of the filtered fluid collector 8 located windows 12 for the passage of sediment.

The filter for cleaning liquids is as follows. The filtered fluid through the inlet pipe 3 enters the filter housing 1 and is supplied to the filter element 7, through which it is cleaned of impurities. The filtered liquid enters the collector 8 and is discharged through the outlet pipe 5 from the filter. During the filtration process, the initial liquid enters at a given speed and drives the rotor 9, which is made, for example, in the form of an impeller. The rotation of the rotor 9, through the gearbox 10, activates a device for cleaning the filter element 11. By rotating the two mutually perpendicular frames that make up the device for cleaning 11, the sediment deposited on its surface is cleaned from the surface of the filter element 7, which gets through the windows 12 in the lower part of the casing (sump) 4 and under the action of gravity moves to the outlet pipe sediment 6, and is periodically removed from the filter. Between the wall of the filter element 7 and the frame is a fixed gap. The size of the fixed gap is set depending on the properties and condition of the filtered fluid. When rotating frames

cleaning device 11 on the surface of the filter element 7 forms a uniformly distributed sediment layer with a thickness equal to the size of the fixed gap, which serves as an additional filter material.

The use of the proposed filter for cleaning liquids leads to lower operating costs when cleaning the liquid and increases the efficiency of the regeneration of the filter element during the filtration process, while the quality of the filtered liquid is improved due to the introduction of an additional filtering sediment layer.

Claims (1)

A filter for cleaning liquids, comprising a housing with inlet and outlet nozzles, a filter element in the form of a cylinder placed along the axis of the housing, and a filter cleaning device, characterized in that a rotor is connected to the gearbox in front of the inlet nozzle of the filter housing, on the axis of which a device for cleaning the filter element is fixed in the form of two mutually perpendicular frames located along the length of the filter element with an adjustable gap between the side of the frame and the surface of the filter element.