RU68346U1 - SELF-CLEANING FILTER - Google Patents

Abstract

The utility model relates to devices for filtering liquid media and can be used in various industries where effective cleaning of liquid media from mechanical impurities is required, for example, to separate contaminants from polymer melts. In a self-cleaning filter containing a hollow body, a filter element in the form of a disk with holes located in its cavity separating the body cavity into the chambers of the source and purified liquid, a shaft and a scraper for cleaning located in the chamber of the initial liquid, according to the invention, the filter element is mounted on a shaft with the possibility of rotation relative to a stationary scraper for cleaning, made in the form of a spiral from a tape in contact with its edge with the surface of the filter element, and the housing has an outlet for water pollutant particles in the original fluid chamber zone. In addition, the spiral is preferably fixed in the housing by means of a cross with slots made on the side of the filter element in which the spiral is mounted. In addition, the filter can be equipped with a pre-filter mesh located in the cavity of the housing, and the spiral can be pressed against the filter element by means of a spring located between the specified mesh and the cross. A feature of the filter also lies in the fact that the openings of the filter element have an inlet diameter on the side of the chamber of the source liquid less than the outlet diameter on the side of the chamber of the purified liquid.

Description

The utility model relates to devices for filtering liquid media and can be used in various industries where effective cleaning of liquid media from mechanical impurities is required, for example, to separate contaminants from polymer melts.

Known self-cleaning filter containing a housing separated by a filter partition, made in the form of a disk with holes, on the camera source and purified liquid. In the cavity of the housing there is a cleaning element - a scraper in the form of a semi-enclosed blade mounted on a hollow shaft with an opening for the removal of contaminants. During rotation, the scraper contacts the filter baffle and removes polluting particles from its surface through the shaft cavity (RU 2279904 C2, 08/30/2004).

The disadvantage of this filter is its structural complexity, due to the fact that it is necessary to combine a rotating shaft with a fixed tube to remove impurities. In addition, a scraper in the form of a semi-closed blade creates significant resistance to counteracting fluid flow, as well as eddy flows that impede the transport of contaminants from areas of the filter element that are remote from the outlet.

The technical result of the proposed utility model is to simplify the design of the device by organizing the exit of contaminants into the hole of the stationary housing, as well as increasing the efficiency of removing contaminants due to a decrease in resistance to fluid flow and a decrease in eddy flows. Additionally, the efficiency of removing contaminants is increased due to the reduction of clogging of the holes of the filter element with contaminants.

The technical result is achieved in that in a self-cleaning filter containing a hollow body, a filter element in the form of a disk with holes located in its cavity separating the body cavity into the chambers of the initial and purified liquid, a shaft and a scraper for cleaning, located in the chamber of the initial liquid, according to the invention the filter element is mounted on the shaft with the possibility of rotation relative to a stationary scraper for cleaning, made in the form of a spiral from a tape in contact with its edge with the surface of the filter element one and the housing has an outlet for the withdrawal of the contaminants in the feed fluid chamber zone.

In addition, the spiral is preferably fixed in the housing by means of a cross with slots made on the side of the filter element in which the spiral is mounted.

In addition, the filter can be equipped with a pre-filter mesh located in the cavity of the housing, and the spiral can be pressed against the filter element by means of a spring located between the specified mesh and the cross.

A feature of the filter also lies in the fact that the openings of the filter element have an inlet diameter on the side of the source liquid chamber less than an outlet diameter on the side of the purified liquid chamber.

The drawings depict the proposed technical solution.

Figure 1 shows the proposed self-cleaning filter in axial section.

Figure 2 - the same, in disassembled form with elements located along the axis in the order of their assembly.

The self-cleaning filter contains a hollow housing 1, in which the filter element 2, a scraper 3, a supporting crosspiece 4, a spring 5, a shaft 6, a prefilter mesh 7, a shaft drive 8 and a screw 9 are coaxially mounted.

The movable filter element 2 is a steel disk with a polished working surface, a mounting hole in the center for fixing on the shaft 6 and with many filter holes 10. The filter holes 10 are made so that the diameter of the entrance of each hole located on the working plane is less than its diameter outlet, which accelerates the passage of filtered fluid through the filter holes.

The filter element divides the cavity of the housing into two chambers - the upper chamber 11 of the original liquid and the lower chamber 12 of the purified liquid.

A fixed scraper 3 is installed in the chamber 11, which is made in the form of a spiral of steel tape fixed in the slots of the supporting steel cross 4. The cross 4 is fixedly mounted in the housing 1 due to the fact that one of its four ends is slightly longer than the others and is located in the recess, made in the housing 1. The cross 4 with the scraper 3 is pressed against the working surface of the filter element 2 by means of a spring 5, which is located between the preliminary filtering screen 7 and the cross 4. The drive 8 of the shaft is mounted on the shaft 6 by Inta 9.

During the cleaning of the polymer melt from contaminants on the working surface of the filter element 2, all particles are deposited that are larger than the input diameter of the filter holes 10. The movable filter element 2 rotates, and the stationary scraper 3 clears all particles deposited on the working surface of the filter element 2, and moves them to the outlet 13 in the filter housing 1. Due to the positive difference between the pressure inside the filter and atmospheric pressure, polluting particles with a small amount of polymer melt are brought out.

The proposed self-cleaning filter provides effective removal of contaminants due to the spiral-shaped execution of the scraper 3, which creates a low resistance to liquid flow and a small

the number of vortex flows, and also has a fairly simple design due to the fact that the outlet 13 for contamination is located in the fixed housing 1, and does not require special sealing between the movable and fixed parts. The expanding shape of the filter holes 10 facilitates the exit of polluting particles having a size equal to the input diameter of the holes 10.

Claims (6)

1. Self-cleaning filter containing a hollow body, a filter element in the form of a disk with holes located in its cavity, separating the body cavity into the chambers of the source and purified liquid, a shaft and a scraper for cleaning located in the chamber of the initial liquid, characterized in that the filter element is installed on the shaft with the possibility of rotation relative to a stationary scraper for cleaning, and the housing has an outlet for the output of polluting particles in the area of the chamber of the original liquid. 2. The filter according to claim 1, characterized in that the scraper for cleaning is made in the form of a spiral made of tape in contact with its edge with the surface of the filter element. 3. The filter according to claim 2, characterized in that the spiral is fixed in the housing by means of a cross with slots made on the side of the filter element in which the spiral is mounted. 4. The filter according to claim 1, characterized in that it is equipped with a pre-filter mesh located in the cavity of the housing. 5. The filter according to claim 4, characterized in that the spiral is pressed against the filter element by means of a spring located between the specified mesh and the cross. 6. The filter according to claim 3, characterized in that the holes of the filter element have an inlet diameter on the side of the chamber of the source liquid less than the outlet diameter on the side of the chamber of the purified liquid.