RU42181U1 - SELF-CLEANING FILTER - Google Patents

Abstract

The utility model relates to the field of filtration of liquid media and can be used to separate contaminants when passing the flow of the working fluid. The self-cleaning filter comprises a housing divided inside the filter element into two volumetric cavities. The receiver of the washing liquid is adjacent to the working surface of the filter element and can move within this surface. On the reverse side of the filter element opposite the washing liquid receiver, a movable high-pressure spray is additionally installed. The filtered fluid is fed into the filter, passed through the filter element and is removed from the filter through the outlet channel. In this case, as a result of the filtering process, contamination is deposited on the working surface of the filter element. The receiver of the washing liquid moves along the working surface of the filter element, removes impurities that are washed away by the return flow of the liquid (which at the same time becomes the washing liquid), and together with the liquid removes them from the filter. Due to the localization of washing, the cleaning efficiency of the filter element is increased. If necessary, the filter element is additionally washed with a high-pressure spray or a combined water-air spray. Fig. 1, 2 pp

Description

The utility model relates to the field of filtration of liquid media and can be mainly used to separate contaminants from the working fluid.

A device for filtering liquids is known, in which, to remove contaminants from the filter element, it is possible to switch the direction of the fluid flow when passing through the filter element / 1 /.

The disadvantage of this device is the interruption of the filter during the cleaning period, which reduces the throughput of the device.

The closest technical solution, selected as a prototype, is a self-cleaning filter containing a filter element composed of several blocks and a washing liquid receiver connected separately to each block for sequential cleaning with a reverse flow / 2 /.

The disadvantage of this device is due to the block design the ability to perform volumetric washing of the filter element, which reduces the washing efficiency and degrades the quality of the filter.

The purpose of the utility model is to improve the quality of filtration.

This goal is achieved by the fact that in the known self-cleaning filter containing a filter element and a washing liquid receiver for reverse flow cleaning, the washing liquid receiver is made adjacent to the working surface of the filter element and movable within this surface and, in addition, from the opposite side of the filter element flushing fluid receiver

Additionally, a movable high-pressure spray or a combined water-air spray is installed.

Comparative analysis with the prototype allows us to conclude that the inventive self-cleaning filter is characterized in that the washing liquid receiver is made adjacent to the working surface of the filter element and movable within this surface and, in addition, a movable spray is additionally installed on the back side of the filter element opposite the washing liquid receiver high pressure or combined water-air spray.

Thus, the claimed technical solution meets the criterion of "novelty."

The essence of the utility model is illustrated by the drawing (see Fig.), Which shows a schematic representation of the internal structure of the filter.

The self-cleaning filter contains a housing 1, which is divided inside the filter element 2 into volumetric cavities A and B, respectively connected to the inlet channel 3 and the outlet channel 4. The receiver of the washing liquid 5 is adjacent to the working surface C of the filter element 2 and can move within this surface, and for discharge of washing liquid with removed impurities connected to the output channel 6. On the reverse side D of the filter element 2 opposite the washing liquid receiver 5, an additional spray is installed pressure 7, which can also move, for example, equidistant to the surface Viv in accordance with the movements of the receiver of the washing fluid 5. In this case, the high-pressure spray 7 can be performed as a combined air-water spray.

Self-cleaning filter works as follows.

The filtered fluid is fed through the inlet channel 3 into the volume cavity A, passed through the filter element 2 into the volume cavity B and is removed from the filter through the outlet channel 4 (in Fig. The corresponding flow directions are shown by arrows F1 and F2). At

this, as a result of the filtering process, contaminants are deposited on the working surface C of the filter element 2. The washing liquid receiver 5 adjacent to the working surface C moves along the surface, removes impurities washed away by the reverse fluid flow (shown by arrows F3), and removes them together with the liquid through the output channel 6 (shown by arrows F4). Due to the localization of washing, the cleaning efficiency of the filter element is increased. If necessary, the filter element 2 is additionally washed with a high-pressure spray 7 or a water-air spray installed instead.

Thus, the claimed technical solution improves the quality of filtration by reducing the contamination of the working surface of the filter element by 25% and increasing throughput by 1.5-2.1 times.

Sources of information.

1. V.A. Zhuzhikov. Filtration. Theory and practice of separation of suspensions. Publishing House "Chemistry", M .; 1971., p. 366.

2. Automatic self-cleaning filter AUTOFILT RF3. HUDAC International brochure.

Claims (2)

1. Self-cleaning filter containing a filter element and a receiver of washing liquid for reverse flow cleaning, characterized in that the washing liquid receiver is adjacent to the working surface of the filter element and movable within this surface and, in addition, from the back of the filter element opposite to the washing receiver liquids additionally installed high-pressure mobile spray. 2. The self-cleaning filter according to claim 1, characterized in that the high-pressure movable spray is designed as a combined water-air spray.