SU1738303A1 - Filter for cleaning liquids - Google Patents

Abstract

The invention relates to devices for the purification of liquids from mechanical impurities. The goal is to increase the degree of purification of liquids and increase the reliability of the filter. The filter has a perforated shell with a diameter equal to the diameter of the end plates, a manifold mounted for rotation with a fixed upper end plate and a movable lower end plate, a disk mounted on the shaft, bred through the bottom of the housing and provided with a lever, while the collector and the disk shaft are connected with the external surfaces of the end walls of the housing by means of spring clamps. 3 silt

Description

The invention relates to devices for cleaning liquids from mechanical impurities and can be used for cleaning liquids in water supply systems and for pre-cleaning food liquids.

The purpose of the invention is to increase the degree of purification of liquids and the reliability of the filter.

FIG. 1 shows the filter section; in fig. 2 is a view A of FIG. one; in fig. 3 is a view B in FIG. one.

The filter includes a housing 1 with a nozzle 2 for supplying a liquid. The housing 1 on both end sides is closed with covers 3 and 4. Inside the housing 1 there is a fixed plate 5 fixed to the cover 3 fixed to the plate 5. On the bottom side, a perforated shell 6 is fixed and tightly attached.

The edge tightly slides adjacent to the upper movable end plate 7. Under the movable end plate 7 is located the bottom end plate 8. Along the axis of the cylindrical body 1, a collector 9 and a shaft 10 are placed. The collector 9 between the end plates 5 and 7 is perforated and the lower end is rigid connected to the movable plate 7. The shaft 10 is rigidly connected to the lower movable plate 8 To the fixed plate 5 by means of a ring 11 are attached a series of 12 and 13 threads. One inner row of 12 threads in the lower part is fastened to the upper end plate 7 by means of a ring 14. Another outer row of 13 threads is fastened to the lower end plate 8 by a ring. The diameter of the shell 6 is equal to the diameter of the movable end plates 7 and 8. Attached at the bottom to movable end plates 7 and 8 and in the upper part to the fixed plate

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5 two rows of 12 and 13 threads form a filter element.

The collector 9 and the shaft 10 are led out of the housing in opposite directions through the covers 3 and 4 with the possibility of rotation in opposite directions. The tightness of the housing 1 is achieved by sealing seals made, for example, from food rubber. On the protruding from the body of the first part of the collector 9 has a pipe 16 outlet of the filtrate. In addition, rotary levers 17 and 18 are rigidly mounted on the parts of the collector 9 and shaft 10 protruding from the housing. The latter are connected to the external surfaces of the corresponding end caps 3 and 4 of the housing 1 by means of spring clamps 19 and 20 and fingers 21 and 22, For a tight fit of the plate 7 to the shell 6 between the bottom cover 4 and the shaft 10, an adjusting nut 23 is provided.

The device works as follows.

Prior to supplying the fluid, the collector 9 is turned clockwise by the lever 17 and fixed with the help of spring 19 on the finger 21. The shaft 10 is turned in the opposite direction by means of the lever 18 and fixed with the help of spring 20 on the finger 22, while both springs 19 and 20 chickpeas. Rotation of the collector 9 causes the corresponding rotation of the end plate 7 fixed to its lower end. Rotation of the shaft 10 likewise ensures rotation of the bottom end plate 8. Rotation of the end plates 7 and 8 in opposite directions causes corresponding lower ends of the threads 12 and 13, the upper ends of which are fixedly mounted on the end plate 5, which causes the formation of filaments of the filter element. Due to the fact that the diameters of the plates 7 and 8 are equal to the outer diameter of the shell 6, this filter element is adjacent to the shell 6. This ensures the uniformity of the formed filter cells, which contributes to an increase in the degree of purification of the liquid.

Thereafter, through the nozzle 2, the liquid requiring cleaning is supplied to the housing 1. This fluid passes through the filtering element formed by two rows of filaments 12 and 13, through the perforations of the shell 6 and the collector 9 enters inside of it and through its upper branch pipe is discharged to the outside. Particles that require removal are retained on the filtering surface and cannot get into the collector 9. Shell 6 prevents deflection of the threads 12 and 13

and eliminates the formation of cracks between their individual rows. This increases the degree of purification of the fluid.

When the device operates, the springs 19 and 20 are always in the tensioned position. This ensures that the filaments are constantly in a tensioned state, which prevents the possibility of disturbing the established cell sizes and thereby increases the filtration purity. The constant tension of the strands 12 and 13 compensates for their temperature lengthening and thus increases the reliability of the filter in operation.

After a certain time, the filter is regenerated. For this, the levers 17 and 18 are released from the springs 19 and 20 and the end plates 7 and 8 are turned in the opposite direction. This ensures the release of the filaments 12 and 13 from the tensioned state and their transition to a free state, which increases the distance between the filaments, and, in addition, the filter element cells are transformed into slots. The washing liquid is supplied through the manifold port 9, exits through the perforations of the collector 9 and the shell 6 and, passing through the gaps of the filaments, flushes the particles stuck in them. These particles are discharged from the device through nozzle 2. After cleaning the filter, it is ready for reuse.

Thus, in the proposed device, a perforated sieve-forming insert is located on the inside of the filaments, therefore, in this construction, the threads are not inclined in a line, but are supported on the shell of the end plates when placed coaxially to the collector. In addition, between the rows of threads supported on the shell there can no longer form a gap in which large particles could pass. Due to this, there is no possibility of passing large particles, which increases the degree of purification of the liquid. The shell also prevents the formation of cells of different sizes due to the pressure of the filtered liquid on the filtering surface. Due to the specified pressure of the liquid, the threads do not bend, but rest on the outer surface of the shell. Accordingly, the shape and size of the cells are not disturbed and the possibility of passage of particles of different sizes into them is prevented, which increases the degree of purification of liquids.

The presence of a support on the inside of the threads prevents them from stretching. However, if they are stretched for other reasons, for example due to temperature

factor, the increase in cell size is prevented by the presence of spring-clips. The latter, being connected with the collector and the shaft 10, always keep the threads in a tensioned position and, thus, increase the reliability of the filter in operation.

In the proposed construction, the plate 8 is mounted on the shaft, led out through the bottom cover of the housing, while the plate 7 is planted on the collector. This allows rotation of the collector and the individual shaft to completely release (lower) all the yarns of both plates, which makes it possible to freely increase the size between the individual fibers of all the yarns. Increasing the size between the fibers improves the conditions for elution of particles stuck in them, since the washing liquid can freely pass between all the fibers of the lowered filaments. This improves the condition of filter regeneration, increases its service life and reduces the economic and material costs of its maintenance.

Claims (1)

The invention includes a filter for cleaning liquids, comprising a housing with a liquid supply pipe and upper and lower end caps, a filter element made in the form of filaments fixed with upper ends on a fixed plate, and lower ends on end movable plates mounted for rotation in opposite directions x, and a rotatably mounted perforated manifold with a filtrate outlet nozzle, characterized in that, in order to increase the degree of purification of liquids and reliability of the filter a, the latter is provided with a perforated shell with a diameter equal to the diameter of the fixed plate and the upper movable, to which the lower movable plate, which has a shaft, the lower end of which is led out through the lower cover and is fitted with a lever, and the collector with the shaft are connected to external surfaces casing covers by means of spring clamps. J 9and view 6 Fi.Z viewA Schi I