SU1178313A3 - Continuous filter for water purification - Google Patents

Abstract

1. A FILTER OF CONTINUOUS ACTION FOR WATER TREATMENT, containing a vertical cylindrical body with a bottom, a granular filter charge, a water inlet pipe for cleaning, located in the lower part of the body, a pipe for draining the filtrate, a means for draining the wash water with a level regulator, located in upper body, means for circulating the charge and means for supplying air and polymer, characterized in that, in order to improve the quality of the cleaning, it is provided with a perforated end located under the load catfish, waterproof cylindrical partitions installed coaxially one above the other at a distance from the inner wall of the building; waterproof partitions in the form of cones attached by large bases to cylindrical partitions with a nozzle, means for circulating the load are executed in the form of a perforated circular pipe located in annular space between the inner wall of the casing and the lower part of the lower 1C {lindrna partition connected to the dp tool under In the case of air and polymer, with gztom, the annular space between the cylindrical partitions and the wall of the housing consists of the bottom cleaning, the middle return area of the cleaned load and the top area for discharging the supply water. 2. The filter according to claim 1, which is different from the fact that the means for discharging the washing water is made in the form of an overflow gutter, the walls of which have a Y-shaped cutout for oto) excess wash water. 3. Filter by PP, I and 2, which is tipped by the fact that the lower edge of the lower 1-cylinder partition is located above the perforated cone, and the upper edge of the upper cylindrical partition is located above the overflow channel. 00 U9 4. The filter according to p. I, that is, with the fact that the bottom of the casing is made convex and the pipe for the water of the filtrate is installed in its lower part, 5. The filter is pop, 1, it is different that the lower conic partition is perforated. 6. Filter POP.1, which is distinct from the fact that the upper cylindrical partition is made with a diameter smaller than the diameter of the lower cylindrical partition.

Description

1 The invention relates to devices for filtering water purification. Sand filters with a downstream flow are known that are effective in treating water with a low level of suspended solid particles f 1J. The disadvantage of such filters is that basically such sand filters operate periodically, therefore they must be stopped for cleaning. The pressure required to ensure the flow of the flow through the installation increases with time. The closest to the invention is a non-sparking filter for water purification, comprising a vertical cylindrical body with a bottom, a granular filter bag, a water supply pipe for cleaning, located in the lower part of the body, a branch pipe for discharging filtrate, located in the upper part of the body means for flushing water with a level controller, means for circulating the charge and means for supplying air and coagulum or polymer 2. A disadvantage of the known device is the poor quality of cleaning for it does not provide multiple contact cleaning water to the filter material. The purpose of the invention is to improve the quality of cleaning. This goal is achieved by the fact that a continuous water purification filter containing a vertical cylindrical body with a bottom, a granular filter bag, a pipe for supplying water for cleaning, located in the bottom part of the body, a pipe for filter removal, a means for flushing water with a level regulator, located in the upper part of the body, a means for careful loading and a means for supplying air and polymer, is provided with a perforated cone under the loading, water-permeable By means of conventional partitions mounted coaxially one above the other at a distance from the inner wall of the housing, watertight partitions in the form of cones, bent with large bases to cylindrical partitions to form a nozzle, the means for circulation of the load is made in the form of a perforated ring pipe, located in the annular space between the inner wall of the housing and the lower part of the lower cylindrical partition, connected to the means for supplying air and polymer, with the ring The target space between the cylindrical partitions and the wall of the housing consists of the lower cleaning zone, the middle return zone of the clean load and the upper zone for draining the wash water. In addition, the tool for removal of wash water is made in the form of an overflow gutter, the walls of which have an I-shaped notch for drainage of excess wash water. The lower edge of the lower cylindrical partition is located above the perforated cone, and the upper edge of the upper cylindrical partition is located above the overflow channel. Moreover, the bottom of the housing is made convex and the pipe for removal of the filtrate is installed in its lower part. Lower conic partition perforated. The upper cylindrical partition is made with a diameter smaller than the diameter of the lower cylindrical partition. The proposed filter is not very sensitive to temperature and loaded suspended particles of solids; it has no internal parts that could be subject to wear or breakage. In addition, the filter only requires between ten and fifteen percent of the area required by standard clarifier. FIG. 1 shows a filter, a longitudinal section; figure 2 - section aa in figure 1; in fig. 3 — nozzle, embodiment. The continuous filter consists of body 1, which has a bottom or bottom part 2, which, for example, may have a convex shape. The housing 1 has a side wall 3 which mates at the edge 4 of the bottom part with the bottom part 2 in a sealing manner. The inner space 5 containing the liquid is located between the side wall 3 and the ion part 2.

The side wall 3 extends vertically upward toward the upper edge 6, which may be the uppermost surface of the device.

Thus, the housing 1 provides an interior space 5 which, normally, must contain a liquid, such as water, if, for example, turbid water is to be clarified. Inside the housing there is a movable filtering layer which, for example, may consist of activated carbon, crushed walnut shell, sand, or similar material. The movable filtering layer 7 occupies two main zones: the zone 8 of the compacted filtering layer and the expansion zone in the annular space 9. The movable filtering layer 7 may contain a large number of individual particles of flake carrier, each of which is granular, and separate. having the ability to move within the enclosure 1. Each particle of the flake carrier has a large surface area and has a surface charge that attracts particles that must be removed from the flow vtekayup her environment.

The compacted zone 8 of the movable filter layer 7 is generally located between the partition 10 and above the perforated cone 11.

The partition 10 terminates in its lower end part 12 on a ridge above the bottom part 2 and the perforated cone 11. A cylindrical partition 14 is located in the upper part of the body.

The space 13 between the partitions 10 and 14 and the wall 3 forms an annular space, conventionally divided into zones of cleaning 15, return 16 and waste 17.

Outlet pipe 18 clarified water. attached to the bottom 2. A drain chute 19 is disposed along the outer periphery around the partition 14 and has a V-shaped notch 20 for overflow of excess wash water. Level 21 of compacted zone 8 is below return zone 16.

The supply manifold 22 supplies a stream of water, which is to be clarified, to the housing 1 after

passing through the control valve 23, which can be fixed by the approach leading to the instruments by the main 24 of the controller 25 level.

Water flowing in through the collector 22 can be supplied to the tank or housing 1 at the opening 26 and then to the distribution pipeline 27, which can be circular

0 configurations placed at the bottom of the annular space 9. Inlet 26 may be connected to the pipe 27 via a tee or similar fitting with suitable supports, such as welds or the like, to the wall 3.

Highways 28 and 29 are, respectively, polymer and air supply lines, which communicate with inlet 26 and through it with a circular distribution pipe 27. The latter pipeline could be located at an elevation horizontally and flush with the bottom of the cylindrical partition 10 and provided with evenly spaced perforations to allow incoming water, air and

0, the polymer is injected into the annular space 9 in the uniform distribution system. The perforations in the distribution pipe 27 could be turned down to minimize clogging of the individual particles of the carrier flakes. A reflector is placed under distribution pipe 27 to prevent short-circuiting the flow.

Perforated cone 11 placed

0 in the bottom part 2 of the housing with a gap between the lower edge of the partition 10 and the cone 11.

The continuous nozzle is formed by inter-conic partitions 30 and 31 hanging inward, fixed to the upper and lower side walls of the partitions 10 and 14, respectively. The partition 30 can be perforated.

The nozzles (partially shown) are attached to the skirt 32, which is attached to the upper edge of the partition 10 and the lower edge of the partition 14.

The filter works as follows.

Water is supplied through a sub collector 22, Polymer and air are supplied, respectively, through supply lines 28 and 29 and move through a collector 22, through an opening 26 into the distribution pipe 27. The supply of air and polymer through pipe 27 creates a pumping action that ensures at least at least partially moving force to transfer the movable filtering layer 7 upwards past the lower edge of the partition 10 and into the annular space 9. Particles of the carrier flakes entering the annular space 9 purification zones 15 are thus becoming decompacted and fluidized upwardly flowing in an annular space 9. In zone 16, the flake carrier particles are cleaned with air and expanded to clean the moving filter layer 7. When the filter layer rises the partition wall 10 to return zone 16 , the cross-sectional area of the annular space 9 increases from the diameter of the partition 50 to the diameter of the partition 14c. Accordingly, the speed drops below the capture rate of individual X particles filter media guide layer and then the carrier particles are flakes deposit on the surface of the filter bed 7 in the partition 10.

The speed of movement of particles in the waste zone 17 of the annular space 9 is still large enough to transfer flake particles to the chute 19. The jetting water output is controlled by a level controller 25, which sets the level through the overflow equipped with cutouts 20 to discharge the drain pipe wash water.

Untreated water and media pass through the area between partitions 30 and 31 and untreated water is filtered through zone 8 when flakes form. On the surface of the media and below this surface. Then, the clarified water passes through the cone 11 and beyond the outlet nozzle 18.

In comparison with the known filter, the proposed filter provides higher quality water purification, since the internal partitions and the annular pipeline for supplying an air jet provide an improved and more efficient way to move the air upward. In addition, the fluid passes through the compacted zone 8 of the filter material, which provides improved quality of contact between the chip and the liquid with the filter material and the polymer.

Claims (6)

1. A FILTER FOR CONTINUOUS ACTION FOR CLEANING WATER, comprising a vertical cylindrical body with a bottom, a granular filter charge, a nozzle for supplying water for cleaning located in the lower part of the body, a nozzle for draining the filtrate, means for draining the wash water with a level regulator located in the upper parts of the housing, a means for circulating the load and a means for supplying air and polymer, characterized in that, in order to improve the quality of cleaning, it is equipped with a perforated cone located under the load, water impermeable cylindrical partitions installed coaxially one above the other at a distance from the inner wall of the casing, waterproof partitions in the form of cones attached by large bases to the cylindrical partitions to form a nozzle, the means for circulating the load is made in the form of a perforated annular pipe located in the annular space between the inner the wall of the housing and the lower part of the lower cylindrical partition connected to the means for supplying air and floor measure, while the annular space between the cylindrical wall and housing wall consists of the bottom! zone 'cleaning medium returning purified loading zone and upper eons for discharging wash water. 2. The filter according to claim 1, characterized in that the means for draining the wash water is made in the form of an overflow trough, the walls of which have a V-shaped cut for | excess rinse water. I 3. The filter according to claims 1 and 2, if: the bottom edge of the lower cylindrical front of the town is located above the perforated cone, and the upper edge of the upper cylindrical partition is located above the overflow trough. 4. The filter according to π.1, characterized in that the bottom of the housing is convex and a pipe for removing the filtrate is installed in its lower part. 5. Filter pop. 1, characterized in that the lower conical partition is perforated. 6. Filter pop. 1, with the fact that the upper cylindrical partition is made with a diameter smaller than the diameter of the lower cylindrical partition.