SU886935A1 - Head filter for cleaning water - Google Patents

Description

The distribution system and a granular filter charge placed above the latter are equipped with a nozzle for supplying compressed air and a variable volume chamber connected to it, while the chamber is located in the upper loading layer.

It is advisable to make the chamber of the precarious volume of elastic material.

FIG. 1 shows the filter during the filtration period, a longitudinal section; in fig. 2 - the same, during the regeneration of the load.

The filter consists of a hermetically sealed cylindrical body 1, partially filled with a granular load 2 (quartz sand, crushed coal, ceramic granite, etc.) located on the drainage disk 3 with openings 4 and adjacent drainage caps 5, lid the filter is equipped with a nozzle 6, which is connected to a pipe immersed in a granular load approximately one third of the length and plugged at the bottom with a stopper 7. There are holes 8 on the side surface of the pipe at the level of the surface of the granular load 2. On the half of the pipe In detail, the elastic shell of the chamber 9 is made, for example, of rubber and is pressed against the pipe by means of the MJTOB 10. The filter housing has a spigot

11 for the supply of source water, the nozzle 12 for draining the wash water, the nozzle 13 for draining the filtrate and the nozzle 14 for feeding the wash water.

The filter works as follows.

With the valves closed at the nozzles 12, 14, the water to be cleaned is fed through the nozzle AND of the filter, passes through the granular load 2, the drainage caps 5 and is cleaned out through the nozzle 13.

After the completion of the filter cycle, which occurs when the filter charge 2 is completely silted and the filtration rate is reduced to the utmost, the granular load is washed. For this purpose, the latches on the pipes And and 13 are closed and the valves on the pipes are opened

12 and 14. At the same time, compressed air is supplied to the nozzle 6, which is discharged through the openings 8, whereby the chamber 9 expands and its cavity takes on a pear-shaped shape. In this connection, the surface area of the granular load is reduced by the cross-section of the chamber 9. The flushing water stream moving from the bottom upwards passes through the granular load, loosens it, flushes delayed soils and brings them to the limits of the filter through the nozzle 12. In the upper layer granular load 2, where the greatest amount of contaminants in the filtering process is trapped, the speed of the ascending flow is due to the reduction of its cross section by chamber 9 significantly greater than the speed in the layers. This provides a more intensive loosening of the upper layer of the granular load 2, the destruction of the layer of trapped contaminants and their removal with the flow of wash water through the nozzle 12. After the end of the washing the granular

the load 2 from the pipe 6 is exhausted; the chamber 9 is folded and pressed against the entire surface to the pipe b by the elasticity of the material from which it is made. Thanks to this

The surface of the granular load is almost equal to the cross section of the filter housing 1. After closing the valves on the pipes 12 and 14 and opening the valves on the pipes And and 13, the initial water filtration is resumed, during which the filtered flow passes through the granular load 2 with a full cross section at a constant speed, thereby ensuring optimum filtering conditions.

Thus, in the proposed filter, a reduction in the cross section and an increase in the flow rate of industrial water in the most polluted upper layer of the granular load are provided, which provides the best conditions for regeneration of the latter, reducing the consumption of wash water and washing time. Compared to known filters, the predlozhenny filter has a simpler design,

since there are no rotating and rubbing parts, it is more convenient to use and reliable in operation, and has less cost.

Claims (2)

1. A pressure filter for water purification, comprising a housing with nozzles for supplying and discharging water, a drainage and distribution system and a granular filter charge placed above the latter, characterized in that, in order to simplify the design, it is equipped with a nozzle for supplying compressed air and connecting A variable volume camera with the camera located in the upper loading layer. 2. Filter by iH. 1, characterized in that the variable volume chamber is made of an elastic material. Sources of information taken into account in the examination: 1. Kozhinob V.F. Purification of drinking and industrial water, M., stroiizdat, 1971, p. 177. 2. USSR author's certificate No. 591201, cl. On 01 D 23/26, 1976. I ta