SU1215730A1 - Filter drainage cap - Google Patents

Description

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The invention relates to the field of water treatment by filtration and can be used in drainage systems for pressure filters.

The purpose of the invention is to increase the efficiency of the filter by increasing the hydrodynamic characteristics of the cap.

The drawing shows a cap, a general view.

The cap has a body 1 of the shank 2, consisting of a nozzle 3 and a conical nozzle 4, made in the form of confuser. The housing 1 is provided with longitudinal slots 5. The nozzle 3 has, in the upper part, three holes 6 equally spaced around the circumference for supplying compressed air with a diameter, d of 0.12-0.125 of internal diameter d of the nozzle d, and a shoulder 7 located on its inner the surface is at a distance from the axis of the upper air inlets, 0.5-0.6 times the diameter of the nozzle, and has a height of: 0.45-0.5 times the diameter of the holes. At the bottom of the nozzle 3, 1/3 of its length is a row of holes 8, the diameter of each of which is 0.12-0.1525 of the internal diameter of the nozzle, and the pitch between them is 2.5-3 times the diameter of the holes. In this case, the flange 7 can be made intermittent, in the form of protrusions arranged around the circumference. The length of the shank is usually 14.5-15 times the diameter of the nozzle.

The cap works, as follows,

In the filtering mode, the filtered water through the slots 5 of the housing 1, the conical nozzles 4, made in the form of a confuser, and the nozzle 3 of the stem 2 are diverted to the outside of the filter. Due to the implementation of the nozzle in the form of a confuser in combination with the additional equipment of the inner surface of the shank with a shoulder height of 0.45 0.5 di, located at a distance of 0.5-0.6 d from the axis of the upper opening for the supply of compressed air,. which, on the whole, defines the filter drainage system, as a high-resistance system, is effectively efficient. horizontal compensation of the flow of filtered water directly at the drainage partition

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filter. This contributes to the uniform distribution of the filtered fluid in the volume of the filter layer. When flushing the filter wash

Water, as well as the water-air mixture, are fed to the shank 2, the nozzle 3, the conical nozzles 4 and the housing 1, from below, which flow into the filter cavity loaded with filter material. The water-air mixture is prepared by supplying compressed air to the water flow through the openings 6 with a diameter of 0.12-0.125 of the inner diameter of the nozzle 3, while

lowering the level of wash water through the holes 8, located on 1/3 of the length of the pipe from the side of its open part. The diameter of each of the holes 8 is 0.12-0.125 d, and the pitch

between them is 2.5-3 diameters of these holes.

Supplying the nozzle with a conical nozzle at the interface with the cap body provides a pulsating mode of water supply and water-air mixture when washing the filter, as well as the possibility of reducing the number of caps per unit area of the drainage partition (bottom) of the filter

prevention of abrasive wear of parts of the drainage system.

Execution in the upper part of the nozzle additional holes for supplying compressed air with a diameter d,

provided that all three holes are equally circumscribed around the circumference, they facilitate the uniform movement of the wash water stream with air, thereby creating a highly dispersed water-air mixture that ensures effective washing of the filter charge.

Equipping the top of the nozzle cap with a collar, located on its inner surface, 0.45-0.5 d in height, at a distance of 0.12-0.125 of the nozzle diameter, (d) increases the turbulization, twisting the water flow, which increases the degree of dispersion and durability of the water-air system, i.e. helps to get smaller air bubbles in the water flow. The implementation of the flange intermittent, for example, in the form placed around the circumference of the projections, ensures uniform distribution of air bubbles in the volume of water flow. Distance from

the collar to the axis of the compressed air supply opening, equal to 0.5-0.6 d, provides the highest resistance to turbulization of the flow of water mixed with the flow of compressed air. As the aforementioned distance increases by more than 0.6 d, the degree of turbulization of the flow decreases.

The length of the nozzle, assumed to be 14.5–15 d, ensures optimal water consumption during the washing process and the classification of the filter charge with a lower hydraulic resistance of the nozzle, which reduces the energy consumption for water supply. In addition, the adopted chop length provides a low-frequency (15-20 Hz) pulsation of the water-air system, which contributes to the efficient flushing of the filter blank.

Supplying a nozzle to more than 1/3 of its length by a series of holes, dia2157304

Each meter's meter is 0.12– 0.125 d, with a pitch of 2.5–3 to the diameters of these holes, improves the quality of water mixing 5 with air, increases the degree of turbulization of the flow while lowering the level of wash water in the sub-drainage space filter and contributes to the creation of highly dispersive water-air.

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Due to the presence of these features, effective washing is performed when the washing liquid enters the filter loading around each cap.

A flare from a water or water-air mixture flowing out of the slots 5 of the housing 1, which enhances the erosion effect of the contaminated surface of the loading particles, increases the pollution capacity of the filter material 20, and the duration of the filter cycle increases the filter performance.

Claims (5)

1. DRAINAGE CAP OF A FILTER, comprising a housing with slots and a pipe mating with a conical nozzle in the upper part, an opening for supplying compressed air in the upper part and means for supplying compressed air in the lower part, characterized in that, in order to increase the efficiency of the filter by improving the hydrodynamic characteristics of the cap; in the upper part of the nozzle, additional holes for air supply and a flange located on its inner surface below the holes for air supply are made. 2. Cap on π. 1, with the fact that the holes for supplying air in the upper part (the nozzle are uniformly located around the circumference on the side wall of the nozzle and have a diameter of 0, ΙΣΟ, 125 of the inner diameter of the nozzle. 3. Cap pop. ^ characterized in that the flange is located from the axis of the upper air supply openings at a distance of 0.5-0.6 of the internal diameter of the nozzle 9 meters. And has a height of 0.45-0.5 of the diameter of the holes. 4. The cap according to p. ^ Characterized in that the length of the pipe is 14.5-15 of its inner diameter, and the means for feeding the hedgehog ^- that air in the lower part of the pipe is made in the form of a series of holes located vertically along the axis of the pipe at a distance of less than 1/3 of its length, the diameter of each hole is 0.12-0.125 of the inner diameter of the pipe, and the pitch between them is 2.5-3 of the diameter of the holes. 5. The cap according to claim. ^ Characterized in that the bead is made in the form of protrusions placed around the circumference. SU,., 1215730 1 12