SU1263293A1 - Vertical thin-layer settling tank - Google Patents

Abstract

The invention relates to the field of purification of liquids, including natural waters, can be used mainly in small-sized industrial, municipal, and field water treatment plants and allows for an increase in the cleaning efficiency. Vertical thin-bed sediment nickname consisting of a cylindrical body with a sludge collector 7, a separating element 3 of truncated cones 4 connected in a spiral, made with holes 5 in accumulation zones of sediment and having flanging 6, perforated pipe 10 with discs 13 installed in the center of the settler and connected to the vibration actuator 18, provides a high degree of purification of the liquid by separating the flow of sediment removal and removal of the clarified liquid and eliminate accumulation of sediment in the channels of the separation element. 2 Il. (L GcheE O5 00 yu with

Description

The invention relates to the purification of liquids, including natural waters, from suspended solids and can be used in small-scale industrial, municipal and field water treatment plants.

The purpose of the invention is to increase the cleaning efficiency.

FIG. 1 shows a vertical thin layer settler, longitudinal section; in fig. 2 - sump, axonometric view.

The vertical thin-layer settling tank consists of a cylindrical housing 1, a cover 2, a separating element 3 in a pit installed one above another truncated cones 4, made with holes 5 at smaller bases, i.e., flanging 6 directed upwards, a sludge collector 7 with a perforated partition 8 and Directed by sleeve 9.

The separating element 3 is located in the central part of the housing 1 and is attached to the lid 2 by the upper part and to the sludge collector 7, its truncated cone 4 is connected in a rigid spiral and installed with a clearance to the housing 1 and the central perforated pipe 10 with the formation of the inner 11 and outer 12 channels.

The perforated pipe 10 is provided with disks 13 located between its openings at a distance equal to the pitch of the helix. The perforated tube from the upper part passes through the gland 14 of the collecting chamber 15, connected to the lid 2 and with the help of the rod 16 passing through the gland 17, connected to the vibration actuator 18, and in the lower part has a free fit in the direction of the sleeve 9.

A branch pipe is connected to the collecting chamber 15 for discharging the cleaned liquid 19. In the lower part of the housing 1 there is an inlet 20 with a manifold 21 having tangentially positioned nozzles 22 providing an even supply of fluid through the outer channel 12 to the separating element 3. nozzles to remove sediment 23 and 24.

Vertical thin sediment works as follows.

The initial fluid, including the one treated with chemical reagents, flows through the inlet pipe 20 into the collector 21 and through the nozzles 22 into the body 1 of the sump, fills it and, passing through the narrow channels between the truncated cones 4 of the separating element 3, is freed from suspended particles with almost the same efficiency, since the clarified liquid to any of the channels formed by truncated cones 4,

it is supplied at a practically constant speed and, consequently, of the same dispersed composition. This is achieved by the fact that the area of the living section of the outer channel 12 decreases in height, as part of the clarified liquid arrives for the first time along its flow, the channels formed by the cones 4. At the same time, apart from the radial component of the flow rate of the fluid in the channels, fluids from tangentially positioned nozzles 22 and turns of the separating element 3; fluid is attached to the velocity component tangent to the circumference, which increases the efficiency of the separating element 3. Stacked on the surface of the truncated con owls 4, the suspension slides along them and enters through the openings 5 and along the spiral flanging 6 through perforations in the partition 8 into the sludge collector 7. The clarified liquid from the channels of the separating element 3 through the perforations of the pipe 10 enters the collection chamber 14 and then through the branch pipe 19 to the consumer or on the subsequent tertiary treatment.

Depending on the nature of the suspension and the viscosity of the sludge, to intensify its removal, the vibrator 18 is used for continuous operation or cyclically. In this case, oscillations from the pipe 10 are transmitted through the liquid to the separating element 3 and to the draft. As a result, the viscosity of the sediment and its adhesion to the surface of the truncated cones 4 of the separating element 3 decrease sharply, resulting in two ways of sediment — through the holes 5 in the truncated cones 4 and the flare 6 enters the sludge collector 7 and is removed from the settling tank through the pipe 23. Large suspended particles accumulate on the conical bottom of the housing 1 and are removed through the pipe 24.

Claims (1)

Invention Formula A vertical thin layer settler containing a cylindrical body with a central perforated tube, a separating element in the form of truncated cones installed one above the other with a gap to the body, a sludge collector, a vibrodrive, pipes for supplying the source liquid and draining the clarified liquid and sediment, characterized in that in order to increase cleaning efficiency, the cone connected to the helix, installed with a gap to the perforated pipe and made with holes at the smaller bases, with upward bends y, perforated tube is provided with discs disposed between its openings at a distance equal to the pitch of the helix, the diameter of the cone decreases from the top downwards.