SU1502054A1 - Settler - Google Patents

Abstract

The invention relates to a device for the treatment of wastewater from mechanical impurities and can be used in ferrous metallurgy, mechanical engineering and other areas of the national economy. The purpose of the invention is to increase the efficiency of wastewater treatment and energy saving. The sump contains a housing with a central column and concentric partitions, a water dispenser (B) with a central and peripheral (P) supply of the treated medium, a water collecting device, a rotation unit and a scraper form. The hydraulic actuator is installed on (P) inlets and is made in the form of a turbine, the impeller shaft of which is connected to the high-speed shaft of the gearbox. The rotation unit is made in the form of a cylindrical cup (B), placed in the cavity of the central column and provided with toroidal guides and a spherical support. The design of the sump ensures uniform distribution of wastewater over the entire area of flocculation zones. The clarified waters are discharged through the catchment unit from the sedimentation tank, and the sediment from the sludge collector is removed for further processing. 1 hp f-ly, 3 ill.

Description

The invention relates to a device for the treatment of wastewater from mechanical impurities and can be used in ferrous metallurgy, mechanical engineering and other areas of the national economy.

The purpose of the invention is to increase the cleaning efficiency and save energy.

FIG. 1 shows a sump, longitudinal section; in fig. 2 - the same plan; in fig. 3 shows the node I in FIG. one.

A sump for cleaning wastewater from mechanical impurities consists of a cylindro-conical body 1, inside of which concentric partitions 2 and 3 are located, forming flocculation zones, and a central column 4, inside which is located a rotation unit 5, which is a cylindrical cup 6 of a water distributor 7 equipped with toroidal guides 8 and spherical support 9.

To the upper part of the water distributor 7 adjoins the inlet manifold 10, and central distributors 11, equipped with locking and regulating devices 12, and peripheral supplies 13, equipped with hydraulic actuators 14, made in the form of a turbine, the impeller shaft 15 of which is connected to the high-speed gearbox shaft are attached to the water distributor walls. 16, and the running wheel 17 is mounted on the low-speed shaft.

For cleaning the sediment from the conical bottom of the body 1 of the sump and moving it into the sludge collector 18, a scraper is provided.

About N9 About SL

Farm farms 19, which are rigidly attached to the central water distributor 7.

The catchment system consists of a ring ring tray 20 and drainage pipes 21.

QrcToihiHK works as follows.

(accurate water containing mechanical impurities and containing kinetic energy through the inlet manifold 10 enters the water distributor 7. From the water supply system 7, the flow enters the center of the sump and the rest flows to the hydraulic actuator 14. rotational motion of the impeller 15. The rotating impeller transmits its movement through the gearbox 16 to the driving wheel 17, which, while not moving along the wall of the body 1 of the sump, drives the water distribution: 1and spruce 7 and attached to it cKpefiKofibie (}) e) we nineteen.

The water distribution grid 7 ensures an even distribution of wastewater III) Bceii flocculation of flocculation zones limited by concentric partitions 2 and 3. At this, the speed of displacement is defined as the sum of movement speeds in () D1.1 and the water distribution device , n | a) in directions. 1enii move and.

(to () 1M) ei dezhepii water distribution.ch- | 1o () usg) () yeti and scraper fer.mare reg uriruege 11) and help increase the number or decrease of the revolutions of the traveling wheel 17, which means the quantity and parameters of the injected and hydraulic fluid 14, which can be done with the help of stop-regulating devices 12 installed on the central supply II.

Installing the gearbox 16 on the axis of the impeller 15 allows you to increase the coolness of the wheel; at the wheel 17, while reducing the number of revolutions, and placing the hydraulic actuator 14 on the peripheral inlets 13 allows you to decrease the power that causes the water distribution device to rotate.

The rotation of the water distribution device around the vertical axis of the settler is made by installing the rotation assembly 5 at the bottom of the water sensor 7, which is a cylindrical cup 6 with toroidal guides 8 and a spherical support 9 rotating inside the central column 4. The spherical support 9 has a part load, not perceived by the driving wheels 17. Its central dimension allows to significantly reduce the coefficient of friction at c) value. Toroidal guides 8 fix the structure relative to the center of the 1.1n () th axis.

0

five

0

five

0

five

0

five

The clarified waters are collected in the annular tray 20 and discharged through the drainage pipes 21 to the outside of the settling basin.

The precipitate deposited on the bottom of the settler is collected by the scraper farm 19 and transferred to the sludge collector 18, from where it is removed in a known manner for further processing.

With an increase in wastewater flow, the amount of material that increases, which, settling on the bottom of the sedimentation tank, can create additional strain on the scraper farm, respectively, increases. In this case, the rotational speed of the scraper farm 19 itself is controlled in the sump, depending on the amount of wastewater supplied and, accordingly, on the amount of suspended matter.

Thus, the proposed settling tank has the following 1) properties: a more complete use of the area of the settler and a uniform distribution. 1e | schE. 1x water due to the rotation of the water distributor, the maximum use of energy flow due to the installation of the hydraulic drive on the peripheral supply for the rotation of the water distribution. 1ite 1 and sk |) ebkov () nd fe) we; self-contraction rate i); iscemia of the scraper farm, depending on the amount of incoming sewage; reduction of frictional forces during rotation in speech-language P) and 1-nenin of the proposed dyeing site.

These advantages in terms of b (l; significantly increase the effect; 1НН () sewage treatment, method 1 sound) 1 energy savings and exp. | Utapponni: x.

Formula P.tirsgeni.h

. A settling tank that encloses a casing with central cores: young and concentric partitions, a water dispenser with central and peripheral 1 and supply water, a system for discharging purified water, a scraper bar and a rotating unit in the form of an ice-shaped 1 0 cup with toroid-shaped guides and spherical support , characterized in that, for the purpose of improving cleaning efficiency and energy saving, it is equipped with a hydraulic actuator mounted on peripheral supply and made in the form of a turbine, the axis of the impeller reducer is connected to the lead koleso.m, wherein the rotating unit is placed in the central cavity of the column, and a toroidal guide attached to the side surface of the cylindrical sleeve, at which the spherical bearing mounted coaxially with it.

2. A sump according to claim 1, characterized in that the central nodes are provided with stop-regulating and devices.

15 1i +

nineteen

1

17

FIG. 2

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Claims (2)

Claim 1. A sump, including a housing with a central column and concentric baffles, a water distributor with central and peripheral feeds of treated water, a purified water drainage system, a scraper farm and a rotation unit in the form of a cylindrical glass with toroidal guides and a spherical support, characterized in that, for the purpose of to improve cleaning efficiency and save energy, it is equipped with a hydraulic actuator. mounted on peripheral inlets and made in the form of a turbine, the impeller axis of which through the gearbox is connected to the running wheel, while the rotation unit is placed in the cavity of the central column, and toroidal guides are attached to the side surface of the cylindrical glass, under which a spherical support is mounted coaxially with it. 2. The sump according to claim 1, characterized in that the central inlets are equipped with shut-off regulating devices. FIG. 2 / Fie.Z