SU1379403A1 - Water level lowering installation - Google Patents

Abstract

The invention relates to water lowering in construction, in particular to installations for lowering the level of groundwater. It is aimed at reducing operating costs and improving operational conditions. This is achieved by the fact that the circulating tank has an additional tank enclosing its upper part and a retractable storage box located under it. The tank located centrally in the tank is made in the form of a hydrocyclone with a shut-off valve and a flange forming the cover of the sludge collector. Drainage device is located on the additional capacity. The sludge collector is made in the form of an open-top container with a sealing upper edge and means for moving it. The frame of the plant has guides for moving the sludge trap and jacks for clamping it to the hydrocyclone flange. The circulating tank has a shell vertically movable relative to the bottom. The volume of the cavity formed between the centrally located tank and the circulation tank exceeds the volume of water filled before the installation of the cavities. 3 hp f-ly, 1 ill. with e (L

Description

with

g

4 o

00

The invention relates to water drainage in construction, in particular, to installations for lowering the level of groundwater.

The purpose of the invention is to reduce operating costs and improve operational services.

Pa drawing shows the installation, general view.

The water installation consists of a centrifugal pump 1 with a drive, a circulation tank 2, a hydrocyclone 3, a booster, a viscous sludge collector A, jacks 5 mounted on a common pai-ie 6. Hydroelevator 7 is installed on the pressure line of the centrifugal pump 1 and is connected to pipeline 8 The hydraulic elevator 7 is connected to the supply pipe 9 of the hydrocyclone 3 by a pipe 10, and to the water intake, the state 1Sch1m of the receiving grid 11, with a check valve 12, - the pipeline 13 with a valve 14. The upper part 15 of the hydrocyclone 3 passes through the bottom of the circulator Tank 2 coaxially Egb shell 16, forming a ring tank that serves as a water storage tank for filling the cavities of the centrifugal pump 1 and the piping system. The level of discharge through the edge of part 15 is set so that after any water extraction, for example, to rinse the intake ycTpoiicTBa or fill the sludge trap A, a sufficient amount of water remains in the annular tank to continue the operation of the centrifugal pump 1. To reduce the swirling water flow, the upper part 15 of the hydrocycle 3 is equipped with radial stabilizers 17. The bottom 18 of the compass tank 2 is rigidly connected to the upper part 15 of the hydrocyclone 3, and with the shell 16 it is movable through the sealing gasket 19.

The centrifugal pump 1 is installed under the circulating tank 2 and is connected by an elastic pipe 20 to its bottom 18. The upper part of the circulating tank 2 has an additional tank 21 surrounding it with a device for draining the nozzles 22 and 23.

The hydrocyclone 3 in the lower part is provided with a locking device, for example, in the form of a valve 2A, with a removable sludge nozzle 25 and (a trench 26 serving as a cover for the sludge collector 4, which you

0

five

Q

0

five

five

0

five

more complete in the form of a container with a top: spring pair 27 and carrier 2B. 1 The upper edge 29 of the Insulator 4 has a pad of 30 elastic material. Wheels 27 are moved in a direction 1 1 31 of frame 6 to stops 32, and a slurry chamber 1 1 4 with hydro cyclone 3 is installed.

The clamping of the flange 4 to the flange 26 of the G1 cyclone 3 is carried out by jacks 5.

The installation works as follows.

The installation is placed on the surface of the installation, and the hydraulic elevator 7 is lowered into the production and installed from the level of pumped water at a suitable suction height. The water inlet of the hydraulic elevator 7 is lowered into the sump, the valve 14 is closed from, and the valve 24 is opened. And Lamos Burnshch 4 is hermetic under} (it is referred to as Hydropiclon 3.

The entire piping system, the hydrocyclone 3 of the circulation tank 2, the assembly 4 and the centrifugal pump 1 "3 are filled, then it is put into operation. In this case, the water circulates through a closed loop - a centrifugal pump 1, a hydraulic elevator 7, a hydrocyclone 3, a circulation tank 2,

Open the valve 14, this is due to the formation of a vacuum from the hydraulic elevator 7 and water is sucked in. solid fractions from sump. The centrifugal 1C lm pump 1 then mixes the withdrawn water 1-1 and the water supplied through conduit 8 to the feed nozzle 9, which is set tangentially to the hydrocyclone 3. The fluid flow is twisted, resulting in a solid layer at the walls of the hydrocyclone 3 , the radial was 10 l of the speed of movement which carries it to the hole 1 of the shamov nozzle 25.

As the ppamosbornika 4 is filled, the precipitating particles displace water from it, and they themselves acquire the property of water-saturated sediment of a dense consistency.

After filling the container 4, the valve 24 is closed, with the jacks 5 it is lowered until the wheels 27 touch the guides 31 of the frame 6,

roll out and remove sediment. The process of installing a sludge dye on the workplace is carried out in reverse order. After opening the valve 24, the gamo-assembly 4 is filled with water, which is D hydrocyclone 3, while the water flow flushes the parts suspended in the conical part of the hydrodiglon 3 and the water volume in the annular tank does not change and remains sufficient to continue the centrifugal pump operation. As the plant operates, the old thaw is restored by suction hydro-elevator -1 7 sump water.

The clarified water through the upper part 15 of the hydrocyclone 3 enters the circulation tank 2, where its speed decreases due to the difference in their volumes and stabilizers 17, which contributes to the ascent of particles with a lower specific weight than water, for example tow, chips, petroleum products. Intensive separation of their contributes to the release of air bubbles sucked by hydraulic elevator 7 together with pumped water. These materials are pushed aside to the periphery of the tank 2 and enter the additional tank 21, from where they are removed by mechanical collection or through the pipe 23. Excess water is removed through the pipe 22.

In the event of a blockage of the water inlet of the hydraulic elevator 7, the centrifugal pump 1 and the reverse flow of water from the pipelines 9 and 10 and the hydrocyclone 3 are washed and the hydraulic elevator 7 and the water intake are washed.

After washing, close the valve 14 and turn on the pump 1.

In the piping system, the hydrocyclone 3 and in the annular tank of the circulation tank 2 is installed with the same water level. At any flow rate of water in the annular tank, a volume of water is maintained that is sufficient to carry out the normal operation of the flow pump} 1. Next, open the valve 14 and the installation continues in normal mode.

The discharge of water from the circulating tank 2 through the pipe 13 does not occur due to the actuation of the check valve 12.

As the length of the pipelines increases, for example when the sump moves, following the advance of the bottom

five

0

five

0

five

0

five

0

development, their internal volume increases. The increase in the volume of the circulating tank to ensure that there is enough water and lanoling the pipelines during start-up is achieved by raising its shell 16 up and securing it in the closed position, for example, using bolts (not shown).

When sinking shafts up to 10 m deep, the starting valve 14 and hydraulic elevator 7 are installed on the surface, connecting it directly to the feed pipe 9 of the hydrocyclone 3. Only the water intake is lowered into the mine.

When working on the dewatering installation instead of the receiving grid 11 with a check valve 12 is supplied with a manifold with needle filters.

Such an installation allows to improve the operating conditions of the installation, to reduce the time for its maintenance, since all control equipment is on the surface.

Claims (4)

1. A water installation, including a centrifugal pump mounted on the frame, a circulation tank with a centrally located tank passing through its bottom and fittings for draining, a hydraulic elevator connected to a centrally located tank, a water intake and pipelines characterized by the fact that, in order to reduce operating costs and improve operating conditions, the circulating tank is provided with an additional {capacity} that covers its upper part and is located under it The Data centrally located container is formed as a hydrocyclone with a shut-off valve in the bottom and lid obrazuyuischm chip catcher flange, and means for draining taken on the additional tank. 2. The installation according to claim 1, characterized in that the sludge collector is made in the form of a vertical movable container open at the top with an elastic gasket along its upper edge. 3. Installation according to claims 1 and 2, characterized in that the frame has guides for moving the dumper and jacks for clamping it against the hydrocyclone flange. 4. Installation according to claim 1, characterized in that the circulating tank is filled with a vertically re-23 V h v // sheath encapsulated with respect to its bottom, and the volume of the cavity formed between the centrally located tank and the circulation tank exceeds the volume filled with water before starting the cavities of the pump, pipelines, tank and the collector. 17 18 19 I I 21 31