SU715721A1 - Suction-type water level lowering unit - Google Patents

Description

The invention relates to the design of devices for lowering the level of groundwater during construction, houses, enterprises, mines, etc.

A known installation for vacuum water reduction, containing a receiving vacuum chamber with a nozzle powered by a centrifugal pump, communicating reservoirs and a measure of the degassing of the drilling fluid [1].

A disadvantage of the known device is the complexity and large dimensions of the structure.

The closest to the invention in technical essence and the achieved results is the installation of a vacuum water reduction containing a circulation tank, in the housing of which there is a receiving chamber with a suction pipe and a nozzle of a water jet ejector, connected to the centrifugal pump on the discharge side and in communication with the outlet section of the ejector, equipped with a main deflector with a shutter and located in a housing having water discharge pipes to drain and to the inlet of a centrifugal pump [2].

The disadvantage of the described installation are large dimensions and metal consumption.

The purpose of the invention is to reduce the size and metal consumption of the installation.

The goal is achieved by the fact that the proposed installation is equipped with an additional deflector, and the main deflector is made in the form of an open cylindrical shell, at the ends of which there are ring reflectors with ends protruding beyond the shell and connected with a guide element paired with an additional deflector, the output of which is facing in the opposite direction from the water outlet pipe to the inlet of the centrifugal pump, and the shutter is made in the form of a pipe covering the outlet section of the ejector, mounted axially th movement and having an end profile mating with the shell with the complete overlap of the outlet section of the ejector.

In FIG. 1 schematically shows a longitudinal section of the installation; in FIG. 2 - section A — A along the ejector.

The installation comprises a circulation tank, in the housing / of which there is a receiving chamber 2 with a suction pipe 3 and a nozzle 4 of a water-jet ejector connected to a centrifugal pump (not shown in the drawing) on the discharge side by a pipe 5 and communicated with the outlet

'' 715721 3 4 bottom section 6 of the ejector, equipped with a main deflector 7 with a shutter 8, a pipe 9 for water drainage, a pipe 10 for water drainage at the inlet of the centrifugal pump, an additional deflector And, an open ⁵ cylindrical shell 12, the inner surface of which is mated with a shutter 8, and reflectors 13 of the main deflector 7, a guide element 14, coupled with an additional deflector ¹⁰ rum 11.;

Installation works as follows.

Water from the housing 1 of the circulation tank through the pipe 10 enters the centrifugal pump, and from there through the pipe 5 to the nozzle 4 of the water-jet ejector and further to the outlet section 6 of the ejector. A vacuum is created in the receiving chamber 2, and air and water, including contaminated, are sucked in through the suction pipe 3 of 20 soil. The water-air mixture from the outlet section 8 of the ejector enters the main deflector 7, then to the guiding element 14 and an additional 25 deflector 11. The elimination of possible pulsations of the air-air flow is achieved by creating back pressure on the outlet section 6 of the ejector by moving the shutter 8 along the axis. thirty

The proposed design allows to reduce the size and metal consumption compared to known installations.

Claims (1)

The claims 35 A vacuum water reduction unit containing a circulation tank, in the housing of which there is a receiving chamber with a suction pipe and a nozzle of a water-jet ejector connected to a centrifugal pump on the discharge side and communicated with the outlet section of the ejector equipped with a main deflector about the shutter ή located in the housing having a branch pipe water on. drainage and the inlet of a centrifugal pump, characterized in that, in order to reduce dimensions and metal consumption, the installation is equipped with an additional deflector, and the main deflector is made in the form of an open cylindrical shell, at the ends of which are ring reflectors with ends protruding beyond the shell and connected with the guide an element associated with an additional deflector, the output of which is facing in the opposite direction from the water outlet pipe to the inlet of the centrifugal pump, and the shutter is made in the form of a pipe, covering conductive output portion of the ejector, mounted for axial displacement e and having an end profile mating shell when fully overlap the outlet portion of the ejector.