SU1265262A1 - Installation for working and hydraulic transportation of soil - Google Patents

Abstract

The invention relates to the hydraulic development and pumping of a solid material and improves the efficiency of operation by expanding the ability to control pulsations. For this purpose, the pulsator of branch 4 and the pulsator of the pressure conduit (NO) 2, located behind branch 4, are connected via valves 9 with the mechanism 10 for generating pulsating pressure. The material being developed through the ejector nozzle 6 and the intake of slurry line 1 by the ground pump 1 is fed to the HO 2 and transported to the storage site. The pulp clarified by thickener 5 pulp from NP 2 along branch 4 is fed to ejector tip 6 to increase the suction capacity of the installation. To increase the productivity of solid material per unit of energy expended, pulsations are created by alternately compressing the elastic inserts 7 of the pulsators NP 2 and branch 4 when the working medium is fed into the corresponding casing 8. The amplitude of the pulsations is set by mechanism 10 and determines (O with generated pressure. Valves 9, by changing the flow area, allow (L to change the amplitude of the pulsation separately in NP 2 and in the branch when the installation is in operation. 1 Cp f-ly, I il. TO Th O5 S71 to O5 S

Description

The invention relates to a technique of hydromechanization and can be used in the hydraulic development and transfer of solid material in hydraulic engineering, mining and other branches of the national economy.

The purpose of the invention is to increase work efficiency by expanding the controllability of pulsations.

The drawing shows the scheme of the proposed installation.

The installation has a ground pump 1, pressure 2 and suction 3 pulpovody. On branch 4 pressure slurry installed thickener 5 pulp. The branch is connected to the ejector tip 6 of the suction slurry line. The pressure slurry line and its branch are provided with elastic inserts 7, which are enclosed in hollow hermetic housings 8 with regulating valves 9. The valves are interconnected through the mechanism 10 for creating a pulsating pressure.

The installation works as follows.

When the pump 1 is turned on, the developed solid material passes through the ejector nozzle 6 together with the liquid into the suction slurry line 3 and further along the pressure slurry line 2 is transported to the storage location. A portion of the liquid from the discharge slurry 2 is hereby withdrawn and is fed along branch 4 to ejector head 6 to increase the suction capacity of the installation. Since the branch and the pressure slurry are separated by a pulp thickener 5, a clarified part of the liquid is led to the ejector tip, which contributes to an increase in the concentration of the transported slurry in the pressure slurry.

To increase the efficiency of the development and transport of solid material, i.e. increasing the productivity of solid material per unit of expended energy, the operation of the installation is provided in a pulsating mode. Pulsations in the slurry stream are created by alternately compressing the elastic inserts 7 on the pressure slurry line and its branch during

supplying the working medium to the corresponding casing 8. The supply of the medium is controlled by the mechanism 10 for creating a pulsating pressure equipped with a frequency adjuster.

Moreover, at the moment when the medium is injected into one of the enclosures, the medium is withdrawn from the other enclosure and the elastic insert in it assumes its original position. The magnitude of the pressure generated in the casing, and hence the amplitude of the pulsations, is set by the mechanism 10. In addition, with the help of the control valves 9, the amplitude can also be changed by increasing or decreasing their flow cross section. Moreover, control valves allow changing the amplitude separately at the branch and pressure slurry line, which allows creating amplitude pulsations during the operation of the installation.

The introduction of the proposed installation will improve the efficiency of

by increasing the ability to control pulsations.

Claims (2)

1. Installation for the development and hydrotransport of the soil, containing a soil pump, communicated on one side by means of a suction pipe with an ejector handpiece, on the other with a pressure pipe, which by means of a branch with a thickener and pulsator communicates with an ejector head, and the pulsator is connected with a mechanism pulsating pressure, valves and an additional pulsator, characterized in that in order to increase work efficiency by expanding the possibility of controlling pulsations, The pressure slurry line is made of two parts, which are interconnected by an additional pulsator, each pulsator being associated with a mechanism for creating a pulsating pressure through the valve. 2. Installation under item 1, characterized in that each pulsator is made in the form of an elastic insert, placed in the casing.