SU1077997A1 - Bed for investigating the processes of hydraulic conveying - Google Patents

Abstract

1. STAND FOR THE STUDY OF HYDROTRANSPORT PROCESSES, containing a ground pump, connected to the suction and pressure slurry pipelines, and a container with the ground, characterized in that, in order to improve the accuracy of the experiment by ensuring that the full volume of soil is transported, the container with the ground is installed on the pressure slurry pipeline and connected to it through a metering valve. 2. A stand according to claim 1, characterized in that it is provided with an additional tank filled with water, communicated by means of a valve to the suction slurry pipe. 3. A stand according to claim 1, wherein the metering valve is rotatable around a horizontal axis. S (L with: with with

Description

The invention relates to hydromechanization and is intended to investigate the processes of hydrotransport of the soil.

A stand for studying hydrotransport processes is known, including a slurry pipeline connected to an air / pulp mixer and an air separator, and measuring equipment 1.

The disadvantage of the stand is that it does not provide research with the specified consistency parameters of the slurry.

The closest to the invention by technical essence is a stand for studying hydraulic transport processes, which includes an underground pump connected to the suction and pressure slurry pipelines, and a container with the ground mounted on the suction slurry pipe 2.

The disadvantage of the stand is that part of the soil does not participate in the formation of pulp and remains in the tank, which reduces the accuracy of the experiment.

The aim of the invention is to improve the accuracy of the experiment by ensuring the transport of the full volume of soil.

This goal is achieved by the fact that in a test bench for studying hydrotransport processes containing an underground pump connected to the suction and pressure slurry pipelines, and a container with the ground, the container with the soil is installed on the pressure slurry pipeline and connected to it through a metering valve.

In addition, the stand is equipped with an additional tank filled with water, communicated by means of a valve with the suction slurry pipe.

The metering valve is rotatable around a horizontal axis.

The drawing shows the stand, a general view.

The stand for studying hydrotransport processes includes a water tank 1, a gate valve 2, a ground pump 3, a pressure slurry pipe 4 with a sealed pressure tank 5 on the rieivf sealed tank 5, a drain valve 6, a suction pipe 7, an induction flow meter 8, a metering valve 9 and., A valve 10 .

The stand is operated as follows.

Water is poured into the tank 1 and the pump 3 is started up when the Zhkahs 2 and 10 are open. After the water has filled the pipeline and the required mode is obtained, the valve 2 is closed and the pump runs on water in a closed circuit with exactly known system volumes. At the same time on the measured sections A and B, it is possible to determine the loss of pressure at

 the costs set by the flow meter 8.

In the hermetic tank 5 (prior to the start of the experiment) the necessary for the following has been laid: -:: studies of the soil of a known particle size distribution

0 number. When the metering valve 9 is rotated around the horizontal axis, the flow is clamped, which creates an ejection effect, and the ground is lowered into the drainage slurry line, and the displaced water volume, equal to the volume of the ground, enters this tank in the flow expansion zone. After emptying the container 5 from the ground (the observation can be conducted along the correct glass), the valve 9 is closed.

Thus, in a closed pipeline, a slurry is obtained with specified parameters.

After the experiment is completed, open the valve 2 and the drain valve 6, and the valve 10 is closed. Water from tank 1 washes out the pipeline and waste 5 mixture is discharged into the tray. If necessary, a soil sample can be taken at this time to determine its final particle size distribution.

The proposed stand allows to improve the accuracy of the experiment by providing

transporting the full amount of soil.

Claims (3)

1. STAND FOR STUDY PROCESSES OF HYDRAULIC TRANSPORT, containing a ground pump connected to a suction and pressure pulp lines, and a tank with soil, characterized in that, in order to improve the accuracy of the experiment by ensuring the transportation of the full volume of soil, the tank with soil is installed on the pressure pulp line and connected to it via a metering valve. 2. Stand by π. 1, characterized in that it is provided with an additional tank filled with water, communicated through a valve with an intake slurry line. 3. The stand according to claim [, characterized in that the metering valve is made to rotate around a horizontal axis.