SU798000A1 - Device for transfer of soil in hydro-transport system - Google Patents

Description

The invention relates to a hydrotransport, namely to the devices for the hydraulic transportation of soil and can be the use _ but when pumping abrasive ^e soils with a high content. large inclusions.

A device is known for overloading soil in a hydrotransport estimate. θ me, containing a soil pump installed between the suction and discharge pipelines, lock chambers, each of which is equipped with upper and lower non-return valves, and a changeover valve located in front of the lock 15 chambers [1J.

However, the known device has insufficient reliability of operation of the shutters of the chambers, due to the fact that when they are closed, separate large particles of soil can be carried out by the flow through the top of the flap valve of the soil-collecting chamber, which does not provide a clear switching of the soil from one <25 side to the other and fall between 'the seat and plate of the closing valve of the airlock, thereby disrupting the operation of the device and the hydrotransport system. the soil-catching chamber ⁴ 30 has a rectangular outline in plan, which is unfavorable. Clearly affects soil deposition conditions and hull strength. The bulky soil-collecting chamber, to which the additional chamber with holes for draining water is still adjacent, sharply increases the dimensions of the apparatus and makes it difficult to place it in the dredger or hydrotransport system.

The purpose of the invention is to increase the reliability of the device.

To achieve this, an ejector is installed at the inlet of the suction pipe. In addition, the device is equipped with an additional pipeline connecting the ejector to the pressure pipe, and, in order to increase the degree of clarification of the water, the lock chambers are made in the form of cylindrical hydrocyclones.

In FIG. 1 shows the proposed device, a General view; in FIG. 2, section AA in FIG. 1.

The device contains a suction pipe 1 of the soil pump 2, equipped with an ejector 3. The suction pipe 1 by means of a tee .4 with a crossover valve 5 is connected to the lock chambers 6 and 7. The ejector 3 is connected to the soil pump 2 by means of an additional pressure pipe 8.

In the upper part, the device has drain pipes 9 and 10, blocked by check valves 11 and 12, adjacent to the suction pipe 1. In the lower part, the lock chambers 6 and 7 are connected to the pressure pipe .13, which communicates with the lock chambers through the lower valves 14 and 15 lock cameras.

The device operates as follows.

The slurry, rising through the suction pipe 1, through the open outlet of the tee 4 is tangentially introduced into the right lock chamber 6, where soil falls out, and clarified water through the drain pipe 9 and the suction pipe 1 enters the soil pump 2 and is supplied to the pressure pipe 13 Part of the clarified water from the pressure pipe 13 through an additional pipe 8 enters the ejector 3, which creates a backwater in the suction pipe 1.

After filling with soil to a predetermined level of the right airlock 6, the flow of the slurry valve 5 switches to the left airlock 7, then the valve 11 closes and the valve 15 opens and the soil from the airlock 6 is discharged into the pressure pipe 13. At the end of the discharge, the valve 15 closes, opens the valve 11 and the chamber 6 is again ready for receiving soil. The cycle of operation of the camera 7 is similar to that described.

The device can be used5 also in the pressure or suction pipe of the ejector without the use of a ground pump. In this case, the drain from the lock chambers can be discharged into the mined-out space of the quarry, and a water centrifugal pump can be used to supply water for hydrotransport and ejection, which has a significantly longer service life and higher efficiency than the dirt pump, smaller dimensions and weight.

Claims (3)

with sluice chambers 6 and 7. The ejector 3 is connected to the ground pump 2 by means of an additional pressure line 8. In the upper part, the device has drain pipes 9 and 10, blocked by check valves 11 and 12, adjacent to the suction pipe 1 of the pipe 13 1. In the lower part Sluice chambers B and 7 are connected to a pressure pipeline .13, which communicates with the sluice chambers through lower valves 14 and 15 sluice chambers. The device works as follows. The slurry, lifting through the suction line 1, through the open outlet of the tee 4 is tangentially injected into the right sluice chamber where the soil falls out of it, and the clarified water flows through the drain pipe 9 and the suction pipe 1 into the soil pump 2. pipe 13. Part of clarified water from the discharge pipe 13 through additional pipe 8 enters the ejector 3, creating an overpressure in the suction pipe 1. After filling with soil to the specified level of the right sluice chamber, the flow of hydraulic equipment The valve 5 switches to the left airlock chamber 7, after which the valve 11 closes and the valve 15 opens and the soil from the airlock chamber b is unloaded into the pressure pipe 13. After the unloading is completed, the valve 15 closes, the valve 11 opens and the camera b is ready to receive the soil again . The cycle of the camera 7 is similar to that described. The device can also be used in the pressure or suction pipe of the ejector pipe without the use of a ground pump. In this case, the discharge from the sluice chambers can be dumped into the open space of the quarry, and a water centrifugal pump having a significantly longer service life and higher efficiency than the ground pump, smaller dimensions and air can be used to supply water to the hydrotransport and ejection. Claims 1. Device for handling soil in a hydrotransport system,. containing a ground pump installed between the suction and discharge piping, sluice chambers, each of which sleep: the upper and lower check valves are bridged, and a toggle valve located in front of the sluice chambers, in order to increase reliability of the device, an ejector is installed at the inlet of the suction pipe. 2. The device according to claim 1, dt: l and ch, in that it is provided with an additional pipeline connecting the ejector to the pressure pipeline. 3. The device according to claim 1, characterized in that, with the aim of increasing the degree of clarification of water. sluice chambers are made in the form of cylindrical hydrocyclones. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 201960, cl. E 02 F 7/10, 26.01.71. X lti No SG F1K.1  3 // G. / If / 5 l J