SU1705512A1 - Device for pumping-out pulp - Google Patents

Abstract

The invention is intended to remove sediment from drainage and sewer manholes, avanamers of pumping stations and allows to increase the cleaning efficiency. The goal is to increase efficiency by creating a fixed optimal gap of the annular gap. The support screw 9 is made hollow, freely mounted on the supply pipe 5 and its thread is connected to the guide hollow cylinder 10, and the spring 12 is made permanently extended, one end of which is fixed to the ring 11. This allows you to move the hollow support screw 9 relative to the guide hollow cylinder 10, establish a fixed optimal gap of the annular gap 8, while eliminating the possibility of spontaneous increase of the annular gap 8 due to the stop of the conical nozzle 7 into the hollow support screw 9. Spontaneous The reduction of the annular gap 8 is also eliminated due to the action of the tension spring 12, which presses the conical nozzle 7 to the hollow support screw 9. The fact that the threaded ring 11 is mounted on the guide cylinder 10 makes it possible to adjust the tension of the spring 12 and thereby adjust the device on the erosion of soils of different density. 4 il. ate with

Description

The invention relates to hydraulic engineering and land reclamation construction and can be used to remove sediment from drainage and sewer wells, anterior chambers of pumping stations.

The purpose of the invention is to increase efficiency by creating a fixed optimal gap of the annular gap.

In FIG. 1 shows a device for pumping pulp, a longitudinal section; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - node I in FIG. 1; in FIG. 4 is a section BB in FIG. 1.

The pulp pumping device consists of a housing 1 with a cover 2, a pipe 3 for passing the pulp, on the lower end of which a confuser 4 is installed, a supply pipe 5 with a suction pipe 6 and a conical nozzle 7, installed in such a way that an annular ring is formed between it and the confuser 4 slot 8. and the supply pipe 5 passes through the cavity of the hollow support screw 9 coaxially with it and with the possibility of rotation and axial movement relative to the latter. The hollow screw 9 is mounted with the possibility of axial movement along the thread in the guide hollow cylinder 10, which is rigidly connected to the bottom of the housing 1.

On the guide hollow cylinder 10 is installed with the possibility of axial movement along the thread of the ring 11.

The inlet pipe 5 is spring-loaded by a supporting support screw 9 with a constantly extended spring 12. The ends of which are fixed on the conical nozzle 7 and the movable ring 11.

On the inner side of the housing 1, a hydraulic ripper is installed adjacent to it, made in the form of an outer cylinder 13 and an inner cylinder 14 with windows 15 and 16 offset in height relative to each other, and the outer cylinder 13 has a cover 17 with an opening 18. The inner cylinder 14 is narrowed by parts ovit spring 19, abutting at its ends against a ledge at the junction of the widened and narrowed parts of the inner cylinder 14 and the adjusting pipe 20, mounted with axial movement along the thread. At the lower end of the inner cylinder 14, nozzles 21 are fixed to the thread. The housing has nozzles 22 and 23. A drain hole 24 with a plug 25 is provided in the bottom of the housing 1, and a drain hole 26 is provided in the outer cylinder 13.

A device for pumping pulp works as follows.

Before starting work, by turning the hollow screw 9 along the thread relative to the hollow guide cylinder 10, the optimal size of the annular gap is established (determined by calculation and depends on the characteristics of the working pump), at which the efficiency will be maximum. Do it as follows.

The hollow support screw 9 is tightened until the conical nozzles 7 rest against the confuser 4. In this case, the size of the annular gap 8 is zero. Knowing the thread pitch of the hollow support screw 9 and taking as the reference point the position of the conical nozzle 7 at which the size of the annular gap 8 is zero, unscrewing (lowering) the hollow support screw 9, you can set any necessary (optimal) size of the annular gap 8 with fairly high accuracy .

By rotating the ring 11 along the thread relative to the guide hollow cylinder 10, the necessary spring tension 12 can be set corresponding to the density of the loosened soils.

After preparation for operation, the device, together with the inlet and outlet pipelines (not shown) connected to it, is lowered into a well that requires removal of sediment.

When you turn on the working pump (not shown), water through the pipe 22 enters the cavity of the housing 1. Then the water passes through the annular gap 8, enters the pipe 3 to pass the pulp and goes to the discharge. The device for pumping the pulp is lowered until the suction pipe 6 rests against sediments at the bottom of the well. In this case, the spring 12 is stretched, the confuser 4 lowers and closes the annular gap 8. The water in the pipe 3 for passing the pulp ceases to receive energy due to the closure of the annular flow from the annular gap 8 and merges into the inlet pipe 5 under its own weight, thereby displacing the air itself, which is located in the cavity of the pipe 5, between the annular gap 8 and the surface of sediments in the well; moreover, since the suction pipe 6 abuts against sediment. then the water has nowhere to merge from the pipe 5. Thus, the ejector is charged.

At the same time, since the annular gap 8 is closed, the water pressure in the housing 1 rises. Under the influence of the pressure of the water located in the housing 1. the inner cylinder 14, perceiving the pressure of the water through the hole 18, is lowered. compressing the spring 19, the windows 15 and 16 are combined. Water from the housing 1 under pressure through the windows 15 and 16 enters the cavity of the inner cylinder 14 and goes to loosen the sediment at the bottom of the well. Loosening of the nanowires continues until the sediment is loosened and a washout funnel forms under the suction nozzle 6. Then, under the action of a constantly stretched spring 12, the inlet pipe 5 with the suction pipe 6 and the conical nozzle 7 are lowered. In this case, an annular gap 8 is formed. Moreover, its fixed size (value) is automatically set optimal, due to the stop of the conical nozzle 7 in the hollow screw 9, which prevents the enlargement of the annular gap 8. The constantly extended spring 12 prevents the reduction of the size of the annular gap 8. Water from the housing 1 under pressure enters through an annular slot 8 into a pipe for passing pulp 3, where it mixes with the water there, transfers part of its energy to it. The averaged flow rises and goes to the discharge. At the same time, pulp is constantly supplied to the inlet pipe 5 through the suction pipe 6, which, being mixed with water, also goes to discharge. If in the process of pumping out the pulp, the suction pipe b again rests against deposits at the bottom of the ring, then the pumping process automatically stops and the process of loosening begins.

Thus, the fact that the support screw is made hollow, freely mounted on the inlet pipe and connected to the hollow guide cylinder by its own thread, and the spring is constantly extended, one end of which is fixed on the ring, makes it possible to move the hollow support screw relative to the guide hollow cylinder , establish a fixed optimal gap of the annular gap, while eliminating the possibility of spontaneous increase in the annular gap due to the stop of the conical nozzle in the hollow support screw. In this case, spontaneous reduction of the annular gap is also eliminated due to the action of the extended spring, which presses the conical nozzles to the hollow support screw.

Since a threaded ring is installed on the guide cylinder, it is possible to regulate the spring tension and thereby configure the device to wash out soils of different densities.

All this by creating a fixed optimal gap of the annular gap increases the cleaning efficiency.

Claims (1)

Claim A device for pumping pulp, comprising a housing, a suction pipe, a pipe for passing pulp with a confuser, a guiding hollow cylinder, a hydraulic ripper, a vertically movable feed pipe with a spring and a support screw, characterized in that, in order to increase efficiency by creating a fixed optimal gap ring gap, it is equipped with a threaded ring> mounted on the guide cylinder. in this case, the support screw is made hollow, freely mounted on the inlet pipe and connected to the hollow guide cylinder by its thread, and the spring is constantly stretched, one end of which is fixed to the ring. Fig.Z B - B Figure 4