RU2635945C1 - Aggregate for hydrotransportation of loose materials - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: aggregate contains a body, loading and unloading devices, a centrifugal pump, a connecting pipe, a mixing chamber. In the upper part of the housing, a half-cylinder screen is installed in the area of loading device. Behind the screen, along the course of pumped medium, a sampling device is placed, equipped with protective mesh and communicating with centrifugal pump. A collector is connected to the outlet pipe of the pump, the output elements of which are symmetrical, inclined to the housing and communicating with the internal cavity of mixing chamber at the bottom.

EFFECT: creation of a simple and reliable aggregate for the transportation of loose materials of small dimensions.

2 dwg

Description

The proposed unit is designed for the hydrotransport of bulk materials, sludge in various industries and is intended for pumping liquids with a significant suspension content, especially with abrasive ability. The use of conventional pumping equipment to solve such problems leads to its rapid failure due to wear of the pump impellers by the abrasive action of the solid phase.

A device for transporting suspensions containing a stationary housing, a chamber for separating the suspension, mounted for rotation around a vertical axis, a pump connected to the upper part of the chamber and a water-jet elevator [USSR copyright certificate No. 1183717, B.I. No. 37 07.10.85].

The disadvantages of this device include the complexity of the separation device and the low degree of separation.

Closest to the proposed is a device for transporting suspensions [US Pat. 2212566 Russian Federation, IPC 7 F04D 13/12. A device for transporting suspensions / A.I. Zaitsev, A.E. Lebedev, D.O. Bytev, I.A. Zaitsev - Publ. 09/20/03, Bull. No. 26], comprising a housing, loading and unloading devices, a separator, connecting pipes, a centrifugal pump connected to a mixing chamber (water-jet elevator).

The disadvantages of this device include the complexity and large size of the separation device.

The objective of the invention is the creation of a simple and reliable unit for the hydrotransport of bulk materials of a relatively simple design and small size.

The task is achieved by the fact that in the unit for the hydrotransport of bulk materials containing a housing, loading and unloading devices, a centrifugal pump, a connecting pipe, a mixing chamber, in the upper part of the housing in the area of the loading device there is a screen having the shape of a half cylinder, behind which along the course of the flow The pumped medium contains a suction device equipped with a protective mesh and communicating with a centrifugal pump, to the outlet pipe of which a collector is connected, the output elements of which They are symmetrical, inclined towards the body and communicate with the internal cavity of the mixing chamber in the lower part.

In FIG. 1 shows a diagram of a unit for the hydrotransport of bulk materials.

In FIG. 2 shows the screen (enlarged).

The unit for the hydrotransport of bulk materials contains loading devices 1 and unloading 2, a housing 3, a centrifugal pump 4, a connecting pipe 5, a mixing chamber 6, in the upper part of the housing 3, a screen 7 is installed in the area of the loading device 1, after which along the flow of the pumped medium placed intake device 8, equipped with a protective mesh and communicating with the centrifugal pump 4. A collector 9 is connected to the outlet pipe of the centrifugal pump 4, the output elements of which 10 are symmetrical, inclined to the housing 3 and communicates They come with the internal cavity of the mixing chamber at the bottom. The centrifugal pump is driven by an electric motor 11.

The unit for the hydrotransport of bulk materials works as follows.

Bulk materials to be transported together with the transporting liquid are fed through the loading device into the internal volume of the housing. Interacting with the screen installed in its upper part, solid particles along with the majority of the transporting liquid flow around it, and some of the liquid is sucked in through the intake device and enters through the connecting pipe into a centrifugal pump. The presence of a protective mesh on the intake fixture prevents solid particles from entering the centrifugal pump. The implementation of the screen in the form of a half cylinder reduces hydraulic resistance and virtually eliminates the ingress of solid particles into the installation area of the intake device.

The liquid purified from solid particles that has got into the centrifugal pump is accelerated and from its outlet pipe enters the collector. The output elements of the collector are symmetrical, inclined to the housing and communicate with the internal cavity of the mixing chamber in the lower part. Due to this, the outflow of fluid from the outlet elements of the collector occurs on several sides, which leads to its intensive mixing with the rest of the material (moving through the body and mixing chamber to the discharge device) and acceleration of the latter.

Thus, in the proposed unit due to the allocation of the total flow of a liquid medium, its acceleration by a centrifugal pump and subsequent mixing with the rest of the material, the latter is accelerated. In this case, solid particles do not enter the centrifugal pump, thereby significantly reducing the wear rate and, consequently, increasing the service life.

Claims (1)

A unit for the hydrotransport of bulk materials containing a housing, loading and unloading devices, a centrifugal pump, a connecting pipe, a mixing chamber, characterized in that a screen having the shape of a half-cylinder is installed in the upper part of the housing in the area of the loading device, behind which is placed along the flow of the pumped medium intake device equipped with a protective net and communicating with a centrifugal pump, to the output pipe of which a collector is connected, the output elements of which are symmetrical, inclined they are connected to the housing and communicate with the internal cavity of the mixing chamber in the lower part.

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