SU1373876A1 - Scoop-type pump - Google Patents

Abstract

The invention relates to pumps for water and chemically aggressive liquids, in which the magnitude of the back pressure varies in a wide range. The purpose of the invention is to maintain a constant feed rate when the back pressure on the pump outlet is changed. In the rotating housing 1, a centrifugal impeller 5 is installed behind the suction inlet 2. In the axial outlet 4, a channel 6 is provided for connecting an external source of gas. In the case where channel 6 is in communication with the atmosphere, the liquid level in housing 1 is set according to the back pressure in the outlet. In the case where the channels 6 are connected to some other gas source, a vacuum is established in the gas chamber to ensure gas suction. 1 il. i 7 s (L SAE SO 00 o :)

Description

The invention relates to pumping technology and is intended primarily for pumps for water and chemically aggressive liquids, in which the backpressure varies in a wide range, i.e. the magnitude of the static pressure of the pump, and the magnitude of the backpressure itself can be quite significant - on the order of several tens of atmospheres. In this case, it is desirable to keep the pump supply range narrow.

Such pumps are sometimes subject to stringent requirements for vibroacoustic CIM characteristics.

The aim of the invention is to maintain a constant flow while changing the back pressure at the pump outlet.

The drawing shows the proposed pump, a general view.

The scoop pump contains a rotating body 1 with a central suction nozzle 2 and stationary glass and axial bends 3 and 4. Behind the suction nozzle 2 during. rotary housing 1 has a centrifugal impeller 5, and an axial outlet 4 has an additional channel 6 for connecting an external source of gas, which can be used as an ambient atmosphere through a check valve 7 and valve 8, or through a valve 9 with a vacuum pump (not shown). The rotating housing can be connected to the end of the rotor 10 of the electric motor and mounted on bearings 11 mounted on a fixed axial retraction 4.

The pump works as follows.

When the housing 1 rotates, the liquid through the suction nozzle 2 is sucked in by the centrifugal impeller 5 and enters the cavity of the housing 1, then through the scoop branch 3 and the pulp 10

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When channel 6 is connected to the atmosphere, the fluid level in the rotating housing 1, marked by a triangle, is set according to the amount of back pressure in the outlet: increasing the back pressure shifts this level

the casing 1 is full, reducing the back pressure pushes the level towards the entrance to the scoop outlet 3. At the same time, with constant resistance in the outlet 4, the pump flow in stationary conditions remains unchanged.

When the housing 1 is completely filled, the check valve 7 prevents liquid from escaping into the atmosphere. By means of a valve 9 and a vacuum pump, the pump is flooded.

If the channels 6 are connected to some other gas source (for example, if any gases need to be pumped out), a vacuum is established in the gas chamber to ensure gas leaks. Next, the gas under the action of turbulence on the blades mixes with the liquid and the resulting emulsion is pumped out. In this case, vibrations and noise are significantly reduced.

Claims (1)

Formula of gain A scoop pump comprising a rotating casing with a central suction nozzle and fixed scoop and axial outlets, characterized in that maintaining a constant flow when the back pressure changes at the pump outlet, behind the suction nozzle in the rotating housing, a centrifugal impeller is installed, and the secondary branch has an additional channel for connecting an external gas source.