SU212066A1 - Sealed centrifugal pump - Google Patents

Description

The known designs of hermetic centrifugal pumps, designed for pumping corrosive media, require relatively complex protection systems for bearing assemblies. In a number of cases, bearing assemblies impose restrictions on the speed of the impeller.

In the proposed sealed centrifugal pump, the impeller is rotated non-contact by means of a rotating electromagnetic field. In contrast to the known designs of pumps, the wheel is fixed in the working position without bearing assemblies under the action of electromagnetic forces.

The proposed pump is shown in the drawing.

The impeller 1 is made in the form of two truncated conical shells facing each other, in the inner cavity of which loiatki are mounted. It is housed in a sealed enclosure 2, which, for ease of assembly and disassembly, is assembled in two parts. The lower part of the housing is made together with the suction inlet 3, the upper part with the injection inlet 4. The impeller is driven in rotation by driving inductors 5 fed by a three-phase toxm.

The oppressive cavities of the pump are achieved by installing a spinner 6 acting as a shield inside the pump casing.

To improve the self-locking of the impeller, a discharge of the injected fluid is provided simultaneously and uniformly with the entire slotted periphery of the impeller. During the operation of the pump, the impeller is defrosted and centered under the action of electromagnetic forces applied vertically to the side surfaces of the impeller. These forces arise as a result of the interaction of the tangential component of the magnetic field of the inductors with the magnetic field of the currents induced in the electrically conducting side walls of the impeller.

These electromagnetic forces automatically self-regulate the position of the impeller. Hydraulic forces also contribute to self-locking and stabilizing the position of the impeller without podchinenikovyh nodes.

Claims (2)

1. Sealed centrifugal pump containing an impeller with blades, drive inductors, housing, suction and discharge chuck BKN, characterized in that, in order to increase reliability and simplify the design, due to the absence of sub-bearing assemblies, the impeller is made of electrically conductive fermone material in the vpda facing the other to the other large base of many truncated conical shells, in the internal cavity of which the blades are located. 2. A pump according to claim 1, characterized in that, for the purpose of self-locking the impeller, the housing is made with a through annular gap connected to a conical cavity, passing into the discharge nozzle.