RU1781462C - Axial pump - Google Patents

Abstract

Appointment: pumping of liquids. SUMMARY OF THE INVENTION: The flanges are provided with 2 protrusions located in the housing with outer annular grooves. The rotor is provided with ledges with the formation of angular contact bearings. The flanges are fixed to the housing by means of hinged bolts, and the impeller is partially placed in the suction pipe, which simplifies disassembly and assembly technology, improves quality and reduces the time for disinfecting washing. 1 s.p. f-ly, 1 ill.

Description

The invention relates to hydraulic engineering, in particular to axial pumps, and can be used to pump liquids related to food products.

An axial pump is known, comprising a housing, a coaxially annular stator and an electric motor rotor, a fixed central axis and crowns of cantilever guide vanes and rotor blades, equipped with hubs mounted on an axis and a rotor, equipped with ring washers and hydraulic bearings connected via hydraulic lines to pump discharge areas.

The disadvantages of this pump are: complex construction, partial occupancy of the cross-sectional area of the pump channel by the fixed axis and a pressure wheel. This design is difficult to flush the internal cavities and thin channels for supplying hydraulic pressure to the supports when disinfecting the pump.

A known axial pump comprising a housing, a coaxially annular stator and a rotor of an electric motor, a fixed central axis and crowns of cantilever guide vanes and rotor blades, provided with hubs and bandages mounted respectively on an axis and rotor, equipped with end washers and hydraulic bearings connected by hydraulic line to the pump discharge area.

The disadvantages of this pump are: complex design, partial occupancy of the cross-sectional area of the flow channel of the pump with a fixed axis.

This design is difficult to flush the internal cavities and thin channels for supplying hydraulic pressure to the supports when disinfecting the pump.

cl

with

ch1

00

Nd

An axial pump is known, comprising a housing with flanges for attaching to pipelines, in which an annular stator of an electric motor with a coaxially located hollow rotor is located, on which the impeller is fixed, an squirrel cage is pressed onto the outer surface of the hollow rotor, and a squirrel cage is pressed on both sides of the cage bushings with channels for supplying a hydraulic fluid to the hollow rotor supports.

The disadvantages of this pump are: the inability to remove the hollow rotor from the pump housing when removing the pipe mounting flanges, which makes it difficult to flush the internal cavities and thin channels for supplying hydraulic pressure to the hollow rotor supports when the pump is disinfected.

The aim of the invention is to remedy the above drawbacks, improve quality and reduce the time it takes to disinfect the pump.

This goal is achieved in that in the known axial pump comprising a housing with suction and discharge nozzles with flanges, a motor stator and a hollow rotor with an impeller fixed inside, the flanges are made with protrusions located in the housing, with outer annular grooves, and the rotor is equipped with ledges, covering the latter with the formation of angular contact plain bearings, the flanges are fixed to the housing by means of hinged bolts with a hinged installation, the impeller is multi-stage and h Stična taken in the intake pipe, and a discharge nozzle mounted guide apparatus, incoming partially into the hollow rotor.

Such an implementation makes it possible to simplify the technology of disassembling and assembling the pump, without violating its basic technical data, and to make fast and high-quality disinfecting flushing of internal cavities and parts of the pump.

The drawing shows an axial pump, a longitudinal section.

The axial pump contains a housing 1, flanges 2 and 3, an annular stator 4 with a motor winding 5, fixed in the housing, a hollow rotor 6 with a squirrel cage 7 and with a multi-stage impeller 8 rigidly fixed on its inner surface, the impeller has blades at the first stage 9, and on the subsequent steps of the blade 10, the suction pipe 11, the guide apparatus 12, the pressure head

nozzle 13, angular contact bearings 14 and 15, the outer rings of which are rigidly fixed to the annular parts 16 and 17 of the hollow rotor, and the inner rings

bearings is fixed, one ring on the suction pipe, and the second on the pressure port, channels 18,19,20,21,22 and 23 serve to supply part of the pumped liquid to the cooling bearings. Nuts 24 and hinged bolts 25 fasten flanges 2 and 3 with nozzles 11 and 13 to the pump casing. The flare nuts 26 to 27 fasten the pipelines 28 and 29 to the discharge and suction nozzles. The pump operates as follows.

When starting the electric motor, the winding 5 creates a rotating magnetic field in the stator 4.

As a result of electromagnetic interaction between the stator and the hollow rotor 6, the latter is rotated. The fluid pumped by the blades 9 and the blades 10 of the impeller 8 is pumped from the area of the suction pipe 11 to the discharge area - to the discharge pipe

thirteen.

The conversion of the kinematic energy of the swirling flow of the pumped liquid into pressure energy is carried out by the guide apparatus 12, after

which fluid flow is discharged into pressure port 13.

Due to the pressure differential between the discharge area and the suction area, fluid flows through the channels

18,19,20,21,2 2and 23, which provide cooling for bearings 14 and 15.

The pump of the present invention has a structure comprising a minimum number of parts included therein. Most of the parts that make up the pump have several functions that determine the operation of the pump.

The suction and discharge nozzles are simultaneously hollow rotor bearings on which the inner rings of the angular contact bearings are fixed.

The discharge nozzle is in addition also a structure on the inner surface of which a guide apparatus is rigidly fixed.

To carry out a disinfecting washing of the internal cavity of the pump and its parts, it is enough to unscrew the union nuts 26 and 27 of the piping

to the pump, loosen (turn 3-4 turns) the nuts 24, fold the bolts 25, remove the flanges 2 and 3 with nozzles, and remove the hollow rotor 6 from the pump housing.

After disinfecting treatment

internal cavity of the pump, hollow rotor.

the discharge nozzle and the suction nozzle, the pump, without adjustments or any adjustments, is assembled in the reverse order.

The design of the pump allows it to be disassembled and assembled with a low professional level of service personnel without fear of changing the main technical characteristics of the pump.

A simple disassembly and assembly technology of the pump indicates the simplicity of the pump design and the possibility of its application in various fields of the national economy.

Claims (2)

1. An axial pump comprising a housing with a suction and discharge nozzles with flanges, a motor stator and a hollow rotor with a fixed inside impeller, characterized in that, in order to improve the quality and reduce the time of the disinfecting washing by simplifying disassembly and assembly technologies, the flanges are equipped with protrusions located in the housing with external annular grooves, the rotor is equipped with ledges covering the latter with the formation of angular contact bearings, the flanges are fixed to the housing by means of hinged bolts with a hinged installation, and the impeller is partially placed in the suction pipe . 2. Pop pump, 1, characterized in that the impeller is multistage, and a guide apparatus partially placed in the rotor is installed in the discharge nozzle.  L -J8, -JL 16.20  N ... / (W