SU1498955A1 - Multistage pump - Google Patents

Abstract

The invention allows to increase the reliability and efficiency of the pump, as well as to expand the scope of its application. The multistage pump contains the working stages 3, 4, executed by axial counter-rotor type. The impellers rotate with respect to each other in opposite directions. The direction of movement of the working medium in steps x 3, 4 is opposite. After passing through the radial blades 8.9, the working medium moves along the transfer channel without twisting, which allows reducing hydraulic losses. Performing the steps 3.4 with the counter-rotor allows significantly reducing the rotational speed of the rotors 5, 6 relative to the housing 2. The rotors 5, 6 are connected to the drive 1 with the help of hermetic magnetic sleeves 11. 1 c.p. f-ly, 1 ill.

Description

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The invention relates to pumping equipment and can be used in pumps that are sealed to create a head at low feed rates.

I The purpose of the invention is to increase the reliability and efficiency of the pump.

The drawing shows the construction of a multistage pump.

The multistage pump contains an actuator 1, a housing 2 and axially working stages 3 and 4 placed in it, the latter being axially of the counter-rotor type with internal and external rotors 5 and 6, the latter being made composite in the form of cylindrical bushings 7 rigidly connected between by means of ajibHbix blades 8 and 9, located in the pressure zones 10 of stages 3 and 4. In addition, the rotors 5 and 6 are connected with the drive

With the help of sealed magnetic couplings P.

I The pump operates as follows. I Drive 1 through magnetic couplings

I1turns the inner and outer rotors 5 and 6 in opposite directions. The working medium from the supply enters the axial impellers of the stage 3 and after them through the radial blades 8 into the transfer channel, after which through the axial impellers and the radial blades of the 9 stage 4 enters pump outlet

A head is created when the working medium moves successively through axial impellers rotating relative to each other in opposite directions, and the direction of movement of the working medium in steps 3 and 4 are opposite.

The axial force Pi, which arises due to the pressure differential on the axial impellers of stage 3, is balanced by the axial force P2, which arises due to the pressure differential on the corresponding impellers of stage 4.

After the working medium passes through the radial blades 8 and 9 of the stages 3 and 4, the flow has a zero moment of speed, therefore, the working medium moves without swirling through the transfer channel and discharge, which allows reducing hydraulic losses.

Performing stages 3 and 4 with counter-rotor while maintaining a high speed of the impellers relative to each other allows to significantly reduce the speed of rotation of the rotors 5 and 6 relative to the housing 1, which increases the reliability of the sub-supports.

Claims (2)

1. A multi-stage pump comprising a drive, a housing and co-located operating stages therein, characterized in that, in order to increase reliability and efficiency 5 of the pump, the working stages are axial counter-rotor type with inner and outer rotors, the latter is made composite in the form of cylindrical sleeves rigidly interconnected by radial blades located in the zones of pressure stages. 2. A pump according to claim 1, characterized in that, in order to expand the field of use by sealing the stages, the rotors are coupled to the drive by means of hermetic magnetic couplings. 0