SU1268811A1 - Multistage centrifugal pump - Google Patents

Abstract

The invention relates to pump engineering and can be used in multistage centrifugal pumps. The invention allows to increase the anti-vibration and strength characteristics of the pump by damping the oscillations of the working fluid in the bypass line x. Fluctuations of the working medium caused by the impellers of the adjacent pump stages are folded in the bypass line. For mutual oscillation damping, the overflow line is designed with the possibility of changing its length, which allows one to choose a length so that the oscillations are folded in antiphase. 1 hp f-ly. 1 il.

Description

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The invention relates to mechanical engineering, in particular to multistage centrifugal pumps, having successively arranged impellers with the same number of blades.

The purpose of the invention is to increase the anti-vibration and strength characteristics by damping oscillations of the working fluid in the bypass line x.

The drawing shows a multistage centrifugal pump.

The device comprises steps with impellers 1-4 arranged in series on the same shaft 5 and having the same number of blades, and bypass identical lines 6-8 between the steps. The bypass lines (for example, line 7) are made up of several sections 9-11 that are installed in series and with the possibility of axial movement relative to each other. One of the sections (for example, section 11) of each bypass line can be equipped with a pressure sensor 12 and an external back-and-forth movement actuator 13 with a position lock. Pressure sensor 12 is connected to external drive 13 via amplifier 14. Sections 9-11 of overflow lines 6-8 are connected by bellows 15 and 16.

Multistage centrifugal pump operates as follows.

Shaft 5 and impellers 1-4 rotate from an external drive (not shown). During rotation in the bypass lines 6-8, pulsations of the working fluid pressure occur with a frequency equal to the blade flicker frequency, and since the number of blades in the impellers 1-4 is the same, resonant oscillations can occur in the bypass lines 6-8, which increases mechanical loads on the pump. The occurrence of resonance in the bypass line x 6-8 is possible if the oscillations from two neighboring workers

The wheels (for example, wheels 2 and 3) come in the same phase, which depends on the length of the overflow line (for example, line 7). Therefore, to reduce the level of pressure pulsations, it is necessary to adjust the length of the bypass line 7, which is achieved by moving section 11. The tightness of line 7 is provided by the bellows 15 and 16. This eliminates the increased pressure pulsations of the working fluid that can cause various damage to the bypass lines 6-8.

The use of pressure sensor 12, which supplies a signal to amplifier 14 and from there to external driver 13, allows pulsating pressure of the working fluid in bypass lines 6-8 to be reduced and achieved by adjusting their length during pump operation, which is beneficial for multi-mode pumps.

Claims (2)

1. Multi-stage centrifugal pump comprising steps with impellers arranged in series on the same shaft and having the same number of blades, and overflow lines between the steps, characterized in that, in order to increase the anti-vibration and strength characteristics by damping the oscillations of the working fluid in the bypass manifold x, the latter are made of several sections arranged in series with the possibility of axial movement of one relative to another. 2. Pump according to claim 1. characterized in that, in order to increase reliability by preventing resonant oscillations when the shaft frequency changes, one of the sections of each bypass line is equipped with a pressure sensor and an external reciprocating drive with a position lock.