SU688709A1 - Arrangement for balancing radial load of centrifugal pump - Google Patents

Description

one

The invention relates to pump engineering and can be used in dynamic hydraulic machines for balancing the rotor against radial forces.

A device for balancing the radial forces of a centrifugal pump is known, comprising a sleeve and a sleeve mounted with a gap relative to the sleeve, in which balance chambers are made, which are hydraulically interconnected and with the high-pressure cavity of the pump through the gap between the sleeve and the sleeve 1.

However, due to the change in the radial clearance when the shaft is deflected, there is not a large pressure difference between the chambers and the cavity in diametrically opposed chambers, as a result of which the balancing force is insignificant.

The purpose of the invention is to increase the efficiency of unloading the working bodies from radial forces.

To achieve this goal, the pump bushing is made with a shoulder, and the gap connecting the balancing chambers with the high-pressure cavity is formed by the shoulder bushing and the end of the sleeve.

FIG. 1 shows a pump, a longitudinal section; in fig. 2-section A-A in FIG. one.

The device comprises a centrifugal wheel 1 with a sleeve 2 and a clip 4 mounted with a gap 3 relative to the sleeve 2, in which balancing chambers 5 are made, hydraulically interconnected by a gap 3 and with a high pressure cavity 6 through the gap 7 between the sleeve 2 II clip 4. Gap 7 is formed by a ledge 8 of the sleeve 2 and the end face 9 of the holder 4.

When the pump operates in the optimal mode, as in most pumps, the radial load is absent or has a minimum value, therefore there is no shaft deflection, the radial clearance 3 is uniform and the pressure in the chambers 5 is the same.

In the case of a change in the mode of operation of the pump, a radial load arises, above the tip above, which causes the shaft to deflect in the same direction. As a result, the radial clearance 3 is uneven: in the lower part it is smaller, in the upper part it is larger than the nominal value. The end gap 7 is almost unchanged. Consequently, the pressure in the upper chambers is very thick and, depending on the size of the gap, can reach values close to the suction pressure, in the lower chambers, on the contrary, the pressure increases and a counter-weighting force arises, directed upwards.