SU1751426A1 - Centrifugal pump - Google Patents

Abstract

Usage: in the construction of centrifugal pumps with discharge disk. The essence of the invention: increased reliability by reducing the wear of pump elements by reducing the shaft deflection in transient conditions. The pump contains a shaft (B) 2 with impellers 3 mounted on bearings 4 to form a cylindrical gap 5 with body 1. A discharge chamber 7, end and radial slots 8, 9 and a rarefaction chamber 10 are formed with a discharge disk 6 with housing elements. Last communicated with low pressure zone 11, the body element forming the radial slot 9 is made of a composite casing 13 with a spherical groove and liner 14. The pump can be equipped with a hydraulic line with throttle 16, through which the outlet of the end slot 8 is additionally communicated with the low pressure zone 11 . The bearing 4 may be hydrostatic, having a medium supply line 17 with an adjustable valve 20. The valve 20 is connected to the rotational speed sensor 18 B. During operation of the pump, due to the water wedge in the radial gap 9, the deflection B 2 decreases in transient conditions. 2 hp f-ly, 1 ill.

Description

S 87 P 75 5

The invention relates to pumping and can be used in the construction of centrifugal pumps with a discharge disk.

The invention makes it possible to increase reliability by reducing the wear of pump elements by reducing shaft deflection in transient conditions. This is achieved by the fact that the body member, which forms a radial slit with the discharge disk, is made of a spherical groove and a liner installed therein with an external spherical bearing surface. The pump is equipped with a hydroline with a throttle, through which the outlet of the end slit is additionally communicated with the low pressure zone; at least one mz of bearings is made hydrostatic with a medium supply line, and the pump is equipped with sensors for shaft speed and pressure at the pump outlet and an adjustable valve connected to the latter and installed on the medium supply line for the hydrostatic bearing

The purpose of the invention is to increase reliability by reducing the wear of pump elements by reducing the shaft deflection in transient conditions,

The drawing shows a centrifugal pump.

The centrifugal pump includes a housing 1, a shaft 2 with impellers 3 mounted on bearings 4 to form a cylindrical slot 5 with a housing 1, a discharge disk 6 fixed to the shaft, forming a discharge chamber 7, face 8 and an outlet 9 on the shaft. slits and a dilution chamber 10 communicated with a low pressure zone 11, and through a radial 9 with a gap d, an end 8 slit with a gap of LSP and a discharge chamber with a high pressure zone 12. The casing ol & - ment, which forms a radial slit 9 with the discharge disk 6, is made of a composite casing 13 with a spherical groove and a liner 14 installed in it with an external spherical bearing surface 15. The pump can be equipped with a hydraulic arm with a throttle 16, through which the outlet the end slit 8 is additionally in communication with the low pressure zone 11. At least one of the bearings 4 can be made hydrostatic with a clearance D, having a medium supply line 17, this pump is equipped with frequency sensors rotating 18 of hall 2 and pump 19 at the pump outlet m with an adjustable valve 20 connected with the latter line 17 to supply the medium to the hydrostatic bearing.

Centrifugal nzsos works as follows.

When the shaft 2 rotates with the impellers 3 and the discharge disk b, a water wedge is formed in the radial slot 9 with a clearance d between the discharge disk b and the liners 14 with the outer spherical bearing surface 15 installed in the spherical groove of the yoke 13 of the housing 1. As a result, due to the additional shaft lift 2 umtsha ts its deflection s transient modes and VSSHOC pump elements. Hydraulic line throttle 16, by means of which the end face 8 is additionally connected to the low pressure zone 11, provides the working surfaces of the liners 14 (radial gap 9) with lubricating fluid.

At the initial start-up of the pump, the raising of the shaft Dz provides a hydrostatic bearing 4 with the medium supply line 17, reducing the wear of the pump elements. In pump operating modes, the shaft is supported both by lifting forces in the radial gap 9 and by forces in the cylindrical gap 5, relieving the hydrostatic bearing4. Due to the presence of 18-shaft rotational speed sensors and pressure 19, by their turn, hectares20 are covered, lowering the pressure and flow rate of the medium feeding the hydrostatic bearing, while maintaining the necessary room rise. This contributes to reducing the pressure in chamber 10 and increasing the end gap bch, reducing wear of the end face workers. surfaces of housing 1 and disk 6. The presence of spherical bearing surfaces 15 of the insert 14 and the yoke 13 also improves the operation of the end surfaces, wherein the fluid leak from the high pressure zone 12 through the cylindrical A gap 5 with a gap b enters the discharge chamber 7 and along the end 8 and radial 9 slots into the low pressure zone 11, providing a reliable size of the end gap щ b.

Claims (1)

1. A centrifugal pump, comprising a housing, mounted with impellers, mounted on bearings to form a cylindrical slit with the housing, fixed on the shaft an unloading disk, which forms an unloading chamber, end and radial slots and a vacuum chamber connected to the housing elements, and through the radial and end gaps and the unloading chamber - with the high pressure zone, which is due to the fact that, with the increase of reliability by decreasing 5 17514266 wear of the pump elements due to the reduction of the gap is additionally communicated with the zone of the shaft shaft deflection in transient conditions, which pressure, body element forming with discharge-3- A pump according to claim 1, characterized by The radial slit is made with an internal disk, at least one of the bearings of the cage with spherical pro-5 peaks is made hydrostatic, has a point and an insert installed in it with a medium supply line, and the pump is equipped with external spherical bearing surface sensors of the shaft rotation frequency and the pressure at the outlet of the pump and adjustable vene 2. The pump according to claim 1, about t l and h a go y and with tile associated with the latter and the fact that it is equipped with a hydroline with a drosse-10 installed on the line supplying the medium to Lem by means of which the output end of the hydrostatic bearing.