EP0466350B1

EP0466350B1 - Multi-stage centrifugal pumps

Info

Publication number: EP0466350B1
Application number: EP91305692A
Authority: EP
Inventors: Peter Thompson
Original assignee: David Brown Engineering Ltd
Current assignee: Clyde Union DB Ltd
Priority date: 1990-07-07
Filing date: 1991-06-24
Publication date: 1994-06-08
Anticipated expiration: 2011-06-24
Also published as: CA2046465A1; DE69102357D1; EP0466350A3; ES2057773T3; CA2046465C; EP0466350A2; DE69102357T2; GB9015047D0; ATE106994T1

Abstract

A multi-stage centrifugal pump with an axially split casing (10) and a number of impellers (14) carried by a drive shaft (12) has inter-stage bushings (24) and rings (22) for sealing each side of each impeller. Each bushing (24) or ring (22) is conventionally prevented from rotating by a radial pin protruding from the lower half of the casing (10) into an axial slot in the periphery of the bushing or ring. The pin is necessarily small and is liable to shear, difficult to engage in the slot and, in cases where the bushing (24) or ring (22) is diametrically split, does not allow rotation of the lower half for its removal without lifting the shaft (12). To avoid all these disadvantages, the exposed end (37) of a tangential pin (32) fitted in the casing (10) is flush with the join face (28) of the casing and abuts against a shoulder (44) formed by a recess (38) in the periphery of the bushing (24) or ring (22). This pin (32) can be larger than the known radial pin and is subjected to compression, not shear. <IMAGE>

Description

This invention relates to multi-stage centrifugal pumps, and more particularly to means for preventing rotation of an inter-stage bushing or ring in a multi-stage centrifugal pump with an axially split casing which houses a shaft carrying impellers.
A multi-stage centrifugal pump has a number of inter-stage bushings and rings, sometimes called stage pieces and wear rings, which fit within the casing and have to be accurately positioned radially and locked against axial and rotational movement. These bushings and rings have essentially the same function as one another, namely to seal each side of each impeller, but the bushings have a larger radial thickness and may carry integral guide vanes for the incoming fluid whereas the rings have a smaller radial thickness and lack guide vanes. Radial positioning is by means of a close fit between the periphery of the bushing or ring and a bore machined in the casing. Axial location is by means of a flange on the bushing or ring which engages in an annular groove machined in the casing.
Hitherto, (see for example FR 850 685) each bushing or ring has been prevented from rotating by means of a small pin fitted into a radial hole drilled in the base of the annular groove, said pin protruding into an axial slot machined in the flange. The pins have been fitted in the lower half of the casing in the vertical plane containing the pump axis, so that the axial slots in the bushings and rings could be engaged with the pins during the assembly of the shaft and impellers into the lower half of the casing. This arrangement has the disadvantages that the pin is necessarily small and is liable to shear if large or cyclic loads are applied to it during operation of the pump; it can be difficult to ensure correct engagement of the pin in the axial slot during assembly; and, in cases where the bushing or ring has been diametrically split to permit its easy removal, the pin does not allow rotation of the lower half to enable it to be removed without lifting the shaft.
The object of the present invention is to avoid the aforesaid disadvantages.
According to the invention, means for preventing rotation of an inter-stage bushing or ring in a multi-stage centrifugal pump with an axially split casing which houses a shaft carrying impellers are characterised by a tangential pin fitted into a hole provided in either half of the casing at its join face, the centre-line of the pin being normal to the join face and the exposed end of the pin being flush with said face, and a recess in which the pin engages provided in the periphery of the bushing or ring.
The invention will now be described, by way of example only, with reference to the accompanying drawings, of which :-

Figure 1 is a sectional side elevation of a multi-stage centrifugal pump with a casing which is split axially in a horizontal plane;
Figure 2 is a cross-section through the upper half of the casing on the line 2-2 in Figure 1;
Figure 3 is an end view of a diametrically split inter-stage bushing;
Figure 4 is a view of one half of the bushing in the direction of the arrow 4 in Figure 3;
Figure 5 is an end view of an inter-stage ring which is not diametrically split; and
Figure 6 is a side elevation of the ring shown in Figure 5.

Referring now to Figures 1 to 4 of the drawings, in a preferred embodiment of the invention a multi-stage centrifugal pump has a casing indicated generally at 10 which is split axially in a horizontal plane and houses a power-driven shaft 12 on which there are rigidly secured a plurality of impellers 14. Each impeller 14 is disposed in a chamber 16 having an axial inlet 18 and a radial outlet 20, the chambers 16 being connected in series in well-known manner. An inter-stage ring 22 is disposed at the inlet side of each impeller 14, and an inter-stage bushing 24 carrying integral guide means 25 for the incoming fluid is disposed at the other side thereof. As exemplified in Figures 3 and 4, each bushing 24 and ring 22 is diametrically split in a plane 26 incline at, say, 10° to the horizontal, the split being below the joint face 28 of the casing 10 at that side of the casing 10 where the periphery of the rotating shaft 12 moves upwardly. The two halves of each bushing 24 (and ring 22) are located together by dowels 30. Each bushing 24 (and ring 22) is prevented from rotating by a tangential pin 32 (see Figure 2) driven into a hole 34 machined in the upper half 36 of the casing 10 at its joint face 28, the centre-line 29 of the pin 32 being normal to the joint face 28 and the exposed end 37 of the pin 32 being flush with the joint face 28. The pin 32 engages in a recess 38 machined in a flange 40 on the upper half 42 of the bushing 24 (or ring 22) the recess 38 including a shoulder 44 against which the exposed end 37 of the pin 32 abuts. The flange 40 engages in known manner in an annular groove 45 machined in the casing 10. In practice, due to manufacturing tolerances, the exposed end 37 of the pin 32 may be slightly short of the joint face 28 of the casing 10 without departing from the scope of the invention, but it must not protrude beyond said face. The pin 32 is positioned at that side of the casing 10 which places said pin under compression if the bushing 24 (or ring 22) tends to rotate in the same direction as the shaft 12.
In a modification exemplified by the ring 22 shown in Figures 5 and 6, the bushing 24 and rings 22 are not diametrically split, in which case the pins 32 can equally well be fitted in the lower half 46 of the casing 10.
In another modification, the recess 38 is machined in a suitable part of the periphery of the bushing 24 (or ring 22) other than the axial location flange 40 thereon.
Arrangements in accordance with the invention have the advantages that the pin 32 can be much larger than the radial pin used hitherto and is in compression, not shear, so that it will readily withstand all anticipated loadings; there is a greater certainty of correct engagement of the pin 32 in the recess 38, and if engagement is not achieved further assembly of the pump is prevented; and, in cases where the bushing 24 (or ring 22) is diametrically split and the pin 32 is fitted in the upper half 36 of the casing 10, the lower half 48 of the bushing 24 or ring 22 can be rotated to enable it to be removed without lifting the shaft.

Claims

Means for preventing rotation of an inter-stage bushing (24) or ring (22) in a multi-stage centrifugal pump with an axially split casing (10) which houses a shaft (12) carrying impellers (14) characterised by a tangential pin (32) fitted into a hole (34) provided in either half (36 or 46) of the casing (10) at its joint face (28), the centre-line of the pin (32) being normal to the joint face (28) and the exposed end of the pin (32) being flush with said face, and a recess (38) in which the pin (32) engages provided in the periphery of the bushing (24) or ring (22).
Means according to Claim 1, further characterised in that the pin (32) is positioned at that side of the casing (10) which places it under compression if the bushing (24) or ring (22) tends to rotate in the same direction as the shaft (12).
Means according to either of the preceding Claims, further characterised in that the recess (38) is machined in an axial location flange (40) of the bushing (24) or ring (22).
Means according to any one of the preceding Claims, further characterised in that the casing (10) is split in a horizontal plane, the bushing (24) or ring (22) is split in a different plane, and the pin (32) is fitted into a hole (34) machined in the upper half (36) of the casing (10).