CS251416B1 - Runner's fastening on pump's shaft - Google Patents

Abstract

Fastening of a runner wheel on the shaft (2) of a pump, particularly of a twin-inlet runner wheel fixed on the shaft by a feather key (3), the runner wheel comprising a hub (11) of hydraulic shape with two end faces, the first end face bearing against a collar (22) of the shaft, the second end face of the hub bearing against a divided ring (4) situated in a circumferential groove of the shaft, over which divided ring a shrunk-on ring (5) is applied at heated conditions. The external surface of the shrunk-on ring corresponds to the hydraulic shape of the hub of the runner wheel. <IMAGE>

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to the fixation of an impeller on a pump shaft, in particular an impeller with a double-sided inlet.

The impellers with double-sided inlet can be mounted on the shaft in such a way that the torque is transmitted from the drive and the axial force is absorbed in both directions. So far, impellers with double-sided inlet are fixed to the pump shaft by placing them on a tongue / located in the longitudinal shaft groove, with the impeller hub on the reverse side of the drive resting against the shaft collar and the impeller hub on the drive side. The disadvantage of these embodiments is that the used spacer sleeves increase the diameter of the rotor at the inlets to the impeller, thereby increasing the diameter of the impeller. The inlet cross-section of the impeller will have an adverse effect on the pump performance and efficiency. A further disadvantage is that by tightening the rotor with nuts with spacers, the rotor deforms, which in turn adversely affects the reliability and service life of the pump.

Another known solution for securing the impeller with a double-sided inlet to the pump shaft is to provide a joint which provides both torque transmission and axial force transmission. The disadvantage of this simple construction is the high technological demands on production and at the same time the increased risk of fatigue fractures.

These disadvantages of the known solutions are essentially eliminated by the invention which is the fixing of the impeller on a pump shaft, in particular a double-sided impeller equipped with a hydraulic-shaped hub having two end faces supported on a tongue shaft located in the longitudinal groove of the shaft. the impeller hub surface is supported on the radial abutment surface of the shaft collar, and is based on the second end face of the impeller hub being supported on the face of the split ring housed in the circumferential groove formed in the shaft after the second end face of the impeller hub; wherein the split ring in the circumferential groove of the shaft is fixed by heat sliding on the outer surface of the split ring, the outer shape of which corresponds to the hydraulic shape of the impeller hub.

It is a further object of the present invention that the outer surface of the split ring is formed by two opposed faces of different diameters, wherein the first peripheral surface of the smaller diameter is on the hub side of the impeller and the second peripheral surface of the larger diameter is formed on the distal portion of the outer surface of the ring from the impeller hub.

It is a further object of the invention that the pin hole is formed from two cylindrical portions, wherein the diameter of the first cylindrical portion corresponds to a smaller diameter peripheral surface of the outer surface of the split ring and the diameter of the second cylindrical portion corresponds to a larger diameter. .

Finally, it is an object of the invention that a cylindrical portions of the inner hole of the shrink hole and the circumferential surfaces of the outer, split ring surface are provided with a structural lock after the shroud of the shrink hole.

The higher effect of the solution according to the invention consists in an increased operating efficiency due to the elimination of the risk of shaft fatigue fractures and the removal of threaded joints. Furthermore, a higher effect results in an increase in the efficiency of the pump, since the inlet cross section of the impeller is not reduced and, as a result, there is less friction loss.

An embodiment of the impeller attachment with a double-sided inlet on the pump shaft according to the invention is shown in the accompanying drawings, in which the field of application. 1 shows a partial longitudinal view. Fig. 2 is a detail of the impeller attachment with a double-sided entry on the pump shaft from the side of the pump drive (not shown).

• Impeller 1 with bilateral inlet, op and friction hub 11 with two opposing faces 111. 112 is mounted on the pump shaft 2 by means of a tongue 2. The first face 111 of hub 11 is located on the opposite side 21 of shaft 2 from the drive not shown. the front surface 112 of the hub 11 is located on the side 22 of the shaft 2 closer to the drive (not shown). The shaft 2 is provided with a collar 22 with a radial abutment surface 221 on the reverse side 21 of the drive (not shown) and a circumferential groove 24 formed on the side 23 of the drive (not shown) provided after the second end surface 112 of the impeller hub 11. an impeller 1 with a double-sided inlet through the first end face 111 of the hub 11. In the circumferential groove 21 of the shaft 2, there is a split ring 6 whose face 40 is supported by the second end face 112 of the impeller hub 11. On the outer surface 41 of the split ring 4, two circumferential surfaces are set relative to one another

251 416

411. 412 of different diameters, the first peripheral surface 411 of the smaller diameter being closer to the hub 11 of the impeller 1 and the second peripheral surface. 412. of a larger diameter is further away from the hub 11 of the impeller 1. Through the split ring 4, it is moved by its inner bore 51 with the abutment. that its outer shape 52 corresponds to the hydraulic · shaped hub 113 of the impeller 11 of the first inner hole 51 of clamping ring 2 J ^e vytvořen.ze two cylindrical parts £ L2, the diameter of the first cylindrical portion 511 closer to the hub 11 of the impeller 1 corresponds to the minor diameter of the first circumferential surface 411 of the outer surface 41 of the split ring 4 and the diameter of the second cylindrical portion 512 corresponds to the larger diameter of the second peripheral surface 412 of the outer surface of the split ring 4 of this graduated cylindrical portion 511. The ring 4 forms a construction lock 2 in the heated state after the moonshaft 2, which secures against the displacement and preloading of the split ring 4 on the split ring 4 while hot, secures the split ring 4 ^{in the} circumferential groove 24 of the shaft 2. is the impeller 1 with ob A double-sided entry ensures axial displacement in both directions.

Claims (4)

SUBJECT OF THE INVENTION 251 41B l _e Fixing the impeller to a pump shaft 4, in particular an impeller and a double-sided inlet having a hydraulic-shaped hub, with two end faces, supported on the shaft by a tongue located in the longitudinal groove of the shaft an abutment surface of the shaft collar, characterized in that the second end face (112) of the impeller hub (11) is supported on the face (40) of the split ring (4) housed in the circumferential groove (24) formed in the shaft (2) ) after the second end face (112) of the impeller hub (11), wherein the split ring (4) in the circumferential groove (24) of the shaft (2) is fastened by a shroud (5) slid onto the outer surface (41) a split ring (4) whose outer shape (52) corresponds to the hydraulic shape (113) of the impeller hub (11) · An impeller fastening on a pump shaft according to claim 1, characterized in that the outer surface (41) of the split ring (4) is formed by two faces (411, 412) of different diameters relative to each other, the first peripheral surface (411) of smaller diameter. the diameter of the impeller hub (11) and the second larger diameter peripheral surface (412) is formed on the distal portion of the outer surface (41) of the split ring (4) from the impeller hub (11) · An impeller attachment to a pump shaft according to items 1 and 2, characterized in that the inner bore (51) of the shroud (5) is formed of two cylindrical portions (511, 512), the diameter of the first cylindrical portion '511 being smaller. the diameter of the first peripheral surface (411) of the outer surface (41) of the split ring (4) and the diameter of the second cylindrical portion (512) corresponds to the larger diameter of the second peripheral surface (412) of the outer surface (41) of the split ring (4). 4. Fixing of the impeller to the pump shaft according to Claims 1 to 3, characterized in that the cylindrical parts (511, 512) of the inner bore (51) are chucked (5) and the peripheral surfaces (411, 412) of the outer ring surface (41) (4) is constructed after installation of the shroud (5) construction lock (6) ·