RU2627477C1 - Centrifugal pump impeller - Google Patents

Abstract

FIELD: engine devices and pumps.

SUBSTANCE: impeller contains a main disk (1) with a hub (2), a cover disc (3) and nonlinear recurved blades (4) between them. In the disk (1), through holes (5) are formed between the inlet portions of the blades (4). The axes of the through holes are parallel to the axis of the impeller. A ring shoulder (6), coaxially surrounding the hub (2), is made on the outer side of the impeller on the disc (1). The outer surface of the disc (1) between the hub (2) and the shoulder (6) is flat, perpendicular to the axis of the impeller and smoothly mated with the inner cylindrical surface of the shoulder (6). The impeller is cast with a deflection in the pitch of the blades (4) in their inlet portion of no more than 2 mm and at the outlet portion - of no more than 3 mm. The internal diameter D1 of the shoulder (6) is from 0.44 to 0.45 of the diameter D2 of the impeller. The holes (5) are located near the concave side of the blade (4) along the circumference with a diameter D3 of 0.32 to 0.34 of D2. The diameter of the holes (5) is from 0.044 to 0.046 of D2. Between the disks (1,3) there are 8 blades (4). The peripheral outer portions of the discs (1,3) are formed by conical surfaces, tapering to the periphery of the impeller and the generators of which are inclined to the impeller axis at an angle of 75°±5°. The diameter of the impeller is from 226.0 mm to 224 mm.

EFFECT: reduction of the axial force effecting the impeller.

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Description

The invention relates to pumping technology, namely to the impellers of a centrifugal pump for pumping various liquid media.

A known impeller of a centrifugal pump containing a main disk with a hub and blades made on its front surface made curved backward, and through holes are made in the main disk in the space between the input sections of the blades (see US patent No. 5224821, class F01D 5 / 14, published on July 6, 1993).

However, the implementation of the outer rear surface of the main disk smooth does not allow to fully use the opportunity to reduce the axial force arising from the operation of the impeller as part of a centrifugal pump.

Closest to the invention in technical essence and the achieved result is a centrifugal impeller containing a main disk with a hub, a cover disk and blades placed between them, made curved backward, and through holes are made in the main disk in the space between the input sections of the blades, and from the outside on the main disk is made annular coaxially covering the protrusion of the hub portion protruding from the main disk (see US patent No. 5628616, CL F04D 29/22, publ. 13.05.1997 )

However, the implementation of through holes, as described above, leads to significant overflows between the space behind the impeller and the flowing part of the impeller, which increases the hydraulic resistance and, as a result, reduces the increase in pressure in the flowing part of the impeller.

The technical problem is the elimination of deficiencies identified in the analogues.

The technical result consists in the fact that it is possible to reduce the magnitude of the axial force on the impeller arising from the operation of a centrifugal pump.

The specified technical result is achieved due to the fact that the impeller of the centrifugal pump contains a main disk with a hub, a cover disk and blades placed between them, made curved backward, and in the main disk in the space between the input sections of the blades there are through holes, the axes of which are parallel to the axis the impeller, and on the outer side of the impeller on the main disk is made annular coaxially covering the portion of the hub shoulder protruding from the main disk, the outer the surface of the main disk, located between the hub portion protruding from the main disk and the annular shoulder, is made flat, perpendicular to the axis of the impeller and smoothly conjugated from the larger diameter side to the inner cylindrical surface of the annular shoulder, the impeller is cast with a pitch deviation of the blades at their input section no more than 2 mm and no more than 3 mm at the outlet, the inner diameter of the annular collar is from 0.44 to 0.45 of the diameter of the impeller, the through holes are located about the bent side of the blade around a circle, the diameter of which is from 0.32 to 0.34 of the diameter of the impeller, and the diameter of the through holes is from 0.044 to 0.046 of the diameter of the impeller, while between the main and cover discs there are 8 blades, peripheral outer sections the main and cover disks are formed by conical surfaces tapering to the periphery of the impeller, the generators of which are inclined to the axis of the impeller at an angle of 75 ° ± 5 °, and the diameter of the impeller is from 226.0 mm to 224 mm.

In the course of the study, it was revealed that in order to reduce the axial force arising during the operation of the impeller, it is important how the input section of the flowing part of the impeller is arranged with the space behind the impeller on the outside of the main impeller disk. The execution of the impeller with the above parameters allows to reduce hydraulic losses when the above input section of the flowing part of the impeller communicates with the space behind the main impeller disk and thereby reduce the amount of axial force that occurs when the impeller operates as part of a centrifugal pump.

In FIG. 1 is a front view of the impeller of a centrifugal pump.

In FIG. 2 is a longitudinal section AA of the impeller of the centrifugal pump of FIG. one.

The impeller of a centrifugal pump contains a main disk 1 with a hub 2, a cover disk 3 and the blades 4 located between them, made curved backward.

In the main disk 1, through holes 5 are made in the space between the input sections of the blades 4, the axes of which are parallel to the axis of the impeller, and from the outside on the main disk 1 there is an annular section of the hub 2 of the collar 6 protruding from the main disk 1.

The outer surface of the main disk 1, located between the hub portion 2 protruding from the main disk 1 and the annular shoulder 6, is made flat, perpendicular to the axis of the impeller, smoothly conjugated from the larger diameter side with the inner cylindrical surface of the annular shoulder 6.

The impeller is made cast with a deviation in pitch of the blades 4 at their inlet section not more than 2 mm and at the outlet section not more than 3 mm.

The inner diameter D1 of the collar 6 is from 0.44 to 0.45 of the diameter D2 of the impeller. Each through hole 5 is located near the concave side of the blade 4 in a circle, the diameter D3 of which is from 0.32 to 0.34 of the diameter D2 of the impeller, and the diameter D4 of the through holes 5 is from 0.044 to 0.046 of the diameter D1 of the impeller, eight blades 4 are located between the main 1 and the cover 3 disks; the peripheral outer sections of the main 1 and the cover 3 disks are formed by conical surfaces tapering to the periphery of the impeller, the generatrices of which are inclined to the axis of the impeller at an angle of 75 ° ± 5 °, and the diameter D2 the impeller is from 225.0 mm to 224.71 mm.

During operation of the centrifugal pump, the impellers rotating on the shaft increase in the interscapular channels formed by the main disk 1, the cover disk 3 and the blades 4, the speed of the fluid pumped by the pump. In a multi-stage centrifugal pump, the fluid flowing from the impeller enters the guide apparatus, where the fluid flow is partially inhibited, and the kinetic energy of the flow is partially converted to potential pressure energy. Further, from the guide apparatus, the fluid flow enters the impeller of the next, in which there is a further increase in its pressure.

Through holes 5 connecting the input section of the flowing part of the impeller located between the input sections of the blades 4, allow you to use the space located behind the impeller, formed by an annular collar 6, the outer surface of the main disk 1 of the impeller located inside the annular collar 6, and the surface of the guide vane (for multistage centrifugal pumps) balancing chamber, to reduce the axial force that occurs when the centrifugal pump operates on the impeller.

The impeller of a centrifugal pump can be used in borehole pumps, submersible pumps or any other centrifugal pump.

Claims (1)

The impeller of a centrifugal pump containing a main disk with a hub, a cover disk and blades placed between them, made curved backward, and in the main disk in the space between the input sections of the blades there are through holes, the axes of which are parallel to the axis of the impeller, and from the outside of the working wheels on the main disk are made annular coaxially covering the portion of the hub shoulder protruding from the main disk, the outer surface of the main disk located between the protruding of the main disk with a hub section and an annular shoulder, made flat, perpendicular to the axis of the impeller and smoothly conjugated from the side of a larger diameter with the inner cylindrical surface of the annular shoulder, characterized in that the impeller is cast with a pitch deviation of the blades at their input section of not more than 2 mm and at the exit section not more than 3 mm, the inner diameter of the annular shoulder is from 0.44 to 0.45 of the diameter of the impeller, the through holes are located around the concave side of the blade around the circumference the diameter of which is from 0.32 to 0.34 of the diameter of the impeller, and the diameter of the through holes is from 0.044 to 0.046 of the diameter of the impeller, while there are 8 blades between the main and cover disks, the peripheral outer sections of the main and cover disks are formed conical, tapering to the periphery of the impeller surfaces, the generators of which are inclined to the axis of the impeller at an angle of 75 ° ± 5 °, and the diameter of the impeller is from 226.0 mm to 224 mm.

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