RU4788U1 - PUMP CENTRIFUGAL SMALL SIZE - Google Patents

Abstract

1. A centrifugal pump, in the housing of which there is an axially movable impeller with a suction neck, hub and shaft, equipped with cylindrical bearings located on both its sides, the ends of which are provided with ring protrusions on their minimum diameter, forming ring unloading wheels with corresponding wheel ends chamber, characterized in that the end of the neck of the impeller is equipped with a thrust sliding bearing, and the housing is a connecting cover with a cylindrical bore, providing the connection of the drive motor with the housing and installed coaxially with the output end of the pump shaft, which is equipped with a radial groove made at its end and a sleeve installed in place of the radial groove, with radial and axial cuts made in the connecting cover in place of the cylindrical bore. 2. The pump according to claim 1, characterized in that in the hub of the impeller discharge holes are made.

Description

PUMP CENTROBEST

The supposed noisy model belongs to the field of pumping.

A well-known centrifugal pump, consisted of an impeller with a shaft mounted in the hydraulic housing in the housing. / Vane pumps: Reference book / VFL.Znshshtsky et al .-% а: Mechanical Engineering Д986, -334 с. .1 on page

A disadvantage of the known pump is the design complexity, low volume KP and high iaasso-dimensional indicators.

The closest to the utility model in terms of technical nature and the achieved effect is a centrifugal pump, in the casing of which there is an axially movable impeller equipped with cylindrical bearings located on both its torons, the ends of which are provided with a small diameter, forming with the corresponding ends of the wheel the ring of the ra5Gru "" sight cameras / USSR Author's Certificate J 302499,. ЖЩ / 04, 1969 /.

The disadvantage of this pump is its low reliability due to the impossibility of independently installing the wheel in the axle: in the second direction, as well as the complexity of the design and low volume KP due to large leaks through the gaps.

The purpose of the utility model is to increase the reliability of the pump and volumetric KESh, simplifying the design.

This goal is achieved by the fact that in a centrifugal pump, in the casing of which there is an impeller movable in axial direction with a suction mouth, hub and shaft, equipped with cylindrical bearings located on both sides, the ends of which are provided with ring protrusions at their minimum diameter, forming unloading chambers forming with the respective ends of the wheel of the annulus, according to the proposed decision, the end of the neck of the impeller is equipped with a thrust sliding bearing, and the housing is equipped with an adapter lid with a cylindrical bore, which provides the connection of the drive motor with the housing and is mounted coaxially with the output end of the pump shaft, which is equipped with a radial groove made at its end and a sleeve installed in place of the radial groove. In this case, radial and axial cuts are made in the connecting {fistula in the place of the boreal bore, and discharge openings are made in the hub of the impeller.

On Fig, 1 shows a longitudinal section of a pump; figure 2 - node 1 by

L; in Fig.3 view A in Fig.4 is a connection diagram of a drive motor with a pump; figure 5 is a section through.

The pump consists of a housing 1, an impeller 2 with a suction neck 3 and a drying 4, cylindrical supports 5 and 6, the ends of which form ring unloading chambers 7 and 8. with the corresponding end face of the wheel. The end face of the impeller neck 3 is provided with a thrust sliding bearing 9, and the housing 1 - a connecting cover 10 with a cylindrical bore 11, mounted coaxially with the output end of the shaft 12. The latter is equipped with a radial groove 13 made at its end and a sleeve 14 installed in place of the address groove. Radial 15 and axial 16 cuts are made in the connecting cover 10 at the bore 11, and discharge openings 17 are made in the hub 4. The pump also has an outlet 18, a pressure pipe 19, a cavity 20, an actuator 21 is installed in the bore 11 of the cover 10 by means of a neck 22 fixed , for example, with a clamp 23. The shaft 24 of the drive 21 enters with its flats in the radial groove 13 of the shaft 12 of the pump.

The pump operates as follows. When you turn on the drive 21 in operation, its shaft 24 begins to rotate. The rotation is transmitted through a radial groove 13 to the pump shaft 12 and the impeller 2. When the impeller 2 rotates, the fluid is pumped into the outlet 18 and the discharge pipe 19. At the same time, part of the fluid from the outlet 18 flows into the disk cavities 20, and from there through the discharge chambers 7, 8 and radial bearings 5.6, as well as through the gaps between the end of the neck 3 and the bearing 9 and the discharge holes 17 into the suction cavity of the pump. When the fluid flows through the discharge chambers 7 and 8, the pump wheel 2 is automatically self-installed in the middle position. If there is a displacement of the pump wheel to the left under the action of axial force, then the width of the slit 8 decreases and the pressure on the driven disk of the wheel increases, as a result of which the wheel occupies a middle position. In order to reduce the leakage of fluid from the outlet 18 into the suction cavity of the pump and to move the volumetric SHSH, a thrust bearing 9 is provided at the end of the neck 3 in the pump, which creates additional resistance to leaks. For the same purpose, openings 17 in the wheel hub 4 serve, the cross sections of which are selected so that the axial forces on the driven and driving wheels are the same. In addition, the bearing 9 also increases the reliability of the pump, since in the case of bottom holes 17 or the wrong choice of their cross-section, it perceives excessive axial load on the drive wheel.

2

| to simplify the design of the pump and implement the use of household electric drills as a drive, the pump has a connecting cover 10 with a cylindrical bore 11, the diameter of which is unified with the diameter of the connecting necks 22 of the electric drill. The sleeve 14 excludes the deformed shaft 12 when transmitting torque and allows it is technologically simple to make a radial groove 13. The radial and axial cuts 15 and 16 provide the elasticity of the walls of the lid 10 in place of the bore 11 which makes it possible to clamp when the connecting neck 22 of the actuator 21 with a simple device such as a clamp, ensuring the alignment of the drive shaft 24 with the pump shaft 12, which simplifies the design and increases the reliability of the pump

Authors - 7 Arefiev N.N

  Ivanov E.G.,

Claims (2)

1. A centrifugal pump, in the housing of which there is an axially movable impeller with a suction neck, hub and shaft, equipped with cylindrical bearings located on both its sides, the ends of which are provided with ring protrusions on their minimum diameter, forming ring unloading wheels with corresponding wheel ends chamber, characterized in that the end of the neck of the impeller is equipped with a thrust sliding bearing, and the housing is a connecting cover with a cylindrical bore, providing the connection of the drive motor with the housing and installed coaxially with the output end of the pump shaft, which is provided with a radial groove made at its end and a sleeve installed in place of the radial groove, while radial and axial cuts are made in the connecting cover in place of the cylindrical bore.  2. The pump according to claim 1, characterized in that in the hub of the impeller discharge holes are made.