RU133214U1 - CENTRIFUGAL STEP OF SUBMERSIBLE MULTISTAGE CENTRIFUGAL PUMP - Google Patents

Abstract

1. The centrifugal step of a submersible multistage centrifugal pump, consisting of a guide apparatus fixed in the pump casing, having profiled channels and a hub, inside of which an outer bearing sleeve made of carbide material is installed, and mounted on the shaft by means of an impeller spindle having a drive and a driven disc , profiled channels, and the inner sleeve of the bearing, which is placed between the shaft and the outer sleeve of the bearing, characterized in that the hub guide about the apparatus is made in the form of a sleeve, which is installed on the lower disk of the guide apparatus from the entrance to the impeller, and the hub length is at least 60% of the length of the outer bearing bush and at least 30% of the mounting height of the step, the angle of inclination of each disk of the guide apparatus to the axis of rotation is from 90 ° to 120 °. 2. The step according to claim 1, characterized in that a lock is made in the outer sleeve of the bearing and the hub of the guide apparatus to prevent rotation in the form of a protrusion and depression. The step according to claim 1, characterized in that the axial grooves are made on the outer side of the outer sleeve and (or) on the inner side of the hub of the guide apparatus. The step according to claim 1, characterized in that on the inner side of the outer sleeve and (or) on the outer side of the inner sleeve a helical groove is made. The step according to claim 1, characterized in that the outer and inner bushings of the bearing have axial support in the form of a T-shaped shoulder. The step according to claim 6, characterized in that an annular protrusion is made on the driving wheel of the impeller, the inner diameter of which is equal to the outer

Description

The invention relates to submersible centrifugal pumps designed to work in wells with a high content of mechanical impurities, in particular to wear-resistant elements in the pump stages, designed to increase the durability of the stages.

A step of a submersible pump is known from the prior art, consisting of a guide apparatus fixed in the pump housing having profiled channels and a hub, inside of which a sleeve with a variable diameter is fixedly fixed, and fixed to the shaft by means of a dowel, an impeller having profiled channels and a hub, and an intermediate sleeves with a shoulder, which is placed between the hub of the impeller and the hub of the guide apparatus. According to the invention (see patent RU 2286481, IPC F04D 13/10, publ. 10/27/2006), the plane in which the collar of the intermediate sleeve and the sleeve of the guide apparatus come into contact is located inside the guide apparatus.

Such a technical solution can only be used in the diagonal steps of a submersible pump. In the diagonal steps, the angle of inclination of each disk of the guide device to the axis of rotation is more than one hundred and twenty degrees, and therefore there is a place for pressing the outer bearing sleeve in such a way that the plane in which the collar of the intermediate sleeve and the guide device sleeve is in contact is located inside the guide device.

In most submersible pumps, centrifugal stages are used. Their design does not allow the use of this technical solution without a significant reduction in energy characteristics, an increase in the installation height of the stage or a decrease in reliability.

Closest to the claimed solution in terms of the essential features is the step of a submersible centrifugal pump, consisting of a guiding apparatus fixed in the pump casing having profiled channels and a hub, inside of which a sleeve with a variable diameter is fixedly fixed and fixed to the shaft by means of an impeller spindle having profiled channels and the hub and the intermediate sleeve with a shoulder, which is located between the hub of the impeller and the hub of the guide apparatus and the contact uet his shoulder with a guide vane sleeve end (see US Pat. 4,741,668, IPC F04D 29/02, publ. 03.05.1988).

The disadvantage of this step is the lack of reliability. The hub of the guide vanes is virtually absent, which is why the stationary outer bearing sleeve cannot be pressed securely. Therefore, there is a possibility of rotation of the outer sleeve relative to the apparatus, which is the housing of the intermediate bearing. In addition, the coefficient of thermal expansion of the hard alloy of which the bearing sleeve is made is less than that of the metal of which the guide apparatus is made. Therefore, with an increase in temperature, the likelihood of a turn increases.

The problem to which the proposed utility model is directed is to increase the reliability of the pump and increase its service life.

The technical result, the achievement of which the claimed solution is directed, is to increase the durability of the pump in wells with a high content of solids.

This problem is solved due to the fact that the centrifugal stage of a submersible multistage centrifugal pump, consisting of a guide apparatus fixed in the pump casing, having profiled channels and a hub, inside of which an outer bearing sleeve made of carbide material is installed, and mounted on the shaft by means of an impeller spline having a master and a driven disc, profiled channels, and an inner bearing bush, which is located between the shaft and the outer bearing bush, The hub of the guide vane is made in the form of a sleeve, which is mounted on the lower disk of the guide vane from the entrance to the impeller, and the length of the hub is at least sixty percent of the length of the outer sleeve of the bearing and at least thirty percent of the mounting height of the stage, the angle of inclination of each disk guide vanes to the axis of rotation is from 90 ° to 120 °.

In addition, a lock is made in the outer sleeve of the bearing and the hub of the guide apparatus to prevent rotation in the form of a protrusion and a depression.

In addition, axial grooves are made on the outer side of the outer sleeve and (or) on the inner side of the hub of the guide apparatus.

In addition, grooves are made at the end of the outer sleeve of the bearing at an angle to the radius in the range from -70 to 70 °.

In addition, a helical groove is made on the inner side of the outer sleeve and (or) on the outer side of the inner sleeve.

In addition, the outer and inner bushings of the bearing have an axial support in the form of a T-shaped collar.

In addition, an annular protrusion is made on the driving wheel of the impeller, the inner diameter of which is equal to the outer diameter of the T-shoulder of the outer sleeve of the bearing, the height of the protrusion is at least half the height of the T-shoulder and decreases in the direction from the center to the periphery

In addition, a collar is made in the guide apparatus, in which the outer sleeve of the bearing abuts against the end side.

In addition, the vanes of the guide vane at the outlet touch the hub; their length at the point of contact is at least 60% of the length of the hub.

The indicated ratio of the lengths of the bearing bush and the hub of the guide apparatus (the hub length is at least sixty percent of the length of the outer bearing bush and at least thirty percent of the mounting height of the step) will allow for centrifugal steps in which the angle of inclination of each disk of the guide apparatus to the axis of rotation is from 90 ° to 120 °, and which, in terms of the number of sizes, comprise more than 70% of all submersible pumps, ensure reliable mounting of the outer bearing sleeve, eliminate the possibility of and the outer sleeve of the bearing relative to the guide apparatus, which is the housing of the intermediate bearing.

The implementation of the lock in the form of a protrusion and a hollow in the outer bearing sleeve and the hub of the guide apparatus allows to reduce the pressing forces of the outer bearing sleeve, and at the same time to eliminate the likelihood of turning the outer bearing sleeve relative to the device, which is the intermediate bearing housing. Also, this design feature eliminates the likelihood of cranking at high temperatures.

The execution on the outer side of the outer sleeve and (or) on the inner side of the hub of the guide apparatus of the axial grooves increases the coefficient of friction due to the presence of sharp cutting edges and reduces the likelihood of turning.

The grooves at the end of the outer sleeve of the bearing, made at an angle to the radius in the range from -70 to 70 °, provide heat dissipation from the axial friction pair, and this increases the service life of the bearing.

The helical groove on the inner side of the outer sleeve and (or) on the outer side of the inner sleeve will effectively remove mechanical impurities from the radial friction pair.

The manufacture of an annular protrusion on the driving disk of the impeller makes it possible to make the flowing part smooth and reduce vortex loss.

If the height of the blades at the exit of the guide vane is at least 60% of the length of the hub, then in this case the blades play the role of stiffeners and increase the strength and reliability of the structure.

The essence of the proposed technical solution is illustrated by drawings, where

figure 1 presents a General view of the centrifugal stage of a submersible pump,

figure 2, a design with a T-shaped bearing.

figure 3 of the inner sleeve of the bearing,

figure 4 outer sleeve of the bearing with axial grooves,

5, the outer sleeve of the bearing with a helical groove.

The centrifugal stage of a submersible multistage centrifugal pump consists of a guide apparatus 2 fixed in the pump housing 1, having profiled channels 3 and a hub 4, and fixed to the shaft 5 by means of a key 6 of the impeller 7, having drive and driven disks, profiled channels 8, and an inner sleeve 9 bearing, which is placed between the shaft 5 and the outer sleeve 10 of the bearing. An outer bearing sleeve 10, made of carbide material, is installed inside the hub 4. In accordance with the proposed technical solution, the hub 4 of the guide apparatus 2 is made in the form of a sleeve that is mounted on the lower disk of the guide apparatus 2 from the entrance to the impeller 7. Length L the hub 4 is at least sixty percent of the length L _{1 of the} outer sleeve 10 of the bearing and at least thirty percent of the mounting height L _{2 of the} stage. The angle of inclination of each disk of the guide apparatus 2 to the axis of rotation is from 90 ° to 120 °.

In the outer sleeve 10 of the bearing and the hub 4 of the guide apparatus 2, a lock 11 is made in the form of a depression and a protrusion, respectively. On the outer side of the outer sleeve 10 and (or) on the inner side of the hub 4 of the guide apparatus 2, axial grooves 12 are made.

According to the embodiment, the outer 10 and inner 9 of the bearing sleeve have an axial support 14 in the form of a T-shaped collar.

According to an embodiment, at the end 14 of the outer sleeve of the bearing 10, grooves can be made at an angle to the radius in the range from -70 to 70 °.

On the inner side of the outer sleeve 10 and (or) on the outer side of the inner sleeve 9 there is a helical groove 13.

An annular protrusion 15 is made on the driving disk of the impeller 7, the inner diameter of which is equal to the outer diameter of the T-shoulder 14 of the outer sleeve 10 of the bearing. On the hub 4, in the guide apparatus 2, an annular stop 16 is made, in which the outer sleeve 10 of the bearing abuts against the end side.

The vanes of the guide apparatus 2 at the outlet touch the hub 4, their length at the point of contact is at least 60% of the length of the hub 4.

The stage of a submersible multistage centrifugal pump operates as follows.

When the shaft 5 is rotated through the key 6, the impeller 7 is rotated, as a result of which the fluid passing through its profiled channels 8 acquires a pressure in the form of pressure and kinetic energy. Kinetic energy is converted into pressure when fluid passes through the profiled channels 3 of an adjacent guide apparatus 2, which is fixedly mounted in the pump housing 1.

The radial forces acting on the shaft 5 are perceived by the intermediate bearing, which consists of bushings 9 and 10. Due to the fact that the hub 4 of the guide apparatus is not less than sixty percent of the length of the outer sleeve 10 of the bearing and not less than thirty percent of the mounting height of the stage, made in the form of a sleeve and mounted on the lower disk of the guide apparatus 2 from the side of the entrance to the impeller 7, and the angle of inclination of each disk of the guide apparatus to the axis of rotation is from 90 ° to 120 °, reliable press Application of the outer sleeve 10 of the bearing, eliminates the possibility of the outer-rotating bearing sleeve 10 relative to the guide unit 2, which is the intermediate bearing housing. The execution on the outer side of the outer sleeve 10 and (or) on the inner side of the hub 4 of the guide apparatus 2 axial grooves 12 increases the friction coefficient due to the presence of sharp cutting edges and reduces the likelihood of turning.

According to the embodiment, the axial forces acting on the impeller 8 are perceived by the axial bearings in the form of collars 14.

To increase the service life of the bearing, at the end of at least one of the shoulders 14, grooves are made at an angle to the radius from -70 to 70 °, which provide heat removal from the axial friction pair.

The helical groove 13 on the inner side of the outer sleeve 10 and (or) on the outer side of the inner sleeve 9 will effectively remove mechanical impurities from the radial friction pair.

The manufacture on the driving disk of the impeller 7 of the annular protrusion 15, allows you to make the flowing part smooth and reduce the loss of vortex formation.

If the height of the blades at the exit of the guide apparatus 2 is at least 60% of the hub length, then in this case the blades play the role of stiffeners and increase the strength of the hub 4 and, accordingly, the reliability of the design of the intermediate bearing in the stage.

The step of the submersible centrifugal pump, shown in Figure 2, works in a similar way, but with the difference that the lock 11, made in the form of a protrusion and a hollow in the outer sleeve 10 of the bearing and the hub 4 of the guide apparatus 2, reduces the pressing force of the outer sleeve 10 of the bearing , and at the same time eliminate the possibility of its rotation relative to the guide apparatus 2, which is the housing of the intermediate bearing. Also, this design feature eliminates the likelihood of cranking at high temperatures.

The annular emphasis 16 allows to exclude the loss of the sleeve 10 in the axial direction.

Claims (8)

1. The centrifugal step of a submersible multistage centrifugal pump, consisting of a guide apparatus fixed in the pump casing, having profiled channels and a hub, inside of which an outer bearing sleeve made of carbide material is installed, and mounted on the shaft by means of an impeller spindle having a drive and a driven disc , profiled channels, and the inner sleeve of the bearing, which is placed between the shaft and the outer sleeve of the bearing, characterized in that the hub guide about the apparatus is made in the form of a sleeve, which is installed on the lower disk of the guide apparatus from the entrance to the impeller, and the hub length is at least 60% of the length of the outer bearing bush and at least 30% of the mounting height of the step, the angle of inclination of each disk of the guide apparatus to the axis of rotation is from 90 ° to 120 °. 2. The step according to claim 1, characterized in that a lock is made in the outer sleeve of the bearing and the hub of the guide apparatus to prevent rotation in the form of a protrusion and a depression. 3. The step according to claim 1, characterized in that the axial grooves are made on the outer side of the outer sleeve and (or) on the inner side of the hub of the guide apparatus. 4. The step according to claim 1, characterized in that on the inner side of the outer sleeve and (or) on the outer side of the inner sleeve there is a helical groove. 5. The step according to claim 1, characterized in that the outer and inner bushings of the bearing have axial support in the form of a T-shaped collar. 6. The step according to claim 6, characterized in that an annular protrusion is made on the driving disk of the impeller, the inner diameter of which is equal to the outer diameter of the T-shoulder of the outer bearing sleeve, the height of the protrusion is at least half the height of the T-shaped shoulder and decreases in the direction from the center to the periphery. 7. The step according to claim 1, characterized in that in the guide apparatus, on the hub, an annular stop is made, in which the outer sleeve of the bearing abuts against the end side. 8. The stage according to claim 1, characterized in that the vanes of the guide apparatus at the outlet touch the hub, their length at the point of contact is at least 60% of the length of the hub.

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