RU200745U1 - Combined pump bearing unit - Google Patents

Abstract

The useful model relates to mechanical engineering, in particular to the bearing assemblies of non-volumetric displacement pumps, which perceive increased radial and axial loads acting on the shaft during the operation of the pumping unit. The combined bearing unit of the pump contains a housing in which a shaft is installed, located in radial and thrust plain bearings, and the thrust bearing thrust bearing is fixed against rotation relative to the bearing unit housing by means of pins and is mounted on a damping element located between the bearing unit housing and the thrust bearing housing with an anti-friction washer , the housing of the bearing unit is installed on the journal of the pump shaft and is made with a flange, in which holes are made for installing fasteners through them to fix the housing of the bearing unit in the pump housing, the heel housing is installed in the support flange through a damping element located between them and is fixed against rotation relative to the support flange by means of pins, and the supporting flange is installed on the shaft journal and is fixed against rotation relative to it by means of a key, the radial bearing is installed in the bearing unit housing, while its fixed anti-friction the bushing is placed in a protective casing and fixed in the bearing unit housing by rolling it in the bearing unit housing, by means of which a fixed antifriction bushing with a casing is clamped in the bearing unit housing, a fixed antifriction bushing covers a movable antifriction bushing installed on the protecting bushing of the pump shaft journal, and between A thrust sleeve is put on the shaft journal with a protective sleeve and a support flange, and the protective sleeve is fixed against rotation relative to the shaft journal by means of a clamping nut screwed onto the threaded end of the journal with the possibility of pressing the protective sleeve with a thrust sleeve to the support flange. As a result, it becomes possible to simplify the design of the bearing assembly while increasing the reliability of its operation.

Description

The useful model relates to mechanical engineering, in particular to the bearing assemblies of non-volumetric displacement pumps, which perceive increased radial and axial loads acting on the shaft during the operation of the pumping unit.

It is known to carry out bearing assemblies for the perception of radial and axial loads to increase the bearing capacity of the bearing assembly and to ensure optimal load distribution between the bearing shaft bearings, in particular, the use of sleeve bearings, which can carry heavy loads at high speeds (Prince P.I. Orlov " Basics of design ", book 2, M.," Mechanical engineering ", 1977, pp. 328, 406-419).

However, the aforementioned bearing assemblies allow only radial or axial forces to be absorbed, which narrows the possibilities for their use in pumping units with positive displacement pumps, in particular in centrifugal or screw pumping units.

The closest to the utility model in terms of the technical essence and the achieved result is a combined pump bearing assembly containing a housing in which a shaft is installed, placed in radial and thrust plain bearings, and the thrust bearing thrust bearing is fixed against rotation relative to the bearing assembly housing by means of pins and mounted on a damping element located between the housing of the bearing assembly and the housing of the thrust bearing with an antifriction washer (see patent RU No. 2290545, publ. 27.12.2006).

This combined bearing unit of the pump allows to perceive both radial and axial loads on the bearing unit that arise during the operation of the pumping unit. However, this design of the bearing arrangement has a complex design and significant axial dimensions, which limits the possibilities of its use.

The technical problem to be solved by the present utility model is to overcome the above disadvantages.

The technical result consists in the fact that it is possible to simplify the design of the bearing unit while increasing the reliability of its operation.

The specified technical problem is solved, and the technical result is achieved due to the fact that the combined bearing unit of the pump contains a housing in which a shaft is installed, located in radial and thrust plain bearings, and the thrust bearing thrust bearing is fixed against rotation relative to the bearing unit housing by means of pins and installed on the damping element located between the bearing unit housing and the thrust bearing housing with an antifriction washer, the bearing unit housing is mounted on the pump shaft journal and is made with a flange in which holes are made for installing fasteners through them to fix the bearing unit housing in the pump housing, the heel housing is installed in the support flange through a damping element located between them and is fixed against rotation relative to the support flange by means of pins, and the support flange is mounted on the shaft journal and is fixed against rotation relative to it by means of a key, radially The th bearing is installed in the housing of the bearing unit, while its fixed antifriction sleeve is placed in a protective casing and fixed in the housing of the bearing unit by rolling it in the housing of the bearing unit, by means of which the fixed antifriction bushing with a casing is clamped in the housing of the bearing unit, the fixed antifriction sleeve covers the movable an antifriction bushing installed on the protective sleeve of the pump shaft journal, and between the protective sleeve and the supporting flange on the shaft journal, a thrust sleeve is put on and the protective sleeve is fixed against rotation relative to the shaft journal by means of a clamping nut screwed onto the threaded end of the journal with the possibility of pressing the protective sleeve with the thrust sleeve to support flange.

The channel for supplying lubricant to the space between the thrust bearing antifriction washers is preferably made in the shaft journal.

The pins are preferably mounted parallel to the longitudinal axis of the pump shaft journal.

In the course of the study, it was found that it is possible to simplify the design of the combined bearing unit and at the same time, due to this, increase the reliability of the combined bearing unit. It is known that it is possible to achieve an increase in the reliability of a device already in the process of its design (see, for example, the book by MA Elizavetin Increasing the reliability of machines, M., "Mechanical Engineering", 1968, pp. 62-120). The general layout of the device should provide installation from separate units with maximum convenience, minimum labor intensity, excluding additional machining, simplifying the pairing of structural parts. Greater reliability is achieved when centering on smooth cylindrical surfaces, simplicity and ease of assembly, accessibility to installation sites, and the more complex the configuration of the part, the more likely it is to deform it.

The design of the combined bearing assembly described above contains only functionally necessary parts, the number of which is minimal and all parts do not require any additional processing during the assembly of the bearing assembly, while the parts from which the bearing assembly is made are mated along cylindrical smooth surfaces or are joined along flat surfaces and does not require the use of any special complex equipment for the assembly and disassembly of the above-described bearing assembly, and it provides operation when both radial and axial loads occur, which always occur during the operation of a positive displacement pumping unit. In this case, the radial and thrust bearing are functionally interconnected, since the radial bearing, in addition to its main function of fixing the position of the cylindrical shaft of the pumping unit in the radial direction, ensures the alignment of the antifriction washers of the thrust bearing, and the latter ensures a stable arrangement in the axial direction relative to each other of the antifriction bushings, which allows to increase the reliability of bearings without the use of any additional structural elements. At the same time, damping is provided in the event of axial loads, which makes it possible to soften the effect on the antifriction washers in case of sharp changes in axial loads and, as a result, further increase the reliability of the thrust bearing. In addition, bearing lubrication is provided without the use of any additional pipelines, and the fixing of the thrust bushing and the protective bushing against rotation relative to the shaft journal by means of a clamping nut in combination with fixing the heel and thrust bearing by means of pins makes it easy to assemble, disassemble, replace and clean the bearing parts. node.

The drawing shows a longitudinal section of the combined bearing assembly.

The combined bearing unit of the pump, containing the housing 1, in which the shaft 2 is installed, located in the radial and thrust plain bearings, and the thrust bearing thrust bearing 3 is fixed against rotation relative to the bearing unit housing by means of pins 4 and is mounted on a damping element 5 located between the bearing housing unit 1 and the housing of the thrust bearing 3 with an anti-friction washer 6.

The housing of the bearing unit is mounted on the journal of the pump shaft 2 and is made with a flange 7, in which holes 8 are made for installing through them fasteners fixing the housing of the bearing unit in the pump housing.

The heel body 9 is installed in the support flange 10 through the damping element 11 located between them and is fixed against rotation relative to the support flange 10 by means of pins 12.

The supporting flange 10 is mounted on the shaft journal 2 and is fixed against rotation relative to it by means of a key 13, and the radial bearing is installed in the housing of the bearing unit 1, while its stationary antifriction sleeve 14 is placed in the protective casing 15 and fixed in the housing 1 of the bearing unit by rolling it in the housing 1 of the bearing unit, by means of which the stationary antifriction sleeve 14 with the casing 15 is clamped in the housing 1 of the bearing unit.

The stationary antifriction sleeve covers the movable antifriction sleeve 16 mounted on the protective sleeve 17 of the pump shaft journal, and between the protective sleeve 17 and the supporting flange 10, a thrust sleeve 18 is put on the shaft journal 2 and the protective sleeve 17 is fixed against rotation relative to the shaft journal 2 by means of a clamping nut 19 screwed onto the threaded end 20 of the trunnion with the possibility of pressing the protective sleeve 17 with the thrust sleeve 18 to the support flange 10.

A channel 21 is made in the shaft journal for supplying lubricant to the space between the thrust bearing antifriction washers.

Pins 4 and 12 are installed parallel to the longitudinal axis of the journal of the pump shaft 2.

The combined bearing assembly works as follows.

When the shaft 2 of the pumping unit rotates, the axial load is perceived by the antifriction washers of the heel 9 and the thrust bearing 3 and at the same time by the damping elements 5 and 11, which ensures uniform perception of the load by the antifriction washers of the thrust plain bearing on the maximum possible sliding area relative to each other. At the same time, the radial bearing ensures the exact alignment of the antifriction washers of the heel 9 and the thrust bearing 3 and rotation of the pump unit shaft without disturbing the alignment of its impellers relative to the stationary structural elements of the pump unit.

When using a support bearing unit in high-speed mechanisms operating in difficult conditions, for example, in multistage centrifugal pumping units, their trouble-free operation is ensured and, as a result, an increase in the reliability of a structurally simple combined bearing unit when operating with high-speed (high-speed) centrifugal pumping units is achieved.

Claims (3)

1. Combined bearing unit of the pump, containing a housing in which a shaft is installed, located in radial and thrust plain bearings, and the thrust bearing thrust bearing is fixed against rotation relative to the bearing unit housing by means of pins and is mounted on a damping element located between the bearing unit housing and the thrust bearing housing with an antifriction washer, characterized in that the housing of the bearing unit is installed on the pump shaft journal and is made with a flange in which holes are made for installing fasteners through them to fix the bearing unit housing in the pump housing, the heel housing is installed in the support flange through the damping located between them element and is fixed against rotation relative to the support flange by means of pins, and the support flange is mounted on the shaft journal and is fixed against rotation relative to it by means of a key, the radial bearing is installed in the bearing unit housing, while its a stationary antifriction bushing is placed in a protective casing and fixed in the housing of the bearing unit by rolling it in the housing of the bearing unit, by means of which a stationary antifriction bushing with a casing is clamped in the housing of the bearing unit, a stationary antifriction bushing covers a movable antifriction bushing installed on the protecting sleeve of the pump shaft journal, moreover, between the protective sleeve and the support flange, a thrust sleeve is put on the shaft journal and the protective sleeve is fixed against rotation relative to the shaft journal by means of a clamping nut screwed onto the threaded end of the journal with the possibility of pressing the protective sleeve with the thrust sleeve to the supporting flange. 2. The unit according to claim 1, characterized in that a channel is made in the shaft journal for supplying lubricant to the space between the thrust bearing antifriction washers. 3. The assembly according to claim 1, characterized in that the pins are installed parallel to the longitudinal axis of the pump shaft journal.

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