BEARING ASSEMBLY

Abstract

A bearing assembly includes a first bearing unit and a second bearing unit for supporting a shaft, in particular a rotor shaft within a centrifugal compressor in which an axial load acts on the shaft in a first or a second axial direction, the second axial direction being opposite to the first axial direction. When the axial load acts in the first axial direction, the first bearing unit is configured to support both an axial load and a radial load and the second bearing unit is configured to support a radial load. Alternatively, when the axial load acts in the second axial direction, the first bearing unit is configured to support a radial load and the second bearing unit is configured to support both an axial load and a radial load.

Claims

1. A bearing assembly for a centrifugal compressor, the compressor having a rotor shaft, the bearing assembly comprising: first and second bearing units for supporting the rotor shaft; wherein the first bearing unit is configured to support an axial load and a radial load and the second bearing unit is configured to support a radial load when an axial load acts on the shaft in a first axial direction; and wherein the first bearing unit is configured to support a radial load and the second bearing unit is configured to support an axial load and a radial load when an axial load acts on the shaft in a second axial direction, the second axial direction being opposite to the first axial direction.

2. The bearing assembly according to claim 1, wherein: the first bearing unit is a double row bearing including a first bearing and a second bearing; and/or the second bearing unit is a double row bearing including a first bearing and a second bearing.

3. The bearing assembly according to claim 2, wherein: each one of the first bearing and the second bearing of the first bearing unit is an angular contact ball bearing; and/or each one of the first bearing and the second bearing of the second bearing unit is an angular contact ball bearing.

4. The bearing assembly according to claim 3, wherein: the first bearing of the first bearing unit is an axially outer bearing having a contact angle with a value and the second bearing of the first bearing unit is an axially inner bearing having a contact angle with a value different than the value of the contact angle of the first bearing; and the second bearing of the second bearing unit is an axially outer bearing having a contact angle with a value and the first bearing of the second bearing unit is an axially inner bearing having a contact angle with a value different than the value of the contact angle of the second bearing of the second bearing unit.

5. The bearing assembly according to claim 4, wherein: the value of the contact angle of the second bearing of the first bearing unit is greater than the value of the contact angle of the first bearing of the first bearing unit; and the value of the contact angle of the first bearing of the second bearing unit is greater than the value of the contact angle of the second bearing of the second bearing unit.

6. The bearing assembly according to claim 3 wherein: the first bearing unit is configured to be disposed between a motor mounted centrally on the rotor shaft and an impeller mounted on the rotor shaft and spaced axially from the motor in the first axial direction; and the second bearing unit is configured to be disposed between the motor and another impeller mounted on the rotor shaft and spaced axially from the motor in the second axial direction.

7. The bearing assembly according to claim 2, wherein the first bearing of the first bearing unit is an axially outer bearing and is configured to abut against a first axial abutment.

8. The bearing assembly according to claim 7, wherein there is a clearance between the first bearing of the first bearing unit and the first axial abutment.

9. The bearing assembly according to claim 2, wherein the second bearing of the second bearing unit is an axially outer bearing and is configured to abut against a second axial abutment.

10. The bearing assembly according to claim 9, wherein there is a clearance between the second bearing of the second bearing unit and the second axial abutment.

11. The bearing assembly according to claim 2, wherein the second bearing of the first bearing unit is an axially inner bearing and is configured to be a thrust bearing for supporting axial and radial loads and the first bearing of the first bearing unit is configured to be a backup bearing for supporting radial loads.

12. The bearing assembly according to claim 2, wherein the first bearing of the second bearing unit is an axially inner bearing and is configured to be a thrust bearing for supporting axial and radial loads and the second bearing of the second bearing unit is configured to be a backup bearing for supporting radial loads.

13. The bearing assembly according to claim 2, further comprising a spacer ring with a lubricant supply passage disposed between the first and second bearings of the first bearing unit and/or a spacer ring with a lubricant supply passage disposed between the first and second bearings of the second bearing unit.

14. A centrifugal compressor comprising: a rotor shaft having two opposing axial ends; a motor mounted centrally on the rotor shaft; a first impeller mounted on the rotor shaft and spaced from the motor in a first axial direction and a second impeller mounted on the rotor shaft and spaced from the motor in a second, opposing axial direction; a first bearing unit mounted on the shaft between the motor and the first impeller, the first bearing unit being configured to support a radial load and an axial load when an axial load acts on the shaft in the first axial direction and to support a radial load when an axial load acts on the shaft in the second axial direction; and a second bearing unit mounted on the shaft between the motor and the second impeller, the second bearing unit being configured to support a radial load when the axial load acts on the shaft in the first axial direction and to support a radial load and an axial load when an axial load acts on the shaft in the second axial direction.

15. The centrifugal compressor according to claim 14, wherein: the first bearing unit is a double row bearing including a first bearing and a second bearing; and/or the second bearing unit is a double row bearing including a first bearing and a second bearing.

16. The centrifugal compressor according to claim 15, wherein: each one of the first bearing and the second bearing of the first bearing unit is an angular contact ball bearing; and/or each one of the first bearing and the second bearing of the second bearing unit is an angular contact ball bearing.

17. The centrifugal compressor according to claim 16, wherein: the first bearing of the first bearing unit is an axially outer bearing having a contact angle with a value and the second bearing of the first bearing unit is an axially inner bearing having a contact angle with a value different than the value of the contact angle of the first bearing; and the second bearing of the second bearing unit is an axially outer bearing having a contact angle with a value and the first bearing of the second bearing unit is an axially inner bearing having a contact angle with a value different than the value of the contact angle of the second bearing of the second bearing unit.

18. The centrifugal compressor according to claim 17, wherein: the value of the contact angle of the second bearing of the first bearing unit is greater than the value of the contact angle of the first bearing of the first bearing unit; and the value of the contact angle of the first bearing of the second bearing unit is greater than the value of the contact angle of the second bearing of the second bearing unit.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0024] In the following the invention is described in more detail using the exemplary embodiments depicted in the drawings. Here the exemplary embodiments and the combinations shown in the exemplary embodiments are purely exemplary and are not intended to define the scope of the invention. This scope is defined solely by the pending claims.

[0025] FIG. 1 shows a sectional view of a bearing assembly including a first and a second bearing unit; and

[0026] FIG. 2 shows a broken-away, greatly enlarged portion of FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

[0027] In the following, identical or functionally equivalent elements are designated by the same reference numbers.

[0028] FIG. 1 shows a bearing assembly 1 which may be used for supporting a shaft 2, in particular a rotor shaft 2 within a centrifugal compressor. The bearing assembly 1 comprises a first bearing unit 4 and a second bearing unit 6 being arranged on the shaft 2 on both sides of a motor 8; that is, each bearing unit 4, 6 is disposed on separate axial side of the motor 8. At the respective other side of the first and the second bearing unit 4, 6, impellers 9 of a centrifugal compressor may be arranged. In other words, the first bearing unit 4 is disposed between the central motor 8 and one impeller 9 and the second bearing unit 6 is disposed between the motor 8 and another impeller 9. In such a compressor, during operation, an axial load may act on the shaft 2 either in a first axial direction (indicated by arrow A) or a second axial direction (indicated by arrow B), the second axial direction B being opposite to the first axial direction A.

[0029] The first bearing unit 4 consists of two angular contact ball bearings 10, 12 and the second bearing unit 6 consists of two angular contact ball bearings 14, 16. The bearings 10, 12 and 14, 16 are arranged in a cross arrangement so that both bearing units 4, 6 have the ability to support radial as well as axial loads, as described as follows.

[0030] The first bearing 10 of the first bearing unit 4 comprises an inner ring 18 disposed on the shaft 2, an outer ring 20, which may be accommodated in a housing 22 of the compressor, and one row of balls 24 arranged between the inner ring 18 and the outer ring 20. The second bearing 12 of the first bearing unit 4 also comprises an inner ring 26 disposed on the shaft 2, an outer ring 28 accommodated in the housing 22 of the compressor, and one row of balls 30 arranged between the inner ring 26 and the outer ring 28.

[0031] Similarly, the first bearing 14 of the second bearing unit 6 comprises an inner ring 32 disposed on the shaft 2, an outer ring 34 in the housing 22 of the compressor, and one row of balls 36 arranged between the inner ring 32 and the outer ring 34. The second bearing 16 of the second bearing unit 6 also comprises an inner ring 38 disposed on the shaft 2, an outer ring 40 accommodated in the housing 22 of the compressor, and one row of balls 42 arranged between the inner ring 38 and the outer ring 40.

[0032] A spacer ring 44 may be arranged or disposed between the first bearing 10 and the second bearing 12 of the first bearing unit 4, the spacer ring 44 including at least one lubricant supply passage 48 for supplying lubricant to the bearings 10, 12. Further, another spacer ring 46 may be arranged or disposed between the first bearing 14 and the second bearing 16 of the second bearing unit 6, the spacer ring 46 including at least one lubricant supply passage 50 for supplying lubricant to the bearings 14, 16.

[0033] An axial load acting on the shaft 2 leads to both an axial load and a radial load acting on the bearing units 4, 6. In order to allow or provide a uniform distribution of the load, as well as support of the axial load when the direction of the axial load reverses, the first bearing unit 4 is configured to support both an axial load and a radial load and the second bearing unit 6 is configured to support a radial load when the axial load acts in the first axial direction A. Alternatively, when the axial load acts in the second axial direction B, the first bearing unit 4 is configured to support a radial load and the second bearing unit 6 is configured to support both an axial load and a radial load.

[0034] The capability of supporting axial loads as well as radial loads may be achieved by the present bearing assembly 1 being formed or configured having a cross arrangement of thrust bearings and backup bearings as described as follows.

[0035] The first bearing 10 of the first bearing unit 4 is an axially outer bearing and is configured as a “backup” bearing, the bearing 10 abutting against a first axial abutment 52. Similarly, the second bearing 16 of the second bearing unit 6 is also an axially outer bearing and is configured as a backup bearing, the bearing 16 abutting against a second axial abutment 54. The abutments 52, 54 may be provided, for example, by a respective shoulder formed on the housing 22. The abutments 52, 54 may prevent a displacement of the bearing units 4, 6. Preferably, a clearance 56 is provided between the first bearing 10 of the first bearing unit 4 and the first axial abutment 52 and a clearance 58 is provided between the second bearing 16 of the second bearing unit 6 and the second axial abutment 54. Such a clearance or axial gap 56, 58 has the effect that each one of the first bearing unit 4 and the second bearing unit 6 is not preloaded.

[0036] When an axial load is applied in the first axial direction A, the first bearing 10 of the first bearing unit 4 serves as a backup bearing and supports a radial load only and the second bearing 12 of the first bearing unit 4 serves as a “thrust” bearing and supports both an axial load and a radial load. Alternatively, when an axial load is applied in the second axial direction B, the second bearing 16 of the second bearing unit 6 serves as a backup bearing and supports a radial load only and the first bearing 14 of the second bearing unit 6 serves as a thrust bearing and supports both an axial load and a radial load.

[0037] Due to this cross arrangement of thrust and backup bearings, the direction A, B of the axial load applied to the shaft 2 may change without any negative impact to the bearing units 4, 6 as each bearing unit 4, 6 may support axial as well as radial loads by having one bearing 12, 14 specialized for supporting both axial loads and radial loads and one bearing 10, 16 specialized for supporting radial loads only.

[0038] This effect may be enhanced by having different contact angles of the angular contact ball bearings 10, 12, 14, 16 as the axial load carrying capacity of angular contact ball bearings increases with increasing contact angle. Thus, the thrust bearings 12, 14 may each be formed having a contact angle α with a value greater than the value of a contact angle β of each of the backup bearings 10, 16 in order to increase the axial load carrying capacity of the bearings 12, 14, as depicted in FIG. 2 for the first bearing unit 4.

[0039] For example, each thrust bearing 12, 14 may have a contact angle α with a value of twenty-five degrees (25°) and each backup bearing 10, 16 may have a contact angle β with a value of fifteen degrees (15°). Further for example, each thrust bearing 12, 14 may have a contact angle α with a value of forty degrees (40°) and each backup bearing 10, 16 may have a contact angle β with a value of twenty-five degrees (25°). Thus, the contact angles α, β preferably have a difference in value within the range of between ten degrees (10°) and fifteen degrees (15°).

[0040] The above-described bearing assembly provides an improved cross location arrangement of bearing units, preferably by a combination of a cross location arrangement of different contact angles as well as backup and thrust bearings. Such a cross arrangement provides an improved distribution of axial and radial loads as well as the capability of changing the direction of the axial load applied to the shaft without any negative impact to the bearing units.

[0041] Representative, non-limiting examples of the present invention were described above in detail with reference to the attached drawings. This detailed description is merely intended to teach a person of skill in the art further details for practicing preferred aspects of the present teachings and is not intended to limit the scope of the invention.

[0042] Moreover, combinations of features and steps disclosed in the above detailed description may not be necessary to practice the invention in the broadest sense, and are instead taught merely to particularly describe representative examples of the invention. Furthermore, various features of the above-described representative examples, as well as the various independent and dependent claims below, may be combined in ways that are not specifically and explicitly enumerated in order to provide additional useful embodiments of the present teachings.

[0043] All features disclosed in the description and/or the claims are intended to be disclosed separately and independently from each other for the purpose of original written disclosure, as well as for the purpose of restricting the claimed subject matter, independent of the compositions of the features in the embodiments and/or the claims. In addition, all value ranges or indications of groups of entities are intended to disclose every possible intermediate value or intermediate entity for the purpose of original written disclosure, as well as for the purpose of restricting the claimed subject matter. The invention is not restricted to the above-described embodiments, and may be varied within the scope of the following claims.

REFERENCE NUMBER LIST

[0044] 1 bearing assembly [0045] 2 shaft [0046] 4 first bearing unit [0047] 6 second bearing unit [0048] 8 motor [0049] 9 impeller [0050] 10 first angular contact ball bearing of first bearing unit [0051] 12 second angular contact ball bearing of first bearing unit [0052] 14 first angular contact ball bearing of second bearing unit [0053] 16 second angular contact ball bearing of second bearing unit [0054] 18 inner ring [0055] 20 outer ring [0056] 22 housing [0057] 24 balls [0058] 26 inner ring [0059] 28 outer ring [0060] 30 balls [0061] 32 inner ring [0062] 34 outer ring [0063] 36 balls [0064] 38 inner ring [0065] 40 outer ring [0066] 42 balls [0067] 44 spacer ring [0068] 46 spacer ring [0069] 48 lubricant passage [0070] 50 lubricant passage [0071] 52 abutment [0072] 54 abutment [0073] 56 clearance [0074] 58 clearance [0075] A first axial direction [0076] B second axial direction [0077] α contact angle of bearings 12, 14 [0078] β contact angle of bearings 10, 16