CENTER BUSHING TO BALANCE AXIAL FORCES IN MULTI-STAGE PUMPS

Abstract

A multi-stage pump featuring different stages configured to pump a fluid from a pump suction and to a pump discharge; and a center bushing configured between the different stages, having a center bushing side configured with pockets to balance axial forces between the different stages of the multistage pump. The pockets are configured as curved rib pockets, extruded circle or circular pockets, or full length rib pockets.

Claims

1. A multi-stage pump comprising: a pump having different stages configured to pump a fluid from a pump suction and to a pump discharge; and a center bushing configured between the different stages, having a center bushing side configured with pockets to balance axial forces between the different stages of the multistage pump.

2. A multi-stage pump according to claim 1, wherein the pockets are configured as radially-formed rib pockets.

3. A multi-stage pump according to claim 2, wherein the center bushing side comprises a center bushing surface having an inner wall, an outer wall and a plurality of radial walls all extending from the center bushing surface, each radially-formed rib pocket having a combination of an inner wall portion, a corresponding outer wall portion and adjacent radial walls connecting the inner wall portion and the corresponding outer wall portion.

4. A multi-stage pump according to claim 3, wherein the inner wall includes, or forms part of, an inner circular wall extending around the inner edge of the center bushing.

5. A multi-stage pump according to claim 4, wherein the outer wall includes, or forms part of, an outer circular wall extending around the outer edge of the center bushing.

6. A multi-stage pump according to claim 3, wherein the outer wall includes, or takes the form of, an outer circular wall extending around the outer edge of the center bushing.

7. A multi-stage pump according to claim 1, wherein the pockets are configured as curved rib pockets.

8. A multi-stage pump according to claim 7, wherein the center bushing side comprises a center bushing surface having an inner wall, an outer wall and a plurality of radial walls all extending from the center bushing surface, each curved rib pocket having a combination of an inner wall portion, a corresponding outer wall portion and adjacent curved rib walls connecting the inner wall portion and the corresponding outer wall portion.

9. A multi-stage pump according to claim 8, wherein the inner wall includes, or forms part of, an inner circular wall extending around the inner edge of the center bushing.

10. A multi-stage pump according to claim 1, wherein the pockets are configured as extruded circle or circular pockets.

11. A multi-stage pump according to claim 1, wherein the pockets are configured as full length rib pockets.

12. A multi-stage pump according to claim 11, wherein the center bushing side comprises a center bushing surface having an inner wall, an outer wall and a plurality of radial walls all extending from the center bushing surface, each full length rib pocket having a combination of an inner wall portion, a corresponding outer wall portion and adjacent rib pocket walls connecting the inner wall portion and the corresponding outer wall portion.

13. A multi-stage pump according to claim 1, wherein the different stages have an area/location of higher pressure and a corresponding area/location of lower pressure; and the pockets are configured to increase the axial forces in the area/location of higher pressure.

14. A multi-stage pump according to claim 13, wherein the center bushing side comprises a high pressure side configured with the pockets facing the area/location of higher pressure.

15. A multi-stage pump according to claim 1, wherein the multi-stage pump comprises a stationary casing element configured with an aperture formed therein; and the center bushing comprises an outer circumferential rim configured with a pin to couple into the aperture of the stationary casing element to prevent rotation of the center bushing.

16. A multi-stage pump according to claim 15, wherein the stationary element is configured with a circumferential surface having an inner diameter; and the outer circumferential rim has an outer diameter that substantially corresponds in dimension to the inner diameter of the circumferential surface of the stationary element in order to substantially reduce or prevent leakage between the different stages.

17. A multi-stage pump according to claim 1, wherein the different stages comprises: a first stage configured with an area/location of lower pressure, and a second stage configured with a corresponding area/location of high pressure; and a center bushing side comprises a high pressure side configured with the pockets facing the corresponding area/location of higher pressure.

18. A multi-stage device comprising: a device having different stages configured to provide a fluid; and a center bushing configured between the different stages, having a center bushing side configured with pockets to balance axial forces between the different stages of the multistage device.

19. A multi-stage device according to claim 18, wherein the multi-stage device comprises a multi-stage pump, fans, blower or compressor.

20. A multi-stage device according to claim 18, wherein the pockets are configured as radially-formed rib pockets, or curved rib pockets, or extruded circle or circular pockets, or full length rib pockets.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0035] The drawing, which is not necessarily drawn to scale, includes the following Figures:

[0036] FIG. 1 shows a diagram of a multistage pump, which is known in the art.

[0037] FIG. 2 shows a diagram of a multi-stage pump having a center bushing, according to some embodiments of the present invention.

[0038] FIG. 3 includes FIGS. 3A and 3B, which shows different perspective views of a center bushing having radially-formed rib pockets, according to some embodiments of the present invention.

[0039] FIG. 4A shows a diagram of a center bushing having curved rib pockets, according to some embodiments of the present invention.

[0040] FIG. 4B shows a diagram of a center bushing having extruded circular rib pockets, according to some embodiments of the present invention.

[0041] FIG. 4C shows a diagram of a center bushing having full length rib pockets, according to some embodiments of the present invention.

[0042] The Figures include reference numerals and lead lines, which are included to describe each Figure in detail below. In the drawing, similar elements in the various Figures are labeled with similar reference numerals and lead lines. Moreover, not every element is shown and/or labeled with a reference numeral and lead line in every Figure to reduce clutter in the drawing as a whole.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 2: The Basic Invention

[0043] According to some embodiments, the present invention may take the form of a multi-stage pump generally indicated as 10, featuring: [0044] a pump having different stages, e.g., like stage pump 1 and stage pump 2, configured to pump a fluid from a pump suction PS and to a pump discharge PD; and [0045] a center bushing CB configured between the different stages, having a center bushing side labeled as CBS1, CBS2, CBS3, CBS4 (see FIGS. 3 and 4A, 4B, 4C) configured with pockets labeled as PKT, CRP, ECP, FLRP (see

[0046] FIGS. 3 and 4A, 4B, 4C) to balance axial forces between the different stages (e.g., stage 1 and stage 2) of the multistage pump 10.

[0047] The different stages may have an area/location of higher pressure as shown and indicated in FIG. 2 and a corresponding area/location of lower pressure as shown and indicated in FIG. 2; and the pockets (see FIGS. 3 and 4A, 4B, 4C) may be configured to increase the axial forces in the area/location of higher pressure.

[0048] The center bushing side CBS1 may include a high pressure side configured with the pockets (e.g., such as PKT (FIG. 3), CRP (FIG. 4A), ECP (FIG. 4B), FLRP(FIG. 4C)) facing the area/location of higher pressure. e.g., which is towards the left for the multi-stage pump shown in FIG. 2.

[0049] The different stages may include: [0050] a first stage (stage 1) configured with an area/location of lower pressure, and [0051] a second stage (stage 2) configured with a corresponding area/location of high pressure; and [0052] the center bushing side CBS1 that includes a high pressure side configured with the pockets (e.g., such as PKT (FIG. 3), CRP (FIG. 4A), ECP (FIG. 4B), FLRP(FIG. 4C)) facing the corresponding area/location of higher pressure.

FIG. 3: Radially-Formed Rib Pockets (PKT)

[0053] By way of example, the pockets (PKTs) may be configured as radially-formed rib pockets. FIGS. 3A, 3B show the center bushing side CBS1 of the center bushing CB1, which may include a center bushing surface cbs′ having an inner wall IW, an outer wall OW and a plurality of radial walls RW, all extending outwardly from the center bushing surface cbs′, as shown. By way of example, each radially-formed rib pocket PKT may be formed by a combination of an inner wall portion/section of the inner wall IW, a corresponding outer wall portion/section of the outer wall OW, and adjacent radial walls RW1, RW2 connecting the inner wall portion and the corresponding outer wall portion.

[0054] The inner wall IW may include, or form part of, an inner circular wall extending around the inner edge of the center bushing, e.g., consistent with that shown in FIGS. 3A and 3B.

[0055] The outer wall OW may include, or form part of, an outer circular wall extending around the outer edge of the center bushing, e.g., consistent with that shown in FIGS. 3A and 3B.

[0056] By way of example, in FIG. 3 the center bushing CB1 is shown configured with twelve (12) radially-formed rib pockets PKTs. However, the scope of the invention is not intended to be limited to any particular number of radially-formed rib pockets. For example, the scope of the invention is intended to include, and embodiments are envisioned using, a center bushing having more or less than twelve (12) radially-formed rib pockets, e.g., including thirteen (13) radially-formed rib pockets, or fourteen (14) radially-formed rib pockets, etc.; or alternatively eleven (11) radially-formed rib pockets, or ten (10) radially-formed rib pockets, etc.

FIG. 4A: Curved Rib Pockets CRPs

[0057] FIG. 4A shows a center bushing CB2 having the pockets configured as curved rib pockets CRP. By way of example, the center bushing surface may include the inner wall, the outer wall and a plurality of curved walls all extending from the center bushing surface. Each curved rib pocket may include a combination of the inner wall portion, the corresponding outer wall portion and adjacent curved walls connecting the inner wall portion and the corresponding outer wall portion.

[0058] By way of example, in FIG. 4A the center bushing CB2 is shown configured with twelve (12) curved rib pockets. However, the scope of the invention is not intended to be limited to any particular number of curved rib pockets. For example, the scope of the invention is intended to include, and embodiments are envisioned using, a center bushing having more or less than twelve (12) curved rib pockets, e.g., including thirteen (13) curved rib pockets, or fourteen (14) curved rib pockets, etc.; or alternatively eleven (11) curved rib pockets, or ten (10) curved rib pockets, etc.

FIG. 4B: Extruded Circle or Circular Pockets ECPs

[0059] FIG. 4B shows a center bushing CB3 having the pockets configured as extruded pockets in the form of extruded circular pockets ECPs. By way of example, in FIG. 4B the center bushing CB3 is shown configured with thirty six (36) extruded circle or circular pockets, e.g., arranged in a pattern of twelve (12) pairs of extruded circle or circular pockets ECPs, each arranged equi-distant about the center bushing surface and separated by a respective single extruded circle or circular pocket arranged inbetween. However, the scope of the invention is not intended to be limited to any particular number of extruded circle or circular pockets. For example, the scope of the invention is intended to include, and embodiments are envisioned using, a center bushing having more or less than twelve (36) extruded circle or circular pockets, e.g., including thirty seven (37) extruded circle or circular pockets, or thirty eight (38) extruded circle or circular pockets, etc.; or thirty five (35) extruded circle or circular pockets, or thirty four (34) extruded circle or circular pockets, etc.

[0060] Moreover, the scope of the invention is not intended to be limited to any particular pattern of extruded circle or circular pockets. For example, the scope of the invention is intended to include, and embodiments are envisioned using, a center bushing having other types or kinds of patterns, e.g., like a pattern of eighteen (18) pairs of extruded circle or circular pockets, each arranged equi-distant about the center bushing surface, or like a pattern of twelve (12) triplets of extruded circle or circular pockets, each arranged equi-distant about the center bushing surface, etc.

[0061] By way of example, the extruded pockets ECPs are shown as cylindrical protrusions; however, the scope of the invention is not intended to be limited to any particular geometric shape of the extruded pockets. The scope of the invention is intended to include, and embodiments are envisioned in which, the extruded pockets take the form of other geometric shapes such as extruded 3-sided or triangular pockets, extruded 4-sided or rectangular pockets, extruded 5-sided or pentagonal pockets, etc., as well as other extruded 1-side pockets like oval pockets.

FIG. 4C: Full Length Rib Pockets FLRPs

[0062] FIG. 4C shows a center bushing CB4 having the pockets configured as full length rib pockets FLRPs. By way of example, in FIG. 4C the center bushing CB4 is shown configured with six (6) full length rib pockets FLRPs. However, the scope of the invention is not intended to be limited to any particular number of full length rib pockets. For example, the scope of the invention is intended to include, and embodiments are envisioned using, a center bushing having more or less than six (6) full length rib pockets, e.g., including seven (7) full length rib pockets, or eight (8) full length rib pockets, etc.; or alternatively five (5) full length rib pockets, or four (4) full length rib pockets, etc.

The Pin P

[0063] The multi-stage pump 10 may include a stationary element, e.g., some part of the pump's casing C, configured with an aperture; and the center bushing CB may include an outer circumferential rim or wall OW (FIG. 2) configured with a pin P to couple into the aperture of the stationary element to prevent rotation of the center bushing CB.

[0064] According to some embodiments, the stationary element or part of the pump's casing C may be configured with a circumferential surface having an inner diameter; and the outer circumferential rim may include an outer diameter that substantially corresponds in dimension to the inner diameter of the circumferential surface of the stationary element in order to substantially reduce or prevent leakage between the different stages.

The Pocket Dimensions

[0065] The scope of the invention is not intended to be limited by any particular dimensions of the pockets PKT (FIG. 3), CRP (FIG. 4A), ECP (FIG. 4B)or FLRP (FIG. 4C), e.g., including the length, width, diameter, and/or depth of the same, which will depend on the particular application, as would be appreciate by one skilled in the art. By way of example, for one type of multi-stage pump applications the pockets PKT, CRP, ECP or FLRP may be configured with one combination of a given length, width, diameter, and/or depth; while for another type of multi-stage pump applications the pockets PKT, CRP, ECP or FLRP may be configured with another combination of a given length, width, diameter, and/or depth of the same.

Possible Applications

[0066] By way of example, in addition to multi-stage pumps other possible applications of the present invention may include, or take the form of, fans, blowers and compressors.

The Scope of the Invention

[0067] It should be understood that, unless stated otherwise herein, any of the features, characteristics, alternatives or modifications described regarding a particular embodiment herein may also be applied, used, or incorporated with any other embodiment described herein. Also, the drawing herein is not necessarily drawn to scale.

[0068] Although the invention has been described and illustrated with respect to exemplary embodiments thereof, the foregoing and various other additions and omissions may be made therein and thereto without departing from the spirit and scope of the present invention.