Fluid pressure reduction device

US 5,769,122 A
Filed: 02/04/1997
Issued: 06/23/1998
Est. Priority Date: 02/04/1997
Status: Expired due to Term

First Claim

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1. A fluid pressure reduction device comprising:

a plurality of stacked disks having a perimeter and hollow centers aligned along a longitudinal axis;

each disk having (a) fluid inlet stage slots partially extending from the disk center towards the disk perimeter, and (b) fluid outlet stage slots partially extending from the disk perimeter towards the disk center, and (c) at least one plenum slot extending through the disk;

said disks selectively positioned in said stack to enable fluid flow from said fluid inlet stage slots in one disk to said plenum slots in adjacent disks and to said fluid outlet stage slots in at least said one disk, wherein the fluid flow path is split into two initial axial directions, then into said plenum slots with multiple radial flow directions, and then distributed through multiple outlet stage slots in at least said one disk.

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Abstract

A fluid pressure reduction device with low noise generation. A stack of annular disks with fluid passageways formed of inlet slots, outlet slots, and interconnecting plenums. Selectively stacking and orienting the annular disks along with an asymmetric slot pattern creates the desired fluid passageways without creating an uninterrupted axial fluid flow path. High recovery inlet stages are in fluid communicating series with low recovery outlet stages and the combination provides a high performance fluid pressure reduction device with low noise generation.

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23 Claims

1. A fluid pressure reduction device comprising:
- a plurality of stacked disks having a perimeter and hollow centers aligned along a longitudinal axis;
  
  each disk having (a) fluid inlet stage slots partially extending from the disk center towards the disk perimeter, and (b) fluid outlet stage slots partially extending from the disk perimeter towards the disk center, and (c) at least one plenum slot extending through the disk;
  
  said disks selectively positioned in said stack to enable fluid flow from said fluid inlet stage slots in one disk to said plenum slots in adjacent disks and to said fluid outlet stage slots in at least said one disk, wherein the fluid flow path is split into two initial axial directions, then into said plenum slots with multiple radial flow directions, and then distributed through multiple outlet stage slots in at least said one disk.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. A fluid pressure reduction device according to claim 1, wherein said plenum slot in said adjacent disk also enables fluid flow from said fluid inlet stage slots in one disk to be coupled to multiple fluid outlet stage slots in respective disks in said stack adjacent to said adjacent disk.
  - 3. A fluid pressure reduction device according to claim 2, wherein said fluid inlet stage slots are radially aligned around a portion of said disk hollow center, and said outlet stage slots are radially aligned around a portion of said disk perimeter.
  - 4. A fluid pressure reduction device according to claim 3, wherein said fluid inlet stage slots and said fluid outlet stage slots are located on the same circumferential side of each disk.
  - 5. A fluid pressure reduction device according to claim 4, wherein said plenum slot is disposed on the opposite circumferential side of each disk from said fluid inlet stage slots and said fluid outlet stage slots.
  - 6. A fluid pressure reduction device according to claim 5, wherein said fluid inlet stage slots and said fluid outlet stage slots are asymmetrically located on each disk with respect to said plenum to prevent an uninterrupted axial fluid flow path through said stacked disks.
  - 7. A fluid pressure reduction device according to claim 1, wherein each of said fluid inlet stage slots includes corner radii to substantially prevent fluid flow separation, and further includes outwardly divergent side passages to provide a high recovery stage.
  - 8. A fluid pressure reduction device according to claim 7, wherein each of said fluid inlet slots includes a rear slot portion fluidly communicating with said plenum slot in respective adjacent disks in said stack.
  - 9. A fluid pressure reduction device according to claim 8, wherein each of said fluid outlet stage slots includes convergent side passages to provide a low recovery stage.
  - 10. A fluid pressure reduction device according to claim 9, wherein each of said fluid outlet stage slots includes a forward slot portion fluidly communicating with said plenum slot in respective adjacent disks in said stack.
  - 11. A fluid pressure reduction device according to claim 10, wherein said fluid inlet stage slots and said fluid outlet stage slots are asymmetrically located on each disk with respect to said plenum to prevent an uninterrupted axial fluid flow path through said stacked disks.
  - 12. A fluid pressure reduction device according to claim 1, wherein said fluid inlet stage slots are configured to provide a high recovery stage when the pressure ratio of inlet pressure to plenum pressure is greater than about two.
  - 13. A fluid pressure reduction device according to claim 1, wherein said fluid outlet stage slots are configured to provide a high recovery stage when the pressure ratio of plenum pressure to outlet pressure is greater than about two.
  - 14. A fluid pressure reduction device according to claim 1, wherein each disk includes multiple contraction and expansion fluid flow passages through said stage slots and plenum slots.
  - 15. A fluid pressure reduction device according to claim 14, wherein each of said multiple stages is a low recovery stage.
  - 16. A fluid pressure reduction device according to claim 1, including weld beads extending along the disk perimeters for maintaining the stacked disks mounted together.
  - 17. A fluid pressure reduction device according to claim 1, wherein each disk includes mounting apertures spacially separated on the disk, and said device includes a plurality of elongated fasteners each adapted to pass through a respective one of said apertures in each of said disks for maintaining said stacked disks mounted together.
  - 18. A fluid pressure reduction device according to claim 1, wherein said fluid inlet stage slots are configured to provide a low recovery stage when the pressure ratio of inlet pressure to plenum pressure is less than about two.
  - 19. A fluid pressure reduction device according to claim 1, wherein said fluid outlet stage slots are configured to provide a low recovery stage when the pressure ratio of plenum pressure to outlet pressure is less than about two.

20. A fluid control valve comprising:
- a valve body including a fluid inlet, a fluid outlet, and a connecting valve body passageway;
  
  a valve seat mounted in said valve body passageway;
  
  an operating valve member adapted to cooperate with said valve seat to control the flow of fluid through said valve body passageway;
  
  a valve cage mounted above said valve seat and in said valve body passageway for reducing the fluid pressure, said valve cage including;
  
  a plurality of stacked disks having a perimeter and hollow centers aligned along a longitudinal axis;
  
  each disk having (a) fluid inlet stage slots partially extending from the disk center towards the disk perimeter, and (b) fluid outlet stage slots partially extending from the disk perimeter towards the disk center, and (c) at least one plenum slot extending within the disk;
  
  said disks selectively positioned in said stack to enable fluid flow from said fluid inlet stage slots in one disk to said plenum slot in an adjacent second disk and to said fluid outlet stage slots in at least said one disk, wherein the fluid flow path is split into two initial axial directions, then into said plenum slot with multiple radial flow directions, and then distributed through multiple outlet stage slots in at least said one disk,wherein said valve cage provides the desired fluid pressure reduction with low noise generation.

21. A fluid pressure reduction device comprising:
- a plurality of stacked disks having hollow centers aligned along a longitudinal axis;
  
  each disk having (a) fluid inlet slots partially extending from the disk center towards the disk perimeter, and (b) fluid outlet slots partially extending from the disk perimeter towards the disk center, and (c) at least one plenum slot extending through the disk;
  
  said fluid inlet slots and said fluid outlet slots asymmetrically located in each respective disk with respect to said plenum slot in said disk; and
  
  said disks selectively positioned in said stack to enable at least a portion of said fluid inlet and outlet slots in one disk to fluidly communicate with said plenum slots in adjacent disks wherein the fluid flow path is split into two initial axial directions, then into said plenum slots with multiple radial flow directions, and then distributed through multiple outlet stage slots in at least said one disk, while preventing an uninterrupted axial fluid flow path through said stacked disks.

22. A fluid pressure reduction device comprising:
- a plurality of stacked disks having a perimeter and hollow centers aligned along a longitudinal axis;
  
  each disk having one of (a) fluid inlet stage slots partially extending from the disk center towards the disk perimeter and fluid outlet stage slots partially extending from the disk perimeter towards the disk center, and (g) at least one plenum slot extending through the disk;
  
  said disks selectively positioned in said stack to enable fluid flow from said fluid inlet stage slots in one disk to said plenum slots in adjacent disks and to said fluid outlet stage slots in at least said one disk, wherein the fluid flow path is split into two initial axial directions, then into said plenum slots with multiple radial flow directions, and then distributed through multiple outlet stage slots in at least said one disk.

23. A fluid pressure reduction device comprising:
- a plurality of stacked disks having a perimeter and hollow centers aligned along a longitudinal axis;
  
  said stacked disks including alternating first and second disks;
  
  said first disk having (a) fluid inlet stage slots partially extending from the disk center towards the disk perimeter, and (b) fluid outlet stage slots partially extending from the disk perimeter towards the disk center;
  
  said second disk having (c) at least one plenum slot extending through the disk; and
  
  said disks selectively positioned in said stack to enable fluid flow from said fluid inlet stage slots in one disk to said plenum slots in adjacent disks and to said fluid outlet stage slots in at least said one disk, wherein the fluid flow path is split into two initial axial directions, then into said plenum slots with multiple radial flow directions, and then distributed through multiple outlet stage slots in at least said one disk.

Specification

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Current Assignee
Fisher Controls International LLC (Emerson Electric Company)
Original Assignee
Fisher Controls International LLC (Emerson Electric Company)
Inventors
Baumann, Hans D., Gethmann, Douglas P., Koester, David J., Anderson, Michael M., Schafbuch, Paul J.
Primary Examiner(s)
FOX, JOHN C

Application Number

US08/794,470
Time in Patent Office

504 Days
Field of Search

137/625.3, 137/625.33, 251/127, 38/42
US Class Current

137/625.33
CPC Class Codes

F16K 47/08   for decreasing pressure or ...

F16L 55/02718   placed transversely

Y10T 137/86734   With metering feature

Y10T 137/86759   Reciprocating

Fluid pressure reduction device

First Claim

2 Assignments

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Accused Products

Abstract

Citations

23 Claims

Specification

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Fluid pressure reduction device

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

23 Claims

Specification

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Solutions

Use Cases

Quick Links