Particle detecting instrument with sapphire detecting cell defining a rectangular flow path

US 5,371,585 A
Filed: 11/10/1992
Issued: 12/06/1994
Est. Priority Date: 11/10/1992
Status: Expired due to Fees

First Claim

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1. A particle measuring instrument comprising a particle detecting cell defining a flow path, at least part of which is rectangular in cross section, and having sapphire walls, means to transmit a light beam through the walls of said part of said flow path, means to detect light scattered from particles passing through said light beam from said part of said flow path, said cell comprising four assembled sapphire pieces each having a flat optically polished inner surface defining one inner wall of said part of said flow path, said sapphire pieces being shaped to connect with each other in unbonded interfaces between opposed parallel faces of said sapphire pieces when assembled in said cell, and clamping means to clamp said pieces together in an assembled detecting particle cell, said clamping means pressing said parallel faces together with sufficient force to prevent leakage through said interfaces.

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Abstract

In a particle detecting instrument, a sapphire detecting cell is provided with a square flow path. The sapphire cell is assembled from four sapphire pieces which extend throughout the length of the cell. The cell has a central section containing the square flow path with planar exterior walls and cylindrical end sections. The pieces are separated by black gaskets which are sandwiched between the opposed faces of the pieces. The pieces are clamped together by shape memory alloy rings which engage the cell in the cylindrical end sections. Each sapphire piece has a polished planar interior surface defining one of the walls of the square flow path.

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24 Claims

1. A particle measuring instrument comprising a particle detecting cell defining a flow path, at least part of which is rectangular in cross section, and having sapphire walls, means to transmit a light beam through the walls of said part of said flow path, means to detect light scattered from particles passing through said light beam from said part of said flow path, said cell comprising four assembled sapphire pieces each having a flat optically polished inner surface defining one inner wall of said part of said flow path, said sapphire pieces being shaped to connect with each other in unbonded interfaces between opposed parallel faces of said sapphire pieces when assembled in said cell, and clamping means to clamp said pieces together in an assembled detecting particle cell, said clamping means pressing said parallel faces together with sufficient force to prevent leakage through said interfaces.
- View Dependent Claims (2, 3, 4)
- - 2. A particle measuring instrument as recited in claim 1, wherein said pieces are pie-shaped and said interfaces comprise mitered corners in said assembled particle detecting cell.
  - 3. A particle measuring instrument as recited in claim 1, wherein said opposed faces sandwich gaskets therebetween.
  - 4. A particle measuring instrument as recited in claim 3, wherein said gaskets, are black.

5. A particle measuring instrument comprising a particle detecting cell defining a flow path, at least part of which is rectangular in cross section, and having sapphire walls, means to transmit a light beam through the walls of said part of said flow path, means to detect light scattered from particles passing through said light beam from said part of said flow path, said cell comprising four assembled sapphire pieces each having a flat optically polished inner surface defining one inner wall of said part of said flow path, said sapphire pieces being shaped to connect with each other in interfaces between opposed parallel faces of said sapphire pieces when assembled in said cell, said clamping means comprising rings shrunk fit upon said cell.
- View Dependent Claims (6)
- - 6. A particle measuring instrument as recited in claim 5, wherein said rings are shape memory alloy rings.

7. A particle measuring instrument comprising a particle detecting cell defining a flow path, at least part of which is rectangular in cross section, and having sapphire walls, means to transmit a light beam through the walls of said part of said flow path, means to detect light scattered from particles passing through said light beam from said part of said flow path, said cell comprising four assembled sapphire pieces each having a flat optically polished inner surface defining one inner wall of said part of said flow path, said sapphire pieces being shaped to connect with each other in interfaces between opposed parallel faces of said sapphire pieces when assembled in said cell, and clamping means to clamp said pieces together in an assembled detecting particle cell, said cell comprising a central section having planar exterior walls containing said part of said flow path and cylindrical end sections having cylindrical walls surrounding said flow path, said clamping means engaging said cell on said cylindrical walls.
- View Dependent Claims (8, 9)
- - 8. A particle measuring instrument as recited in claim 7, wherein said clamping means comprises rings shrunk fit upon said cell.
  - 9. A particle measuring instrument as recited in claim 8, wherein said rings are shape memory alloy rings.

10. A particle measuring instrument comprising a particle detecting cell defining a flow path, at least part of which is rectangular in cross section, and having sapphire walls, means to transmit a light beam through the walls of said part of said flow path, means to detect light scattered from particles passing through said light beam from said part of said flow path, said cell comprising four assembled sapphire pieces each having a flat optically polished inner surface defining one inner wall of said part of said flow path, said sapphire pieces being shaped to connect with each other in interfaces between opposed parallel faces of said sapphire pieces when assembled in said cell, and clamping means to clamp said pieces together in an assembled detecting particle cell, said pieces being pie-shaped and said interfaces comprising mitered corners in said assembled particle detecting cell, said cell comprising a central section having planar exterior walls containing said part of said flow path and cylindrical end sections having cylindrical walls surrounding said flow path and said clamping means engaging said cell on said cylindrical walls.
- View Dependent Claims (11, 12)
- - 11. A particle measuring instrument as recited in claim 10, wherein said clamping means comprises rings shrunk onto said cylindrical sections.
  - 12. A particle measuring instrument as recited in claim 11, wherein said rings comprise shape memory alloy rings.

13. A particle detecting cell comprising four pieces of sapphire assembled into a cell to define a flow path at least a part of which is rectangular in cross section, said sapphire pieces having flat optically polished inner surfaces to define the walls of said part of said flow path, said sapphire pieces being shaped to connect with each other in unbonded interfaces between opposed parallel faces of said sapphire pieces in an assembled cell, and clamping means to clamp said pieces together into an assembled cell, said clamping means pressing said opposed parallel faces together with sufficient force to prevent leakage through said unbonded interfaces.
- View Dependent Claims (14, 15, 16)
- - 14. A particle detecting cell as recited in claim 13, wherein said pieces are pie-shaped and wherein said interfaces between said pieces comprise mitered corners in said assembled cell.
  - 15. A particle detecting cell as recited in claim 13, wherein said opposed faces sandwich gaskets therebetween.
  - 16. A particle detecting cell as recited in claim 15, wherein said gaskets are black.

17. A particle detecting cell comprising four pieces of sapphire assembled into a cell to define a flow path at least a part of which is rectangular in cross section, said sapphire pieces having flat optically polished inner surfaces to define the walls of said part of said flow path, said sapphire pieces being shaped to connect with each other in interfaces between opposed parallel faces of said sapphire pieces in an assembled cell, and clamping means to clamp said pieces together into an assembled cell, said clamping means comprising rings shrunk fit upon said assembled cell.
- View Dependent Claims (18)
- - 18. A particle detecting cell as recited in claim 17, wherein said rings comprise shape memory alloy rings.

19. A particle detecting cell comprising four pieces of sapphire assembled into a cell to define a flow path at least a part of which is rectangular in cross section, said sapphire pieces having flat optically polished inner surfaces to define the walls of said part of said flow path, said sapphire pieces being shaped to connect with each other in interfaces between opposed parallel faces of said sapphire pieces in an assembled cell, and clamping means to clamp said pieces together into an assembled cell, said assembled cell having cylindrical end sections with cylindrical walls surrounding said flow path and a central section having planar walls and containing said part of said flow path, said clamping means engaging said sapphire pieces on said cylindrical walls.
- View Dependent Claims (20, 21)
- - 20. A particle detecting cell as recited in claim 19, wherein said clamping means comprises rings shrunk fit onto said cylindrical end sections.
  - 21. A particle detecting cell as recited in claim 20, wherein said rings comprise shape memory alloy rings.

22. A particle detecting cell comprising four pieces of sapphire assembled into a cell to define a flow path at least part of which is rectangular in cross section, said sapphire pieces having flat optically polished inner surfaces to define the walls of said part of said flow path, said sapphire pieces being shaped to connect with each other in interfaces between opposed parallel faces of said sapphire pieces in an assembled cell, and clamping means to clamp said pieces together into an assembled cell, said pieces being pie-shaped and said interfaces between said pieces comprising mitered corners in said assembled cell, said assembled cell having cylindrical end sections with cylindrical walls surrounding said flow path and a central section containing said part of said flow path and having planar exterior walls, said clamping means engaging said sapphire pieces on said cylindrical walls.
- View Dependent Claims (23, 24)
- - 23. A particle detecting cell as recited in claims 22, wherein said clamping means comprise rings shrunk fit onto said cylindrical end sections.
  - 24. A particle detecting cell as recited in claim 23, wherein said rings comprise shape memory alloy rings.

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Current Assignee
Pacific Scientific Company Incorporated (Regal Rexnord Corp.)
Original Assignee
Pacific Scientific Company Incorporated (Regal Rexnord Corp.)
Inventors
Harrison, Charles F., Morgan, Gary L.
Primary Examiner(s)
Rosenberger, Richard A.

Application Number

US07/973,383
Time in Patent Office

756 Days
Field of Search

356/246, 356/440, 356/339
US Class Current

356/246
CPC Class Codes

G01N 15/1404 Handling flow, e.g. hydrody...

Particle detecting instrument with sapphire detecting cell defining a rectangular flow path

First Claim

1 Assignment

0 Petitions

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Abstract

74 Citations

24 Claims

Specification

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Particle detecting instrument with sapphire detecting cell defining a rectangular flow path

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

74 Citations

24 Claims

Specification

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Solutions

Use Cases

Quick Links