Laser/powdered metal cladding nozzle

US 5,477,026 A
Filed: 01/27/1994
Issued: 12/19/1995
Est. Priority Date: 01/27/1994
Status: Expired due to Fees

First Claim

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1. Laser powered metal cladding apparatus including a front unit and a rear unit extending into said front unit through its open rear;

said rear unit having a beam passage extending from front to rear thereof, and said front unit having a front opening aligned with said beam passage whereby a laser beam projected forward through said beam passage is directed to exit said apparatus through said front opening and impinge upon a metal workpiece to heat and thereby liquify a localized surface portion thereof and to form a shallow puddle of liquified metal;

said apparatus also including an annular passage connectible to a supply of metallic cladding powder, said annular passage being operatively positioned and shaped to direct metallic powder moving forward therethrough to exit through said front opening and enter said shallow puddle;

said front unit including a nozzle at its forward end, said nozzle including a front end and a conical sidewall that tapers outward and rearward from said front end, and said front opening being at said front end;

a plurality of narrow generally axially extending gas passages in said conical sidewall, each of said gas passages having an exit end at said front end, said exit ends arranged in an array surrounding said front opening;

said gas passages extending rearward from said front end for operative connection to a source of inert gas that will flow forward through said gas passages in sufficient quantity to effectively cool said nozzle; and

said front opening being constituted by a single aperture disposed at said forward end of said nozzle.

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Abstract

Laser powered metal cladding apparatus that projects a laser beam to impinge upon a metal workpiece to form a shallow puddle of liquid metal is provided with a passage through which powered metal is delivered to the puddle. The apparatus includes a removable conical nozzle having a central opening through which the laser beam and powered metal exit the apparatus. The central opening extends to the front surface of the nozzle, which front surface is the smaller end of the nozzle and is in close proximity to the workpiece. A plurality of axial passages in the tapered wall of the nozzle extend rearward from the front surface and are arranged in an array that is centered around the central opening. A relatively high volume of inert gas flows through these axial passages to form a curtain that acts as an oxidation shield at the puddle of liquid metal, prevents powered metal from spreading sideways as it exits the central opening and drives sputtering particles back to the workpiece. This high volume of inert gas also serves to cool the nozzle thereby increasing the life thereof.

Citations

29 Claims

1. Laser powered metal cladding apparatus including a front unit and a rear unit extending into said front unit through its open rear;
- said rear unit having a beam passage extending from front to rear thereof, and said front unit having a front opening aligned with said beam passage whereby a laser beam projected forward through said beam passage is directed to exit said apparatus through said front opening and impinge upon a metal workpiece to heat and thereby liquify a localized surface portion thereof and to form a shallow puddle of liquified metal;
  
  said apparatus also including an annular passage connectible to a supply of metallic cladding powder, said annular passage being operatively positioned and shaped to direct metallic powder moving forward therethrough to exit through said front opening and enter said shallow puddle;
  
  said front unit including a nozzle at its forward end, said nozzle including a front end and a conical sidewall that tapers outward and rearward from said front end, and said front opening being at said front end;
  
  a plurality of narrow generally axially extending gas passages in said conical sidewall, each of said gas passages having an exit end at said front end, said exit ends arranged in an array surrounding said front opening;
  
  said gas passages extending rearward from said front end for operative connection to a source of inert gas that will flow forward through said gas passages in sufficient quantity to effectively cool said nozzle; and
  
  said front opening being constituted by a single aperture disposed at said forward end of said nozzle.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. Laser powered metal cladding apparatus as set forth in claim 1 in which said exit ends are operatively positioned to direct gas exiting therefrom to provide an annular curtain that shield liquified metal in said puddle from being oxidized and inhibits said powder from dispersing radially as it exits said front opening.
  - 3. Laser powered metal cladding apparatus as set forth in claim 1 in which the front unit includes a fluid jacket disposed behind said nozzle and being connectible to a supply of fluid and means to circulate said fluid through said fluid jacket to cool said apparatus;
    - andat least one gas conduit that extends through said fluid jacket and connects said was passages to said source of inert gas.
  - 4. Laser powered metal cladding apparatus as set forth in claim 3 in which water is the fluid that is circulated through said fluid jacket.
  - 5. Laser powered metal cladding apparatus as set forth in claim 3 in which the front unit also includes a body disposed behind said nozzle and including an outer cup and an inner cup extending into said outer cup;
    - said inner cup having an annular outer wall and said outer cup having an annular inner wall confronting said outer wall in spaced relationship with respect thereto whereby said inner and outer walls cooperate to define said water jacket.
  - 6. Laser powered metal cladding apparatus as set forth in claim 3 in which the fluid jacket surrounds the annular passage that directs forward movement of said metallic powder.
  - 7. Laser powered metal cladding apparatus as set forth in claim 3 in which said front unit also includes a body disposed behind said nozzle;
    - said body including an inner cup and an outer tubular member surrounding a portion of said inner cup;
      
      said inner cup having an annular outer wall at said portion and said tubular member having an annular inner wall confronting said outer wall in spaced relationship with respect thereto whereby said inner and outer walls cooperate to constitute boundary portions defining said fluid jacket.
  - 8. Laser powered metal cladding apparatus as set forth in claim 7 in which said conical sidewall includes an exterior conical surface having a plurality of grooves constituting said gas passages;
    - said front unit also including a retainer that maintains said nozzle in its operative position disposed within said retainer, said retainer including an interior conical surface against which said exterior conical surface abuts; and
      
      thread means removably securing said retainer to said body.
  - 9. Laser powered metal cladding apparatus as set forth in claim 8 in which a portion of said thread means is formed on an outer wall of said tubular member.
  - 10. Laser powered metal cladding apparatus as set forth in claim 8 also including a ring gasket squeezed between a rear facing annular edge of said retainer and a forward facing surface of said inner cup to block said inert gas from exiting said apparatus at points behind said front end.
  - 11. Laser powered metal cladding apparatus as set forth in claim 1 also including lens means through which said laser beam passes, said lens means being at the rear of said front unit and having a focal length of approximately 7.5 inches.
  - 12. Laser powered metal cladding apparatus as set forth in claim 1 also including lens means through which said laser beam passes, said lens means being at the rear of said front unit and having a focal length that is within a range of between approximately 4.5 inches and 7.5 inches.
  - 13. Laser powered metal cladding apparatus as set forth in claim 1 in which said nozzle is a one piece removable and replaceable unit.
  - 14. Laser powered metal cladding apparatus as set forth in claim 1 in which the axially extending gas passages are generally parallel to both inner and outer conical surfaces on opposite sides of said conical sidewall.
  - 15. Laser powered metal cladding apparatus as set forth in claim 1 in which the fluid jacket surrounds the annular passage that directs forward movement of said metallic powder.

16. Laser powered metal cladding apparatus including a front unit and a rear unit extending into said front unit through its open rear;
- said rear unit having a beam passage extending from front to rear thereof, and said front unit having a front opening aligned with said beam passage whereby a laser beam projected forward through said beam passage is directed to exit said apparatus through said front opening and impinge upon a metal workpiece to heat and thereby liquify a localized surface portion thereof and to form a shallow puddle of liquified metal;
  
  said apparatus also including an annular passage connectible to a supply of metallic cladding powder, said annular passage being operatively positioned and shaped to direct metallic powder moving forward therethrough to exit through said front opening and enter said shallow puddle;
  
  said front unit including a nozzle at its forward end, said nozzle including a front end and a conical sidewall that tapers outward and rearward from said front end, and said front opening being at said front end;
  
  a plurality of narrow generally axially extending gas passages in said conical sidewall, each of said gas passages having an exit end at said front end, said exit ends arranged in an array surrounding said front opening;
  
  said gas passages extending rearward from said front end for operative connection to a source of inert gas that will flow forward through said gas passages in sufficient quantity to effectively cool said nozzle;
  
  said front unit including a fluid jacket connectible to a supply which provides fluid that is circulated through said fluid jacket to cool said apparatus;
  
  said front unit also including a body disposed behind said nozzle and including an outer cup and an inner cup extending into said outer cup;
  
  said inner cup having an annular outer wall and said outer cup having an annular inner wall confronting said outer wall in spaced relationship with respect thereto whereby said inner and outer walls cooperate to define said water jacket;
  
  each of said gas passages having a rear entrance end that communicates with an annular manifold for said inert gas; and
  
  said rear unit including another annular manifold for inert gas, disposed rearward of said annular manifold, and a plurality of tubes disposed between said inner and outer walls and interconnecting said manifolds.
- View Dependent Claims (17, 18, 19)
- - 17. Laser powered metal cladding apparatus as set forth in claim 16 in Which there are a greater number of said gas passages than of said tubes.
  - 18. Laser powered metal cladding apparatus as set forth in claim 17 in which each of said tubes is of a cross-sectional area exceeding that for each of said gas passages.
  - 19. Laser powered metal cladding apparatus as set forth in claim 16 in which said tubes are in lengthwise contact with said outer wall and are spaced from said inner wall.

20. Laser powered metal cladding apparatus including a front unit and a rear unit extending into said front unit through its open rear;
- said rear unit having a beam passage extending from front to rear thereof, and said front unit having a front opening aligned with said beam passage whereby a laser beam projected forward through said beam passage is directed to exit said apparatus through said front opening and impinge upon a metal workpiece to heat and thereby liquify a localized surface portion thereof and to form a shallow puddle of liquified metal;
  
  said apparatus also including an annular passage connectible to a supply of metallic cladding powder, said annular passage being operatively positioned and shaped to direct metallic powder moving forward therethrough to exit through said front opening and enter said shallow puddle;
  
  said front unit including a nozzle at its forward end, said nozzle including a front end and a conical sidewall that tapers outward and rearward from said front end, and said front opening being at said front end;
  
  a plurality of narrow generally axially extending gas passages in said conical sidewall, each of said gas passages having an exit end at said front end, said exit ends arranged in an array surrounding said front opening;
  
  said gas passages extending rearward from said front end for operative connection to a source of inert gas that will flow forward through said gas passages in sufficient quantity to effectively cool said nozzle;
  
  said front unit including a fluid jacket connectible to a supply which provides fluid that is circulated through said fluid jacket to cool said apparatus; and
  
  at least one gas conduit that extends through said fluid jacket and connects said gas passages to said source of inert gas.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29)
- - 21. Laser powered metal cladding apparatus as set forth in claim 20 in which said nozzle is a removable and replaceable unit.
  - 22. Laser powered metal cladding apparatus as set forth in claim 21 in which thread means removably secures said nozzle to other portions of said front unit.
  - 23. Laser powered metal cladding apparatus as set forth in claim 26 in which said nozzle is constructed mainly of copper.
  - 24. Laser powered metal cladding apparatus as set forth in claim 21 in which said conical sidewall includes an exterior conical surface having a plurality of grooves constituting said gas passages.
  - 25. Laser powered metal cladding apparatus as set forth in claim 24 in which the front unit also includes a retainer that maintains said nozzle in its operative position disposed within said retainer, said retainer including an interior conical surface against which said exterior conical surface abuts.
  - 26. A laser powered metal cladding apparatus as set forth in claim 20 in which the front unit also includes a body disposed behind said nozzle and including an outer cup and an inner cup extending into said outer cup;
    - said inner cup having an annular outer wall and said outer cup having an annular inner wall confronting said outer wall in spaced relationship whereby said inner and outer walls cooperate to define a thin annular space that constitutes said fluid jacket;
      
      each of said gas passages having a rear entrance end that communicates with an annular manifold for said inert gas;
      
      said rear unit including another annular manifold for inert gas, disposed rearward of said annular manifold, with said jacket interconnecting said manifolds whereby said inert gas also cools said outer cup.
  - 27. Laser powered metal cladding apparatus as set forth in claim 26 in which said fluid jacket is conical.
  - 28. Laser powered metal cladding apparatus as set forth in claim 26 in which said rear unit also includes a tapered front end that extends through a rear opening in said front unit and confronts a tapered interior surface of said front unit, said annular passage being defined by spacing between said tapered front end and said interior surface;
    - andcooperating thread means interconnecting said front and rear units for relative longitudinal movement to selectively adjust said annular passage.
  - 29. Laser powered metal cladding apparatus as set forth in claim 28 also including means for preventing said front and rear units from being rotated relative to one another to thereby maintain said annular passage in its selectively adjusted condition.

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Litigation Campaign Assessment

Current Assignee
Chromalloy Gas Turbine Corporation (Blue Jay Acquisition Corp.)
Original Assignee
Chromalloy Gas Turbine Corporation (Blue Jay Acquisition Corp.)
Inventors
Buongiorno, Angelo
Primary Examiner(s)
Evans, Geoffrey S.

Application Number

US08/189,117
Time in Patent Office

691 Days
Field of Search

219/121.65, 219/121.66, 219/121.84, 219/121.86, 219/121.63, 219/121.64, 427/596
US Class Current

219/121.84
CPC Class Codes

B23K 26/144 the fluid stream containing...

Laser/powdered metal cladding nozzle

First Claim

2 Assignments

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Abstract

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29 Claims

Specification

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Laser/powdered metal cladding nozzle

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

29 Claims

Specification

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Solutions

Use Cases

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