Liquefier assembly for use in extrusion-based digital manufacturing systems

US 20090273122A1
Filed: 04/30/2008
Published: 11/05/2009
Est. Priority Date: 04/30/2008
Status: Active Grant

First Claim

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1. A liquefier assembly for use in an extrusion-based digital manufacturing system, the liquefier comprising:

a liquefier tube comprising;

a sidewall having a longitudinal length, and an inlet opening and an outlet opening on opposing ends of the sidewall, wherein the inlet opening is configured to receive a filament strand; and

a port disposed through the sidewall at a location between the inlet opening and the outlet opening, the port being configured to provide access for a filament drive mechanism to engage with the received filament strand; and

a heat transfer component configured to generate a thermal gradient along at least a portion of the longitudinal length of the sidewall between the port and the outlet opening.

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Abstract

A liquefier assembly comprising a liquefier tube, where the liquefier tube comprises a sidewall having an inlet opening configured to receive a filament strand, an outlet opening, and a port disposed through the sidewall at a location between the inlet opening and the outlet opening, the port being configured to provide access for a filament drive mechanism to engage with the received filament strand. The liquefier assembly further comprises a heat transfer component configured to generate a thermal gradient along a longitudinal length of the sidewall between the port and the outlet opening.

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20 Claims

1. A liquefier assembly for use in an extrusion-based digital manufacturing system, the liquefier comprising:
- a liquefier tube comprising;
  
  a sidewall having a longitudinal length, and an inlet opening and an outlet opening on opposing ends of the sidewall, wherein the inlet opening is configured to receive a filament strand; and
  
  a port disposed through the sidewall at a location between the inlet opening and the outlet opening, the port being configured to provide access for a filament drive mechanism to engage with the received filament strand; and
  
  a heat transfer component configured to generate a thermal gradient along at least a portion of the longitudinal length of the sidewall between the port and the outlet opening.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The liquefier assembly of claim 1, wherein the port has a length in a direction along the longitudinal length of the sidewall ranging from about 1.25 millimeters to about 25.0 millimeters.
  - 3. The liquefier assembly of claim 1, wherein the port has a radial opening angle ranging from about 90 degrees to about 180 degrees, and wherein the radial opening angle is taken from a cross section of the sidewall that is normal to the longitudinal length of the sidewall.
  - 4. The liquefier assembly of claim 3, wherein the radial opening angle ranges from about 130 degrees to about 160 degrees.
  - 5. The liquefier assembly of claim 1, wherein the port and the outlet opening are separated along the longitudinal length by a distance ranging from about 25 millimeters to about 250 millimeters.
  - 6. The liquefier assembly of claim 1, further comprising a strain gauge secured to the sidewall at a location adjacent to the port.
  - 7. The liquefier assembly of claim 1, wherein the sidewall further has an inner surface, and wherein a portion of the inner surface adjacent to the port comprises a coating selected from the group consisting of fluorinated polymers, diamond-like carbon materials, and combinations thereof.
  - 8. The liquefier assembly of claim 1, wherein the received filament strand has a curved orientation prior to entering the inlet opening of the liquefier tube, the curved orientation having an average angle ranging from about 5 degrees to about 60 degrees as measured between an axis parallel to the longitudinal length of the sidewall and a tangential line to the curved orientation of the received filament strand.
  - 9. The liquefier assembly of claim 1, wherein the liquefier tube comprises a curved portion adjacent to the inlet opening.

10. An extrusion head for use in an extrusion-based digital manufacturing system, the extrusion head comprising:
- a filament drive mechanism configured to drive a filament strand;
  
  a liquefier tube comprising;
  
  a sidewall;
  
  an inlet opening located at a first end of the sidewall and configured to receive the filament strand;
  
  an outlet opening located at the second end of the sidewall; and
  
  a port disposed through the sidewall at a location between the inlet opening and the outlet opening, the sidewall port being configured to receive the filament drive mechanism for engaging the filament strand after the filament strand is received through the inlet opening;
  
  a heat transfer component extending around at least a portion of the sidewall between the port and the outlet opening, the heat transfer component being configured to create a thermal gradient along at least a portion of the sidewall; and
  
  an extrusion tip secured to the sidewall at the outlet opening.
- View Dependent Claims (11, 12, 13, 14)
- - 11. The extrusion head of claim 10, wherein the port has a radial opening angle ranging from about 90 degrees to about 180 degrees, and wherein the radial opening angle is taken from a cross section of the sidewall that is normal to the longitudinal length of the sidewall.
  - 12. The extrusion head of claim 10, wherein the port and the outlet opening are separated along the longitudinal length by a distance ranging from about 25 millimeters to about 250 millimeters.
  - 13. The extrusion head of claim 12, wherein the distance between the port and the outlet opening ranges from about 50 millimeters to about 130 millimeters.
  - 14. The extrusion head of claim 10, wherein the filament drive mechanism comprises a component selected from the group consisting of a rotatable component having an internally-threaded surface, a rotatable shaft having an externally-threaded surface, a rotatable roller, and combinations thereof.

15. A method of building a three-dimensional object with an extrusion-based digital manufacturing system having an extrusion head, the method comprising:
- loading a filament stand into an inlet opening of a liquefier tube of the extrusion head, wherein the liquefier tube comprises a sidewall port disposed between the inlet opening and an outlet opening, wherein the outlet opening is separated from the inlet opening along a longitudinal length of the liquefier tube;
  
  engaging a filament drive mechanism with the filament strand at the sidewall port after the filament strand is loaded into the inlet opening;
  
  driving successive portions of the engaged filament strand toward a thermal gradient region of the liquefier tube with the filament drive mechanism;
  
  melting the driven successive portions of the engaged filament strand at the thermal gradient region; and
  
  extruding the molten portions of the filament strand through an extrusion tip.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. The method of claim 15, further comprising generating the thermal gradient region with a heat transfer component that extends around at least a portion of the liquefier tube between the sidewall port and the outlet opening.
  - 17. The method of claim 15, further comprising curving the filament strand to a curved orientation before loading the filament strand into the inlet opening of the liquefier tube, wherein the curved orientation has an average angle ranging from about 5 degrees to about 60 degrees as measured between an axis parallel to a longitudinal length of the liquefier tube and a tangential line to the curved orientation of the filament strand.
  - 18. The method of claim 15, wherein the sidewall port and the outlet opening are separated along the longitudinal length by a distance ranging from about 25 millimeters to about 250 millimeters.
  - 19. The method of claim 18, wherein the distance between the sidewall port and the outlet opening ranges from about 50 millimeters to about 130 millimeters.
  - 20. The method of claim 15, further comprising:
    - monitoring an axial stretching of the liquefier tube with a strain gauge; and
      
      adjusting a drive rate of the filament drive mechanism based at least in part on the monitored axial stretching.

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Current Assignee
Stratasys Incorporated
Original Assignee
Stratasys Incorporated
Inventors
Batchelder, J. Samuel, Swanson, William J.

Granted Patent

US 7,897,074 B2
Time in Patent Office

Days
Field of Search
US Class Current

264/401
CPC Class Codes

B29C 48/05   Filamentary, e.g. strands

B29C 48/2888   in band or in strip form, e...

B29C 48/86   at the nozzle zone

B29C 48/865   Heating

B29C 64/118   using filamentary material ...

B29C 64/209   Heads; Nozzles

B29C 64/321   Feeding

B33Y 30/00   Apparatus for additive manu...

B33Y 40/00   Auxiliary operations or equ...

Liquefier assembly for use in extrusion-based digital manufacturing systems

First Claim

1 Assignment

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Abstract

146 Citations

20 Claims

Specification

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Liquefier assembly for use in extrusion-based digital manufacturing systems

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

146 Citations

20 Claims

Specification

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Solutions

Use Cases

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