In a fluid pump and cartridge assembly, a cartridge includes a material inlet port, a material outlet port, and a feed screw. The feed screw delivers fluid to be dispensed from the fluid inlet to the outlet port. The fluid inlet is preferably elongated in a direction along a longitudinal axis of the
In a fluid pump and cartridge assembly, a cartridge includes a material inlet port, a material outlet port, and a feed screw. The feed screw delivers fluid to be dispensed from the fluid inlet to the outlet port. The fluid inlet is preferably elongated in a direction along a longitudinal axis of the feed screw to enhance consistency in material flow through the cartridge. The feed screw is preferably driven by a closed-loop servo motor to achieve high-performance dispensing resolution. The assembly is preferably compatible with fixed-z and floating-z cartridges. A optional vented dispense tip, in combination with the fluid pump, allows for repeatable deposit of fillet patterns while maintaining optimal consistency.
대표청구항▼
1. A fluid dispensing tip comprisingan elongated neck;a bore machined in the neck along a longitudinal axis of the neck, the bore having a cylindrical input end at an input end of the neck and a cylindrical output end at an output end of the neck, the output end of the bore having an outlet through
1. A fluid dispensing tip comprisingan elongated neck;a bore machined in the neck along a longitudinal axis of the neck, the bore having a cylindrical input end at an input end of the neck and a cylindrical output end at an output end of the neck, the output end of the bore having an outlet through the output end of the neck;the cylindrical input end of the bore having a first inner diameter and the cylindrical output end of the bore having a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper machined in the bore between the cylindrical input end and the cylindrical output end for transitioning the inner surface of the bore from the first inner diameter to the second inner diameter, the inner taper being proximal to the output end of the neck; andoutlet vents comprising grooves in an outer surface of the output end of the neck, the outlet vents extending radially from the outlet.2. The fluid dispensing tip of claim 1 wherein the outlet vents each comprise a V-groove having first and second inner surfaces.3. The fluid dispensing tip of claim 2 wherein the first and second inner surfaces of the V-groove intersect at an angle ranging between 45 degrees and 135 degrees.4. The fluid dispensing tip of claim 1 wherein the outlet vents are treated by a finishing process that reduces surface tension.5. The fluid dispensing tip of claim 1 wherein the output end of the neck includes a relieved outer surface.6. The fluid dispensing tip of claim 1 wherein the output end of the neck includes a beveled outer surface.7. The fluid dispensing tip of claim 6 wherein the beveled outer surface is ground substantially along the longitudinal axis of the neck such that any tooling marks resulting therefrom are substantially aligned with the longitudinal axis.8. The fluid dispensing tip of claim 1 wherein the vents are ground substantially along their longitudinal axes such that any tooling marks resulting therefrom are substantially aligned with the longitudinal axes of the vents.9. The fluid dispensing tip of claim 1 wherein the outlet is located at a central position of the output end of the neck.10. The fluid dispensing tip of claim 1 wherein the outlet is in communication with the outlet vents.11. The fluid dispensing tip of claim 1 wherein the dispensing tip is unitary.12. The fluid dispensing tip of claim 11 wherein the dispensing tip is machined from stock.13. The fluid dispensing tip of claim 1 wherein the neck is cylindrical.14. A fluid dispensing tip comprising:an elongated cylindrical neck;a cylindrical opening in the neck along a longitudinal axis of the neck, the cylindrical bore having a cylindrical input end at an input end of the neck and a cylindrical output end at an output end of the neck;the cylindrical input end of the bore having a first inner diameter and the cylindrical output end of the bore having a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper machined in the bore between the cylindrical input end and the cylindrical output end for transitioning the inner surface of the bore from the first inner diameter to the second inner diameter, the inner taper being proximal to the output end of the neck; andoutlet vents at the output end of the neck, the outlet vents extending radially from the fluid path, wherein the vents are ground substantially along their longitudinal axes such that any tooling marks resulting therefrom are substantially aligned with the longitudinal axes of the vents.15. A fluid dispensing tip comprising:an elongated neck;an elongated fluid path in the neck along a longitudinal axis of the neck, the fluid path having an input at an input end of the neck and an output at an output end of the neck, the output of the fluid path having an outlet that passes through the output end of the neck;the input of the fluid path having a first inner diameter and the output of the fluid path having a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper in the fluid path between the input and the output of the fluid path for transitioning the inner surface of the fluid path from the first inner diameter to the second inner diameter, the inner taper being proximal to the output end of the neck; andoutlet vents comprising grooves in an outer surface of the output end of the neck, the outlet vents extending radially from the outlet of the fluid path, wherein the dispensing tip is unitary between the input end of the neck and the output end of the neck.16. The fluid dispensing tip of claim 15 wherein the fluid path input is circular in cross section and wherein the fluid path output is circular in cross section.17. The fluid dispensing tip of claim 15 wherein the fluid path input is cylindrical in cross section and wherein the fluid path output is cylindrical in cross section.18. The fluid dispensing tip of claim 15 wherein the outlet vents each comprise a V-groove having first and second inner surfaces.19. The fluid dispensing tip of claim 18 wherein the first and second inner surfaces of the V-groove intersect at an angle ranging between 45 degrees and 135 degrees.20. The fluid dispensing tip of claim 15 wherein the outlet vents are treated by a finishing process that reduces surface tension.21. The fluid dispensing tip of claim 15 wherein the output end of the neck includes a relieved outer surface.22. The fluid dispensing tip of claim 15 wherein the output end of the neck includes a beveled outer surface.23. The fluid dispensing tip of claim 22 wherein the beveled outer surface bevel is ground substantially along the longitudinal axis of the neck such that any tooling marks resulting therefrom are substantially aligned with the longitudinal axis.24. The fluid dispensing tip of claim 15 wherein the vents are ground substantially along their longitudinal axes such that any tooling marks resulting therefrom are substantially aligned with the longitudinal axes of the vents.25. The fluid dispensing tip of claim 15 wherein the outlet is located at a central position of the output end of the neck.26. The fluid dispensing tip of claim 15 wherein the outlet is in communication with the outlet vents.27. The fluid dispensing tip of claim 15 wherein the dispensing tip is machined from stock.28. The fluid dispensing tip of claim 15 wherein the neck is cylindrical.29. A fluid dispensing tip comprisingan elongated neck;a bore machined in the neck along a longitudinal axis of the neck, the bore having a cylindrical input end at an input end of the neck and a cylindrical output end at an output end of the neck, the output end of the bore having an outlet through the output end of the neck;the cylindrical input end of the bore having a first inner diameter and the cylindrical output end of the bore having a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper machined in the bore between the cylindrical input end and the cylindrical output end for transitioning the inner surface of the bore from the first inner diameter to the second inner diameter, the inner taper being proximal to the output end of the neck; andoutlet vents in the output end of the neck, the outlet vents extending radially from the outlet, the outlet vents each comprising a V-groove having first and second inner surfaces.30. The fluid dispensing tip of claim 29 wherein the first and second inner surfaces of the V-groove intersect at an angle ranging between 45 degrees and 135 degrees.31. A fluid dispensing tip comprisingan elongated neck;a bore machined in the neck along a longitudinal axis of the neck, the bore having a cylindrical input end at an input end of the neck and a cylindrical output end at an output end of the neck, the output end of the bore having an outlet through the output end of the neck;the cylindrical input end of the bore having a first inner diameter and the cylindrical output end of the bore having a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper machined in the bore between the cylindrical input end and the cylindrical output end for transitioning the inner surface of the bore from the first inner diameter to the second inner diameter, the inner taper being proximal to the output end of the neck; andoutlet vents in the output end of the neck, the outlet vents extending radially from the outlet, wherein the vents are ground substantially along longitudinal axes of the vents such that any tooling marks resulting therefrom are substantially aligned with the longitudinal axes of the vents.32. A fluid dispensing tip comprising:an elongated neck;an elongated fluid path in the neck along a longitudinal axis of the neck, the fluid path having an input at an input end of the neck and an output at an output end of the neck, the output of the fluid path having an outlet that passes through the output end of the neck;the input of the fluid path having a first inner diameter and the output of the fluid path having a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper in the fluid path between the input and the output of the fluid path for transitioning the inner surface of the fluid path from the first inner diameter to the second inner diameter, the inner taper being proximal to the output end of the neck; andoutlet vents in the output end of the neck, the outlet vents extending radially from the outlet of the fluid path, the outlet vents each comprising a V-groove having first and second inner surfaces, wherein the dispensing tip is unitary between the input end of the neck and the output end of the neck.33. The fluid dispensing tip of claim 32 wherein the first and second inner surfaces of the V-groove intersect at an angle ranging between 45 degrees and 135 degrees.34. A fluid dispensing tip comprising:an elongated neck;an elongated fluid path in the neck along a longitudinal axis of the neck, the fluid path having an input at an input end of the neck and an output at an output end of the neck, the output of the fluid path having an outlet that passes through the output end of the neck;the input of the fluid path having a first inner diameter and the output of the fluid path having a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper in the fluid path between the input and the output of the fluid path for transitioning the inner surface of the fluid path from the first inner diameter to the second inner diameter, the inner taper being proximal to the output end of the neck; andoutlet vents in the output end of the neck, the outlet vents extending radially from the outlet of the fluid path, wherein the vents are ground substantially along longitudinal axes of the vents such that any tooling marks resulting therefrom are substantially aligned with the longitudinal axes of the vents, and wherein the dispensing tip is unitary between the input end of the neck and the output end of the neck.
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