A fluid dispense tip includes a bevel at an opening to reduce the amount of surface tension, or “land”, at the opening. The bevel is formed by grinding in a longitudinal direction such that any tooling scars resulting from the grinding operation are likewise longitudinally oriented, further reducing
A fluid dispense tip includes a bevel at an opening to reduce the amount of surface tension, or “land”, at the opening. The bevel is formed by grinding in a longitudinal direction such that any tooling scars resulting from the grinding operation are likewise longitudinally oriented, further reducing the amount of surface tension in the tip, thereby leading to heightened dispensing accuracy. The tip may be machined from stock as a unitary piece, to increase its lifetime, and may be formed with a bore of a relatively large diameter that is tapered down to a smaller diameter near the tip opening, to allow for delivery of fluid through the tip body at a decreased pressure. A cleaning tool may be provided for removing residual material from the inner surfaces of the tip. A removable liner sleeve may be provided within the bore to reduce the effective inner diameter of the dispense tip.
대표청구항▼
1. A beveled dispense tip comprising: an elongated neck having a longitudinal axis;an elongated hole in the neck, the hole extending from an input end region of the neck to an output end region of the neck, a portion of the elongated hole having an inner surface of a first inner diameter, and the ou
1. A beveled dispense tip comprising: an elongated neck having a longitudinal axis;an elongated hole in the neck, the hole extending from an input end region of the neck to an output end region of the neck, a portion of the elongated hole having an inner surface of a first inner diameter, and the output end region including an outlet having an inner surface of a second inner diameter, the first inner diameter being greater than the second inner diameter;an inner taper that transitions the inner surface of the hole from the first inner diameter at a first position relative to the longitudinal axis to the second inner diameter at a second position relative to the longitudinal axis, the hole being unobstructed within the first inner diameter and the second inner diameter between the input end region of the neck and the outlet in the output end region of the neck;a body at the input end region of the neck, the body including a funnel that delivers fluid to the input end region of the neck, the funnel having a funnel inlet at an input end of the funnel that is constructed and arranged to receive a flow of fluid from a material pump and a funnel outlet at an output end of the funnel;a bevel about an outermost end of the output end region of the neck, wherein the outlet extends from the inner taper to the outermost end, wherein the bevel surface lies at an acute angle relative to the longitudinal axis at the outermost end of the output end region of the neck; andan alignment foot coupled to the body, the foot having a primary axis substantially parallel to the longitudinal axis of the neck, and being of a length longer than the neck. 2. The dispense tip of claim 1, wherein the fluid path only narrows in diameter or remains constant in diameter from the funnel inlet to the first position of the inner taper along the longitudinal axis. 3. The dispense tip of claim 1, wherein the body includes a bore adjacent the funnel, and wherein the alignment foot is positioned in the bore for coupling to the body. 4. The dispense tip of claim 1, wherein the bevel has an outer surface of a second length in a direction along the longitudinal axis, and wherein the second length of the bevel outer surface is greater than a first length of the outlet. 5. The dispense tip of claim 1, wherein the alignment foot comprises at least one of a metal, a plastic, investment casting, or injection molding. 6. The dispense tip of claim 1, wherein the alignment foot has a radiused tip. 7. The dispense tip of claim 1, wherein the alignment foot comprises a metal, the neck comprises a ceramic, and the body comprises a composite. 8. The dispense tip of claim 1, wherein the alignment foot comprises a metal, and the body and the neck are molded. 9. The dispense tip of claim 1, wherein the foot and the body are formed of different materials. 10. The dispense tip of claim 1, wherein the body and the neck are formed of different materials. 11. The dispense tip of claim 1, wherein the neck comprises ceramics and the body comprises at least one of stainless steel, ceramics, composites, glass, and epoxy. 12. The dispense tip of claim 1, wherein the foot and the neck are formed of different materials. 13. The dispense tip of claim 1, wherein at least one of the neck and the body comprises a composite or a ceramic. 14. The dispense tip of claim 1, wherein at least two of the foot, body, and neck are formed of different materials. 15. The dispense tip of claim 1, wherein the inner taper is proximal to the output end region of the neck. 16. The dispense tip of claim 1, wherein the portion of the elongated hole having the inner surface of the first inner diameter is proximal to the input end region of the neck. 17. The dispense tip of claim 1, wherein the portion of the elongated hole having the inner surface of the first inner diameter is proximal to the output end region of the neck. 18. A method of forming a dispense tip comprising: forming an elongated neck having a longitudinal axis;forming elongated hole in the neck, the hole extending from an input end region of the neck to an output end region of the neck, a portion of the elongated hole having an inner surface of a first inner diameter, and the output end region including an outlet having an inner surface of a second inner diameter, the first inner diameter being greater than the second inner diameter;forming an inner taper that transitions the inner surface of the hole from the first inner diameter at a first position relative to the longitudinal axis to the second inner diameter at a second position relative to the longitudinal axis, the hole being unobstructed within the first inner diameter and the second inner diameter between the input end region of the neck and the outlet in the output end region of the neck;forming a body at the input end region of the neck, the body including a funnel that delivers fluid to the input end region of the neck, the funnel having a funnel inlet at an input end of the funnel that is constructed and arranged to receive a flow of fluid from a material pump and a funnel outlet at an output end of the funnel;forming a bevel about an outermost end of the output end region of the neck, wherein the outlet extends from the inner taper to the outermost end, wherein the bevel surface lies at an acute angle relative to the longitudinal axis at the outermost end of the output end region of the neck; andcoupling an alignment foot to the body, the foot having a primary axis substantially parallel to the longitudinal axis of the neck, and being of a length longer than the neck. 19. The method of claim 18, wherein the alignment foot comprises a metal, the neck comprises a ceramic, and the body comprises a composite. 20. The method of claim 18, wherein at least two of the foot, body, and neck are formed of different materials.
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