초록 ▼

A multi-tip extrusion method and apparatus for building a three-dimensional object deposits modeling materials from distinct supply sources, each in a layerwise predetermined pattern, from dispensers having co-planar dispensing tips. The tip spacing is controlled so that a road of material extruded

A multi-tip extrusion method and apparatus for building a three-dimensional object deposits modeling materials from distinct supply sources, each in a layerwise predetermined pattern, from dispensers having co-planar dispensing tips. The tip spacing is controlled so that a road of material extruded by a leading one of the tips will cool and shrink from the plane of the tips before a trailing one of the tips passes over the road. In this manner, smearing of the road by a trailing one of the tips is avoided.

대표청구항 ▼

What is claimed is: 1. A layered deposition method for building a three-dimensional object comprising the steps of: providing a first thermally solidifiable modeling material to a first dispenser, the first dispenser having a first dispensing tip which has a downward planar face; providing a second

What is claimed is: 1. A layered deposition method for building a three-dimensional object comprising the steps of: providing a first thermally solidifiable modeling material to a first dispenser, the first dispenser having a first dispensing tip which has a downward planar face; providing a second thermally solidifiable modeling material to a second dispenser, the second dispenser having a second dispensing tip maintained in a fixed vertical position relative to the first dispensing tip, the second dispensing tip having a downward face approximately co-planar with the face of the first dispensing tip; dispensing roads of the first material in molten form from the tip of the first dispenser onto a base contained in a build environment having a temperature lower than an extrudate temperature of the first and second material, while moving said first dispensing tip in a predetermined pattern within a layer above the base; dispensing roads of the second material in molten form from the tip of the second dispenser while moving said second dispensing tip in a predetermined pattern within the same layer; and controlling the dispensers such that a trailing one of the first and second dispensers lags behind a leading one of the first and second dispensers by no less than a minimum transit time Δt, defined as the time for a road deposited by the leading dispenser to sufficiently shrink due exclusively to cooling so that the tip of the trailing dispenser does not drag across and smear the road. 2. The method of claim 1, wherein the minimum transit time Δt is given by the equation where h is the height of the deposited road and Ke is the thermal diffusivity of the material forming the road. 3. The method of claim 2, wherein the dispensing tips accelerate and decelerate through paths comprising multiple vertices and have a minimum vertex velocity vmin and a maximum acceleration amax, and wherein the dispensing tips are spaced apart a minimum spacing s characterized by the relationship 4. A layered deposition method for building a three-dimensional object comprising the steps of: providing a first thermally solidifiable modeling material to a first dispenser carried by an extrusion head, the first dispenser having a first dispensing tip which has a downward planar face positioned in approximately a z-plane; providing a second thermally solidifiable modeling material to a second dispenser carried by the extrusion head, the second dispenser having a second dispensing tip maintained in a fixed vertical position relative to the first dispensing tip, the second dispensing tip having a downward face spaced apart a distance s from the face of the first dispensing tip and approximately co-planar with the face of the first dispensing tip; moving the extrusion head at a controlled velocity in a layerwise predetermined pattern above a base contained in a build environment having a temperature lower than an extrudate temperature of the first and second material alternately dispensing roads of the first material in molten form from the tip of the first dispenser and dispensing roads of the second material in molten form from the tip of the second dispenser while the extrusion head is moved in the predetermined pattern within a layer; and controlling the velocity of the extrusion head such that a road deposited in the layer by a leading one of the first and second dispensing tips shrinks from the plane of the tips due exclusively to cooling before a trailing one of the first and second dispensing tips passes over the road, so that the trailing dispensing tip does not smear the road. 5. The method of claim 4, wherein the extrusion head is controlled so that a minimum transit time Δt elapses between deposition of the road by the leading dispensing tip and the passing of the trailing dispensing tip, wherein Δt is a function of the height of the deposited road the thermal diffusivity of the material forming the road. 6. The method of claim 5, wherein the dispensing tips accelerate and decelerate through paths comprising multiple vertices and have a minimum vertex velocity vmin and a maximum acceleration amax, and wherein the dispensing tips are spaced apart a minimum spacing s characterized by the relationship 7. A method for building a three-dimensional object in a modeling machine of the type which builds three-dimensional objects in layers by depositing thermally solidifiable modeling material as roads of molten material into a build environment having a temperature lower than an extrudate temperature of the material, and from an extrusion head that moves at a known speed in a predetermined cross-sectional pattern, the method comprising: providing a first thermally solidifiable modeling material to a first dispenser carried by the extrusion head, the first dispenser having a dispensing tip which has a downward planar face; providing a second thermally solidifiable modeling material to a second dispenser carried by the extrusion head, the second dispenser having a dispensing tip maintained in a fixed vertical position relative to the tip of the first dispenser, the dispensing tip of the second dispenser having a downward face spaced apart a distance s from the tip face of the first dispenser and approximately co-planar with the tip face of the first dispenser; dispensing roads of the first material in molten form from the tip of the first dispenser, without using a planarizer to shape the roads; dispensing roads of the second material in molten form from the tip of the second dispenser, without using a planarizer to shape the roads; moving the extrusion head in a layer according to a predetermined pattern, wherein each of the first and second dispensers at different times act as a leading and a trailing dispenser; and controlling the velocity of the extrusion head such that the trailing one of the first and second dispensers lags behind the leading one of the first and second dispensers by no less than a minimum transit time Δt, wherein Δt is the time for a road deposited by the leading dispenser to sufficiently shrink due to cooling so that the tip of the trailing dispenser does not drag across and smear the road. 8. The method of claim 7, wherein the minimum transit time Δt is given by the equation where h is the height of the deposited road and Ke is the thermal diffusivity of the material forming the road. 9. The method of claim 8, wherein the dispensing tips accelerate and decelerate through paths comprising multiple vertices and have a minimum vertex velocity vmin and a maximum acceleration amax, and wherein the dispensing tips are spaced apart a minimum spacing s characterized by the relationship 10. A layered deposition method for forming a three-dimensional object, comprising the steps of: moving an extrusion head at a controlled velocity in a layer, said extrusion head carrying first and second adjacent dispensers; depositing a thermally solidifiable material in molten form in a road from a downward facing tip of the first dispenser into a build envelope having a temperature lower than an extrudate temperature of the material, while the extrusion head is moved; and controlling the velocity of the extrusion head such that when the second dispenser trails the first dispenser, a downward facing tip of the second dispenser approximately co-planar with the tip of the first dispenser lags behind the tip of the first dispenser by no less than a minimum transit time Δt, defined as the time for the deposited road to sufficiently shrink from the plane of the tips due to cooling so that the tip of the second dispenser does not smear the road. 11. The method of claim 10, wherein the minimum transit time Δt is given by the equation where h is the height of the deposited road and Ke is the thermal diffusivity of the material. 12. The method of claim 11, wherein the first dispenser accelerates and decelerates through paths comprising multiple vertices and has a minimum vertex velocity vmin and a maximum acceleration amax, and wherein the dispensing tips are spaced apart a minimum spacing s characterized by the relationship 13. The process of claim 10, wherein the extrusion head further carries a third dispenser adjacent the first dispenser, and further comprising controlling the velocity of the extrusion head such that when third dispenser trails the first dispenser, a downward facing tip of the third dispenser approximately co-planar with the tip of the first dispenser lags behind the tip of the first dispenser by no less than the minimum transit time Δt. 14. A layered deposition method for forming a three-dimensional object, comprising the steps of: moving first and second adjacent dispensers at a controlled velocity in a a layer, said dispensers having downward facing co-planar dispensing tips; depositing a thermally solidifiable material having a thermal diffusivity Ke in molten form in a road having a height h from the tip of the first dispenser while the first dispenser moves in a predetermined pattern, into a build envelope having a temperature lower than an extrudate temperature of the material; and controlling the dispensers such that the tip of the second dispenser does not pass over the road deposited by the first dispenser until the road shrinks due to cooling from the plane of the tips, such that the tip of the second dispenser does not smear the road. 15. The method of claim 14, wherein the controlling step comprises trailing the tip of the first dispenser with the tip of the second dispenser at a distance of no less than s, wherein s is a function of the road height h and the thermal diffusivity Ke of the material forming the road. 16. The method of claim 15, wherein s is given by v min wherein the first dispenser accelerates and decelerates through paths comprising multiple vertices with a minimum velocity at a vertex vmin and a maximum acceleration amax, and Δt is given by the equation 17. The method of claim 14, wherein the controlling step comprises trailing the tip of the first dispenser with the tip of the second dispenser by a minimum transit time Δt, calculated as a function of road height h and the thermal diffusivity Ke of the material forming the road. 18. The method of claim 17, wherein the minimum transit time Δt is given by the equation