초록

An extrusion apparatus for extruding multiple streams of extrusion material as extruded end-products and in the coating of substrates. A flow joiner in an extrusion head combines multiple metered streams such as from a gear pump, into a uniform extrusion flow.

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1. A method for coating a substrate comprising: providing a plurality of metered, separate individual streams of a single layer coating material to an extrusion head;expanding each of the plurality of metered, separate individual streams of the single layer coating material in a plurality of corresp

1. A method for coating a substrate comprising: providing a plurality of metered, separate individual streams of a single layer coating material to an extrusion head;expanding each of the plurality of metered, separate individual streams of the single layer coating material in a plurality of corresponding respective expansion regions of a flow joiner;joining the individual streams from the plurality of corresponding respective expansion regions of the flow joiner into a single layer coating flow with uniform thickness at an annular space of the flow joiner each of the plurality of corresponding respective expansion regions having a first end adjacent each of the plurality of corresponding respective receiving regions, each of the plurality of corresponding respective expansion regions having a second end adjacent the annular space, each of the plurality of corresponding respective expansion regions becoming progressively wider from the first end to the second end and remaining wider for extruding the single layer coating flow on to a substrate; andextruding the single layer coating flow on to the substrate. 2. The method of claim 1, wherein the single layer coating flow is an annular flow. 3. The method of claim 2, wherein a geometrical shape of the substrate is cylindrical. 4. The method of claim 1, wherein one or more of the individual streams include a color different from one or more other individual streams. 5. The method of claim 1, wherein at least two of the individual streams each include a different coating material. 6. The method of claim 1 further comprising joining a second coating flow of uniform thickness on a second tapered surface of the extrusion head, extruding the second coating flow on to an underlying coating flow and extruding multiple layers of coating on to the substrate. 7. The method of claim 1, wherein the substrate is metal conductor core and the coating material is an insulation layer. 8. The method of claim 1, further comprising pumping the individual streams of coating material from one or more gear pumps to the extrusion head. 9. The method of claim 8, wherein the one or more gear pumps includes a planetary gear pump. 10. The method of claim 8, wherein the one or more gear pumps include a plurality of non-planetary gear pumps. 11. The method of claim 8, wherein the one or more gear pumps include at least one planetary gear pump and at least one non-planetary gear pump. 12. A method for coating a substrate comprising: providing a plurality of metered, separate individual streams of coating material to an extrusion head;receiving the plurality of metered, separate individual streams of coating material at a plurality of corresponding respective receiving regions of a flow joiner within the extrusion head;expanding each of the plurality of metered, separate individual streams of coating material in a plurality of corresponding respective expansion regions of the flow joiner;joining the expanded plurality of metered, separate individual streams from the plurality of corresponding respective expansion regions of the flow joiner into a coating flow at an annular space of the flow joiner, each of the plurality of corresponding respective expansion regions having a first end adjacent each of the plurality of corresponding respective receiving regions, each of the plurality of corresponding respective expansion regions having a second end adjacent the annular space, the second end being wider than the first end, each of the plurality of corresponding respective expansion regions becoming progressively wider from the first end to the second end and remaining wider for extruding the coating flow on to a substrate; andextruding the coating flow on to the substrate. 13. The method of claim 12, wherein the coating flow is an annular flow. 14. The method of claim 13, wherein a geometrical shape of the substrate is cylindrical. 15. The method of claim 12, wherein one or more individual streams include a color different from one or more other individual streams. 16. The method of claim 12, wherein at least two individual streams each include a different coating material. 17. The method of claim 12, further comprising joining a second coating flow on a second tapered surface of the extrusion head, extruding the second coating flow on to an underlying coating flow and extruding multiple layers of coating on to the substrate. 18. The method of claim 12, further comprising pumping the individual streams of coating material from one or more gear pumps to the extrusion head. 19. The method of claim 18, wherein the one or more gear pumps includes a planetary gear pump. 20. The method of claim 18, wherein the one or more gear pumps include a plurality of non-planetary gear pumps. 21. The method of claim 12, wherein joining the expanded plurality of metered, separate individual streams from the plurality of corresponding respective expansion regions of the flow joiner into the coating flow at the annular space comprises joining the expanded plurality of metered, separate individual streams from the plurality of corresponding respective expansion regions each having a respective acutely shaped bottom congruent with the annular space. 22. The method of claim 12, wherein providing the plurality of metered, separate individual streams of coating material to the extrusion head comprises providing the plurality of metered, separate individual streams of coating material to the extrusion head through a plurality of respective hoses. 23. The method of claim 12, wherein expanding each of the plurality of metered, separate individual streams of coating material in the plurality of corresponding respective expansion regions comprises expanding each of the plurality of metered, separate individual streams of coating material wherein each of the plurality of corresponding respective expansion regions is approximately 1¾ in. long between each of the plurality of corresponding respective receiving regions and the annular space. 24. A method for coating a substrate comprising: receiving a plurality of metered, separate individual streams of coating material at a plurality of corresponding respective receiving regions of a flow joiner within the extrusion head;expanding each of the plurality of metered, separate individual streams of coating material in a plurality of corresponding respective expansion regions of the flow joiner;joining the expanded plurality of metered, separate individual streams from the plurality of corresponding respective expansion regions of the flow joiner into a coating flow at an annular space of the flow joiner, each of the plurality of corresponding respective expansion regions having a first end adjacent each of the plurality of corresponding respective receiving regions, each of the plurality of corresponding respective expansion regions having a second end adjacent the annular space, each of the plurality of corresponding respective expansion regions having a respective acutely shaped bottom congruent with the annular space, each of the plurality of corresponding respective expansion regions becoming progressively wider from the first end to the second end and remaining wider for extruding the coating flow on to a substrate; andextruding the coating flow on to the substrate comprising an electrical cable assembly.