Apparatus and method for coinjection of a multilayer molded article with a segmented internal layer

What is claimed is: 1. A method of coinjection molding a multilayer article having a multi-segment internal layer, comprising: injecting a surface layer material into a mold cavity from at least one of an inner outlet and an outer outlet of a multi-channel nozzle; and intermittently injecting an internal layer material into the mold cavity from an intermediate outlet of the multi-channel nozzle such that the internal layer material is entirely encapsulated by the surface layer material, the intermediate outlet being between the inner and outer outlets of the multi-channel nozzle, wherein the injecting of the surface layer material into the mold cavity comprises: before the intermittent injecting of the internal layer material, injecting the surface layer material into the mold cavity from both of the inner outlet and the outer outlet of the multi-channel nozzle with the intermediate outlet in an open state; and throughout the intermittent injecting of the internal layer material, injecting the surface layer material into the mold cavity from only the outer outlet of the multi-channel nozzle with the inner outlet in a closed state, and wherein the intermittent injecting of the internal layer material is controlled, at least in part, by intermittent opening and closing of the intermediate outlet, and wherein the intermittent injecting of the internal layer material comprises: closing the intermediate outlet; pre-compressing the internal layer material in the multi-channel nozzle by activating an injection unit upstream of the intermediate outlet while the intermediate outlet is closed; and then forming each of a plurality of internal layer segments of the multilayer article by: opening the intermediate outlet of the multi-channel nozzle to release a stream of internal layer material with injection by activating the injection unit upstream of the intermediate outlet when the intermediate outlet opens for injection; and then closing the intermediate outlet of the multi-channel nozzle to terminate the stream of the internal layer material with suspending injection by the injection unit upstream of the intermediate outlet when the intermediate outlet has closed. 2. The method of claim 1 further comprising, for each of the plurality of internal layer segments of the multilayer article: upon the opening the intermediate outlet, activating the upstream injection unit to commence injection of the internal layer material from the intermediate outlet, wherein the activating includes non-linearly advancing a driving element of the injection unit; and upon the closing the intermediate outlet, deactivating the upstream injection unit. 3. The method of claim 1 wherein a first one of the plurality of internal layer segments has a first axial extent and wherein a second one of the plurality of internal layer segments has a second axial extent less than the first axial extent. 4. The method of claim 3 wherein the forming of the first and second internal layer segments comprises releasing the internal layer material from the intermediate outlet for first and second durations respectively, wherein the first duration is longer than the second duration. 5. The method of claim 1 wherein a first one of the plurality of internal layer segments has a first thickness and wherein a second one of the plurality of internal layer segments has a second thickness less than the first thickness. 6. The method of claim 5 wherein the opening of the intermediate outlet comprises, for the forming of the first internal layer segment of the first thickness, fully opening the intermediate outlet, and for the forming of the second internal layer segment of the second thickness, only partially opening the intermediate outlet. 7. The method of claim 1 wherein the multi-channel nozzle comprises a reciprocable valve stem, wherein each of the intermediate and outer outlets comprises an inwardly facing annular outlet, and wherein the intermittent opening and closing of the intermediate outlet comprises reciprocating the reciprocable valve stem between a first position in which the reciprocable valve stem does not block either of the intermediate or outer outlets and a second position in which the reciprocable valve stem blocks the intermediate outlet but does not block the outer outlet.