Coextrusion feedblock and coextrusion profiling insert assembly

What is claimed is: 1. A coextrusion feedblock having a housing, a central conduit, a coextrusion conduit, a wedge-shaped flow adjuster, and a plurality of actuators, said coextrusion conduit having a gap height, a width, and a length, said wedge-shaped flow adjuster comprising a plurality of adjustment segments positioned side-by-side along said width of said coextrusion conduit, each of said adjustment segments being independently rotatable, said actuators being operably coupled with respective adjustment segments of said wedge-shaped flow adjuster, each actuator being moveable between first and second configurations, the first configuration involving said actuator engaging the respective adjustment segment of said wedge-shaped flow adjuster to limit rotation of said adjustment segment, the second configuration involving said actuator being disengaged such that the respective adjustment segment of said wedge-shaped flow adjuster is allowed to rotate in response to mass flow variations of extrudates flowing through said central conduit and said coextrusion conduit. 2. The coextrusion feedblock of claim 1 wherein each adjustment segment of said wedge-shaped flow adjuster has more freedom to rotate when the respective actuator is in the second configuration than when it is in the first configuration. 3. The coextrusion feedblock of claim 1 wherein the first configuration involves said actuator engaging the respective adjustment segment of said wedge-shaped flow adjuster to limit rotation of said adjustment segment in a first direction without limiting rotation in an opposite, second direction, wherein rotation in the first direction involves widening said gap height of said coextrusion channel, and rotation in the second direction involves narrowing said gap height of said coextrusion channel. 4. The coextrusion feedblock of claim 1 wherein each actuator can be moved axially to rotate the respective adjustment segment of said wedge-shaped flow adjuster such that said gap height of said coextrusion conduit is narrowed. 5. The coextrusion feedblock of claim 1 wherein each adjustment segment of said wedge-shaped flow adjuster has a cam surface, and each actuator is configured to bear against said cam surface of the respective adjustment segment of said wedge-shaped flow adjuster to rotate said adjustment segment such that said gap height of said coextrusion conduit is narrowed. 6. The coextrusion feedblock of claim 1 wherein each actuator comprises a rotatable controller and a push rod that are operably coupled with each other such that said controller can be rotated to move said push rod axially to cam with the respective adjustment segment of said wedge-shaped flow adjuster. 7. The coextrusion feedblock of claim 1 wherein said actuators are accessible from outside of said coextrusion feedblock, such that said coextrusion conduit can be profiled by an operator from outside of said coextrusion feedblock without having to stop operating said coextrusion feedblock. 8. The coextrusion feedblock of claim 1 wherein said wedge-shaped flow adjuster is adjustable to profile said coextrusion conduit such that said gap height is different adjacent to different adjustment segments of said wedge-shaped flow adjuster. 9. The coextrusion feedblock of claim 1 wherein each adjustment segment of said wedge-shaped flow adjuster has first and second flow-contacting surfaces, said first flow-contacting surface being exposed to said central conduit, said second flow-contacting surface being exposed to said coextrusion conduit, and each adjustment segment of said wedge-shaped flow adjuster is rotatable to simultaneously change said gap height of said coextrusion conduit and a height of said central conduit. 10. The coextrusion feedblock of claim 1 wherein said housing has an exterior wall and a mount opening extending from said exterior wall to said central conduit, said coextrusion feedblock having a coextrusion profiling insert assembly mounted removably in said mount opening, said coextrusion profiling insert assembly comprising first and second blocks positioned side-by-side in said mount opening such that said coextrusion conduit extends between said first and second blocks, said first block carrying said wedge-shaped flow adjuster and said actuators. 11. A coextrusion profiling insert assembly configured to be mounted in a mount opening of a coextrusion feedblock having a housing, a central conduit, and a coextrusion conduit, said insert assembly having a wedge-shaped flow adjuster and a plurality of actuators, said wedge-shaped flow adjuster comprising a plurality of adjustment segments configured to be positioned side-by-side along a width of the coextrusion conduit, each of said adjustment segments being independently rotatable when said insert assembly is operably mounted in the mount opening of the coextrusion feedblock, said actuators configured to be operably coupled with respective adjustment segments of said wedge-shaped flow adjuster such that each actuator is moveable between first and second configurations, the first configuration involving said actuator engaging the respective adjustment segment of said wedge-shaped flow adjuster to limit rotation of said adjustment segment, the second configuration involving said actuator being disengaged such that the respective adjustment segment of said wedge-shaped flow adjuster is allowed to pivot in response to mass flow variations of extrudates flowing through said central conduit and said coextrusion conduit. 12. The coextrusion profiling insert assembly of claim 11 wherein each adjustment segment of said wedge-shaped flow adjuster has more freedom to rotate when the respective actuator is in the second configuration than when it is in the first configuration. 13. The coextrusion profiling insert assembly of claim 11 wherein the first configuration involves said actuator engaging the respective adjustment segment of said wedge-shaped flow adjuster to limit rotation of said adjustment segment in a first direction without limiting rotation in an opposite, second direction, wherein rotation in the first direction involves widening said gap height of said coextrusion channel, and rotation in the second direction involves narrowing said gap height of said coextrusion channel. 14. The coextrusion profiling insert assembly of claim 11 wherein each adjustment segment of said wedge-shaped flow adjuster has a cam surface, and each actuator is configured to bear against said cam surface of the respective adjustment segment of said wedge-shaped flow adjuster to rotate said adjustment segment such that a gap height of the coextrusion conduit is narrowed. 15. The coextrusion profiling insert assembly of claim 14 wherein each adjustment segment of said wedge-shaped flow adjuster has first and second flow-contacting surfaces, and said insert assembly is configured to be operably mounted in the mount opening of the coextrusion feedblock such that i) said first flow-contacting surface of each adjustment segment of said wedge-shaped flow adjuster is exposed to the central conduit, ii) said second flow-contacting surface of each adjustment segment of said wedge-shaped flow adjuster is exposed to the coextrusion conduit, and iii) each adjustment segment of said wedge-shaped flow adjuster is rotatable to simultaneously change a gap height of the coextrusion conduit and a height of the central conduit. 16. The coextrusion profiling insert assembly of claim 15 wherein each adjustment segment of said wedge-shaped flow adjuster has a generally cylindrical base region and a tip, said generally cylindrica