Cam-controlled core inserter for a surface winder

What is claimed is: 1. A cam-controlled core insertion device for a surface winder, said cam-controlled core insertion device comprising: a shaft having a plurality of cam housings disposed thereabout, each of said cam housings being disposed at a respective position along and about said shaft; each of said cam housings having a longitudinal axis coincident with a longitudinal axis of said shaft, said shaft being disposed coaxially about said longitudinal axis and being rotatable thereabout; a cam disposed within a first surface of each of said cam housings, each cam being cooperatively associated with a respective cam housing, each of said cams being disposed within said respective cam housing about said longitudinal axis; a fixed finger plate juxtaposed proximate to each of said cam housings and fixably attached to said shaft, each of said fixed finger plates being cooperatively associated with a respective cam housing, each of said fixed finger plates having a fixed finger fixably attached thereto, each of said fixed fingers having a fixed orientation relative to said longitudinal axis as said shaft rotates about said longitudinal axis, each of said fixed fingers having an end distal from said fixable attachment to said respective fixed finger plate; a cam follower cooperatively associated with each of said cams, each of said cam followers having a finger shaft attached thereto, said finger shaft being disposed through a respective fixed finger plate cooperatively associated thereto and having a movable finger attached thereto, wherein each of said cam followers orbit about said longitudinal axis while juxtaposed proximate to and in contacting engagement with said respective cam cooperatively associated thereto, each of said movable fingers having an adjustable orientation relative to said longitudinal axis as said cam follower cooperatively associated thereto orbits about said longitudinal axis, each of said movable fingers having an end distal from said respective cam follower; wherein said distal end of each of said movable fingers and said distal end of each of said fixed fingers cooperatively associated thereto are capable of forming a space therebetween for contacting engagement and containment of a core suitable for the convolute disposal of a web material thereabout; wherein each of said cams causes said respective movable finger to rotate toward said fixed finger cooperatively associated thereto when each of said respective cam followers are disposed at a first orbital position relative to said longitudinal axis to engage said core between each of said distal ends of said movable fingers and said distal ends of said fixed fingers cooperatively associated thereto; and, wherein each of said cams cause said respective movable finger to rotate away from said respective fixed finger cooperatively associated thereto to disengage from said core when each of said cam followers are disposed at a second orbital position relative to said longitudinal axis. 2. The cam-controlled core insertion device of claim 1 wherein each of said cam followers orbit about said longitudinal axis while disposed within said cam cooperatively associated thereto. 3. The cam-controlled core insertion device of claim 2 wherein each of said cams further comprises a first cam track portion and a second cam track portion. 4. The cam-controlled core insertion device of claim 3 wherein each of said cam followers further comprise a first cam follower bearing and a second cam follower bearing, said first cam follower bearing provided in contacting and roller-like engagement with said first cam track portion and said second cam follower bearing provided in contacting and roller-like engagement with said second cam track portion. 5. The cam-controlled core insertion device of claim 1 wherein each of said cam followers orbit about said longitudinal axis while disposed about said cam cooperatively associated thereto. 6. The cam-controlled core insertion device of claim 1 wherein each of said fixed finger plates further comprises a latch, said latch being disposed in an orientation upon said fixed finger plate that provides cooperative engagement with said fixed finger. 7. The cam-controlled insertion device of claim 6 wherein said latch secures said fixed finger in a fixed orientation relative to said shaft and said longitudinal axis as said shaft and said fixed finger plate rotate about said longitudinal axis. 8. The cam-controlled insertion device of claim 6 wherein said latch enables pivotable movement of said fixed finger in a direction generally away from said moveable finger. 9. The cam-controlled insertion device of claim 6 wherein said latch is selected from the group consisting of magnetic latches, shear pins, slip-clutches, and combinations thereof. 10. The cam-controlled core insertion device of claim 1 wherein each of said cam housings and each of said fixed finger plates each comprise two mutually and cooperatively engageable halves. 11. The cam-controlled core insertion device of claim 10 wherein each of said cam housings and each of said fixed finger plates each removable from said surface winder. 12. The cam-controlled core insertion device of claim 1 wherein said cam-controlled core insertion device is disposable adjacent to and in cooperative engagement with said surface winder. 13. The cam-controlled core insertion device of claim 1 wherein each of said cam followers synchronously orbit about said longitudinal axis. 14. The cam-controlled core insertion device of claim 1 wherein each of said cams are identical. 15. The cam-controlled core insertion device of claim 1 wherein each of said cam housings and each of said cams are formed as a uni-body construction. 16. The cam-controlled core insertion device of claim 15 wherein said uni-body construction is selected from the group consisting of SLM/Selective Laser Melting, RFP/Rapid freeze prototyping, SLS/Selective Laser sintering, SLA/Stereo lithography, EFAB/Electrochemical fabrication, DMDS/Direct Metal Laser Sintering, LENS/Laser Engineered Net Shaping, DPS/Direct Photo Shaping, DLP/Digital light processing, EBM/Electron beam machining, FDM/Fused deposition manufacturing, MJM/Multiphase jet modeling, LOM/Laminated Object manufacturing, DMD/Direct metal deposition, SGC/Solid ground curing, JFP/Jetted photo polymer, EBF/Electron Beam Fabrication, LMJP/liquid metal jet printing, MSDM/Mold shape deposition manufacturing, SALD/Selective area laser deposition, SDM/Shape deposition manufacturing, and combinations thereof.