Method and apparatus for producing coreless rolls of paper

I claim: 1. A clasp for engaging an end of a tube, the clasp comprising: a shaft having a generally cylindrical outer surface, the outer surface being adapted to be inserted into a bore of a tube; a housing being adapted to house a plurality of clamping blocks, the clamping blocks being spaced circumferentially around the shaft within the housing, the plurality of clamping blocks being moveable between a disengaged position and an engaged position, wherein in the disengaged position the plurality of clamping blocks are spaced radially outwardly from the outer surface of the shaft at a distance sufficient such that a tube is insertable between the shaft and the clamping blocks, and wherein in the engaged position, the plurality of clamping blocks are positioned radially inward of the disengaged position toward the shaft, and wherein in the engaged position and when a tube is disposed between the clamping blocks and the shaft, the plurality of clamping blocks presses the tube against the shaft; and at least one actuator engageable with at least one clamping block of the plurality of clamping blocks to move the at least one clamping block between the disengaged position and the engaged position. 2. The clasp of claim 1 wherein the at least one actuator is slidingly engageable with the at least one clamping block along complimentary wedge-shaped surfaces such that axial movement of the at least one actuator causes radial movement of the at least one clamping block between the disengaged position and the engaged position. 3. The clasp of claim 2 further comprising a cylinder with a piston mounted in the cylinder for sliding movement of the piston relative to the cylinder, the cylinder being operatively connected to the at least one actuator with a link such that axial movement of the cylinder causes axial movement of the at least one actuator. 4. The clasp of claim 3 wherein the piston is operatively connected to the shaft in a manner such that pressurizing the cylinder causes the cylinder to move axially relative to the shaft. 5. The clasp of claim 1 wherein the clasp is operatively connected with a pulling member, the pulling member being configured to exert an axial pulling force on the clasp. 6. The clasp of claim 1 wherein each of the clamping blocks includes a flat clamping surface configured to engage the outer surface of the tube in the engaged position. 7. The clasp of claim 1 further comprising a plurality of spacers, each of the spacers being positioned circumferentially about the shaft between the clamping blocks. 8. The clasp of claim 1 wherein the clasp is slidably mounted on a frame and moveable relative to the frame in a direction substantially parallel to the shaft. 9. The clasp of claim 8 wherein in the clasp is moveable relative to the frame between a tube engagement position in which the clasp is adjacent to a restraint configured to engage an axial face of an object mounted on a tube, and a tube disengagement position in which the clasp is spaced from the restraint. 10. A clasp apparatus for engaging an end of a tube, the clasp comprising: a housing having a center shaft and a plurality of clamping blocks spaced circumferentially around the shaft within the housing, the plurality of clamping blocks being moveable between a disengaged position and an engaged position, wherein in the disengaged position the plurality of clamping blocks are spaced radially outwardly from an outer surface of the shaft at a distance sufficient such that a tube is insertable between the shaft and the clamping blocks, and wherein in the engaged position, the plurality of clamping blocks are positioned radially inward of the disengaged position toward the shaft, and wherein in the engaged position and when a tube is disposed between the plurality of clamping blocks and the shaft, the plurality of clamping blocks presses the tube against the shaft; and an actuator for each clamping block disposed in the housing, the actuator having a tapered surface that cooperates with a tapered surface of the respective clamping block, the actuator being configured to slide axially relative to clamping block along the complimentary tapered surfaces to move the clamping block between the disengaged position and the engaged position. 11. The clasp of claim 10 further comprising a cylinder, the cylinder having an internal bore with a piston adapted and configured for sliding movement in the bore of the cylinder, one of the cylinder and the piston being operatively connected to the actuators. 12. The clasp of claim 11 wherein the cylinder is slidable relative to piston such that axial movement of the cylinder causes axial movement of the actuators. 13. The clasp of claim 12 wherein the piston is operatively connected to the shaft in a manner such that pressurizing the cylinder causes the cylinder to move axially relative to the shaft. 14. The clasp of claim 13 wherein the clasp is operatively connected with a pulling member, the pulling member being configured to exert an axial pulling force on the clasp. 15. The clasp of claim 10 wherein in the clasp is slidably mounted on a frame and moveable relative to the frame in a direction substantially parallel to the shaft. 16. The clasp of claim 15 wherein the clasp is moveable relative to the frame between a tube engagement position in which the clasp is adjacent to a restraint configured to engage an axial face of an object mounted on a tube, and a tube disengagement position in which the clasp is spaced from the restraint. 17. A clasp apparatus for engaging an end of a tube, the clasp comprising: a housing having a center shaft and a plurality of clamping blocks spaced circumferentially relative to the shaft, the plurality of clamping blocks being moveable between a disengaged position and an engaged position, wherein in the disengaged position the plurality of clamping blocks are spaced radially away from the shaft at a distance sufficient such that a tube is insertable between the shaft and the clamping blocks, and wherein in the engaged position, the plurality of clamping blocks are positioned radially away from the disengaged position toward the shaft, and wherein in the engaged position and when a tube is disposed between the plurality of clamping blocks and the shaft, the plurality of clamping blocks presses the tube against the shaft; and at least one actuator engageable with at least one clamping block of the plurality of clamping blocks to move the at least one clamping block between the disengaged position and the engaged position. 18. The clasp apparatus of claim 17 wherein the clamping blocks are disposed supercircumjacent to the shaft within the housing. 19. The clasp apparatus of claim 17 wherein in the disengaged position the plurality of clamping blocks are spaced radially outwardly from an outer surface of the shaft at a distance sufficient such that a tube is insertable between the shaft and the clamping blocks, and wherein in the engaged position, the plurality of clamping blocks are positioned radially inward of the disengaged position toward the shaft, and when in the engaged position and when a tube is disposed between the plurality of clamping blocks and the shaft, the plurality of clamping blocks presses the tube against the outer surface of the shaft.