Disposable product assembly systems and methods

What is claimed is: 1. A system comprising: an unwinding unit having a first rotatable shaft to support an expiring material roll and a second rotatable shaft to support a new material roll; a cutting device configured to sever a running web of the expiring material roll, thereby creating a leading portion of the running web and a trailing portion of the running web; a web splicing unit operable with the unwinding unit to selectively splice the leading portion of the running web with a waiting web of the new material roll; and a vacuum system positioned proximate the running web and configured to pull a free end of the trailing portion of the running web away from the web splicing unit after the running web is severed. 2. The system of claim 1 , wherein the vacuum system is coupled to a source of negative pressure that is selectively activatable to provide a vacuum that suctions in the remainder of the trailing portion of the running web left on the expiring material roll. 3. The system of claim 2 , wherein the source of negative pressure is initiated upon, or just prior to, a severing of the running web by the cutting device. 4. The system of claim 1 , wherein the vacuum system is positioned adjacent a guide roller, along a path of travel of the running web between the unwinding unit and the web splicing unit. 5. The system of claim 1 , wherein the unwinding unit comprises a turret unwind including: a turret arm rotatable about a center axis; the first rotatable shaft; and the second rotatable shaft; and wherein each of the first rotatable shaft and the second rotatable shaft comprises a motor configured to selectively turn the respective rotatable shaft. 6. The system of claim 5 , further comprising a first vision system configured to monitor a remaining amount of the running web on the expiring material roll; and wherein, upon the first vision system identifying that the remaining amount of the running web on the expiring material roll has reached a pre-determined amount, the motor of the second rotatable shaft rotates the new material roll at a velocity equal to a velocity of the expiring material roll. 7. The system of claim 5 , further comprising a second vision system configured to identify a location of a splice tape on the waiting web of the new material roll; and wherein, upon the second vision system identifying that the splice tape on the waiting web is adjacent a position of the running web, a web deflection device of the web splicing unit bumps the running web onto the splice tape, so as to bond the running web with the waiting web. 8. The system of claim 5 , wherein, upon suctioning the remainder of the trailing portion of the running web left on the expiring material roll into the vacuum system, the turret unwind rotates the turret arm about a central axis to rotate the first rotatable shaft from a running position to a waiting position and to rotate the second rotatable shaft from the waiting position to the running position, such that the new material roll is moved to the running position and an empty core of the expiring material roll is moved to the waiting position. 9. The system of claim 1 , wherein each of the first rotatable shaft and the second rotatable shaft comprises a kicker ring movable between an extended position and a retracted position, the kicker ring configured to bump off an empty core of a respective expiring material roll or the new material roll as the kicker ring moves from the retracted position to the extended position. 10. The system of claim 1 , wherein the cutting device comprises a hot wire. 11. The system of claim 10 , wherein the web splicing unit comprises an arm structure movable between a standby position and a splicing position; and wherein a web deflection device and the hot wire are mounted on the arm structure. 12. The system of claim 10 , wherein the web splicing unit comprises a sliding bump/sever mechanism movable linearly relative to the running web and the waiting web; and wherein a web deflection device and the hot wire are mounted on the sliding bump/sever mechanism. 13. A method for splicing a running web of an expiring material roll with a waiting web of a new material roll, the method comprising: providing a running web from an expiring material roll mounted on a first rotatable shaft of a web splicing unit; providing a waiting web of a new material roll mounted on a second rotatable shaft of the web splicing unit; severing the running web via a cutting device of the web splicing unit, thereby creating a leading portion of the running web and a trailing portion of the running web; splicing the leading portion of the running web with the waiting web; and pulling a free end of the trailing portion of the running web away from the web splicing unit via a vacuum system positioned proximate the running web. 14. The method of claim 13 , wherein pulling the trailing portion of the running web comprises initiating a vacuum in the vacuum system upon, or just prior to, severing of the running web. 15. The method of claim 13 , wherein pulling the trailing portion of the running web comprises: suctioning a free end of the trailing portion into the vacuum system after severing of the running web; and collecting a remainder of the trailing portion of the running web left on the expiring material roll. 16. The method of claim 15 , wherein after severing of the running web, the first rotatable shaft continues to rotate to run the remainder of the trailing portion of the running web off of the expiring material roll. 17. The method of claim 15 , wherein the first rotatable shaft and the second rotatable shaft are positioned at opposing ends of a turret arm that is rotatable about a center axis; and wherein, upon collecting the remainder of the trailing portion of the running web left on the expiring material roll, the method further comprises: rotating a turret arm about a central axis to rotate the first rotatable shaft from a running position to a waiting position and to rotate the second rotatable shaft from the waiting position to the running position, such that the new material roll is moved to the running position and the expiring material roll is moved to the waiting position; and moving a kicker ring positioned on the first rotatable shaft from a retracted position to an extended position to bump an empty core of the expiring material roll off of the first rotatable shaft. 18. A web unwinding and splicing system comprising: a turret unwind comprising a turret arm rotatable about a center axis, a first rotatable shaft positioned at a first end of the turret arm, the first rotatable shaft configured to selectively unwind a running web of an expiring material roll mounted thereon, and a second rotatable shaft positioned at a second end of the turret arm, the second rotatable shaft configured to selectively unwind a waiting web of a new material roll mounted thereon; a web splicing unit operable with the turret unwind to selectively splice the running web with the waiting web; and a vacuum system positioned proximate the running web, between the turret unwind and the web splicing unit, and configured to: pull a free end of a trailing portion of the running web away from the turret unwind after severing of the running web; and suction in a remainder of the trailing portion of the running web left on the expiring web material roll. 19. The system of claim 18 , wherein the vacuum system is coupled to a source of negative pressure that is selectively act