Method and apparatus for splicing

1 . An apparatus for producing reels of adhesive label laminate, the apparatus comprising a transfer device, the transfer device comprising: a transfer unit, which comprises a perforating blade, and a transfer surface, an adhesive applicator unit for providing an adhesive layer on the transfer surface, a motor to rotate the transfer unit about a first rotation axis, an actuator unit to move the first rotation axis from a standby position to a cutting position, wherein the transfer device is arranged to form a perforation in the label laminate by cutting with the blade of the rotating transfer unit when the first rotation axis is in the cutting position, wherein the transfer device is arranged to form an adhesive region on the label laminate by pressing the transfer surface of the rotating transfer unit onto the label laminate such that the adhesive layer is transferred to the label laminate, wherein the transfer device is arranged to move the first rotation axis back to the standby position. 2 . The apparatus of claim 1 , wherein the transfer device is arranged to form the perforation and to transfer the adhesive layer during a working time period, which is shorter than a time period of one complete rotation of the transfer unit. 3 . The apparatus of claim 1 , wherein the apparatus is arranged to form the adhesive region such that the distance between the perforation and the adhesive region is in the range of 2 mm to 50 mm. 4 . The apparatus of claim 1 , wherein the perforating blade is arranged to form the perforation such that the perforation comprises one or more inclined perforated portions, which are inclined with respect to the first rotation axis. 5 . The apparatus of claim 1 , comprising a backing roll to operate as a backing for the perforating blade. 6 . The apparatus of claim 1 , wherein the adhesive applicator unit is arranged to form the adhesive layer from a hot melt adhesive. 7 . The apparatus of claim 1 , comprising an eccentric actuating element to push the first rotation axis away from the cutting position after forming the perforation, wherein the eccentric actuating element is coupled to rotate together with the transfer unit. 8 . The apparatus of claim 1 , comprising a winder device to form a first reel by winding the label laminate on a first reel core, and subsequently to form a second reel by winding the label laminate on a second reel core. 9 . The apparatus of claim 8 , wherein the winder device is arranged to press the label laminate against the second reel core so as to form an adhesive joint between the adhesive layer of the label laminate and the second reel core. 10 . The apparatus of claim 9 , wherein the adhesive joint is arranged to break the perforation so that a leading edge of the label laminate starts to rotate together with the second core, wherein a trailing edge of the label laminate is pulled to the first reel. 11 . A method for producing reels of adhesive label laminate by using a transfer unit, which comprises a perforating blade, and a transfer surface, the method comprising: providing an adhesive layer on the transfer surface of the transfer unit, rotating the transfer unit about a first rotation axis, moving the first rotation axis from a standby position to a cutting position, forming a perforation in the label laminate by cutting with the blade of the rotating transfer unit when the first rotation axis is in the cutting position, forming an adhesive region on the label laminate by pressing the transfer surface of the rotating transfer unit onto the label laminate such that the adhesive layer is transferred to the label laminate, and moving the first rotation axis back to the standby position. 12 . The method of claim 11 , comprising: forming a first reel by winding the label laminate on a first reel core, forming an adhesive joint by bringing the adhesive region into contact with a rotating second reel core when the label laminate is wound on the first reel, breaking the perforation, and forming a second reel by winding the label laminate on the second reel core, wherein the second reel comprises the adhesive joint and a leading edge formed by breaking the perforation. 13 . The method of claim 11 , comprising winding the laminate to form a reel, measuring a diameter of the reel, and starting forming a splicing region when the measured diameter becomes greater than or equal to a predetermined limit value. 14 . A reel, comprising: a reel core, and a label laminate wound on the reel core, wherein a broken splicing region of the label laminate is joined to the reel core by an adhesive joint, wherein the adhesive joint is formed by an adhesive region between the reel core and a major surface of the label laminate, wherein the broken splicing region comprises the adhesive region, and wherein the broken splicing region comprises an edge formed by breaking a perforation of the label laminate. 15 . The reel of claim 14 , wherein the circumferential length of the broken splicing region is smaller than 80% of the circumference of the reel core. 16 . The reel of claim 14 , wherein an inclination angle of the edge is in the range of 2° to 20° with respect to the axis of the reel core. 17 . The reel of claim 14 , wherein the diameter of the reel core is in the range of 50 mm to 300 mm, and the diameter of the reel is in the range of 2 to 10 times the diameter of the reel core. 18 . The reel of claim 14 , wherein the adhesive joint comprises hot melt adhesive.