METHOD TO REMOVE AN ADHESIVE LABEL FROM A BOBBIN AND APPARATUS TO DETACH AN ADHESIVE LABEL FROM AN END PORTION OF A COILED SHEET IN A BOBBIN

Abstract

The present invention relates to a method to remove an adhesive label (22) from a bobbin (28), the bobbin including an end portion (24) and an outer surface (25), the method including: providing a bobbin of a coiled sheet closed by an adhesive label positioned on top of the end portion of the coiled sheet (26) to attach the same to the outer surface of the bobbin; locating the adhesive label; applying a sucking force to the location of the adhesive label so as to detach the adhesive label and the end portion of the coiled sheet from the bobbin; and cutting a part of the detached end portion including the adhesive label from the bobbin. The present invention also relates to an apparatus to detach an adhesive label from an end portion of a coiled sheet in a bobbin, the adhesive label being located between the end portion and an outer surface of the bobbin.

Claims

1. A method to remove an adhesive label from a bobbin, the bobbin including an end portion and an outer surface, the method including: providing a bobbin of a coiled sheet closed by an adhesive label positioned on top of the end portion of the coiled sheet to attach the same to the outer surface of the bobbin; locating the adhesive label; applying a sucking force to the location of the adhesive label so as to detach the adhesive label and the end portion of the coiled sheet from the bobbin; and cutting a part of the detached end portion including the adhesive label from the bobbin.

2. The method according to claim 1, including: rotating the bobbin in an unwinding direction; and locating the adhesive label while rotating.

3. The method of claim 1, wherein locating the adhesive label includes: partially lifting the adhesive label from the outer surface of the bobbin.

4. The method according to claim 3, including: activating a sensor for adhesive label location.

5. The method according to claim 2, including: reversing the rotation of the bobbin after locating the adhesive label.

6. The method according to claim 1, wherein applying a sucking force includes: sucking the adhesive label and the end portion of the coiled sheet attached thereto so that they lie against a sucking surface; wherein cutting a part of the detached end portion includes: positioning a groove formed on said sucking surface at an end of the adhesive label attached to the end portion of the coiled sheet; and sliding a blade into the groove so as to cut the part of the end portion of the coiled sheet including the adhesive label from the bobbin.

7. The method according to claim 1, including: touching the outer surface of the bobbin with a flat element; lifting the adhesive label by the flat element while rotating the bobbin.

8. The method according to claim 1, wherein applying a sucking force includes: putting a sucking surface in contact with the outer surface of the bobbin; and sucking the adhesive label and the end portion of the coiled sheet by the sucking surface.

9. (canceled)

10. An apparatus to detach an adhesive label from an end portion of a coiled sheet in a bobbin, the adhesive label being located between the end portion and an outer surface of the bobbin, the apparatus including: a rotatable hub adapted to be inserted into a central hole of the bobbin; a position sensor adapted to sense the presence of the adhesive label on the outer surface of the bobbin; a suction device adapted to suck the adhesive label and the end portion of the coiled sheet to detach the same from the bobbin; and a blade adapted to cut the end portion of the coiled sheet containing the adhesive label when the suction device is sucking the adhesive label and the end portion of the coiled sheet to detach the same from the bobbin.

11. Apparatus according to claim 10, wherein the suction device is movable towards and away from the outer surface of the bobbin.

12. Apparatus according to claim 10, wherein the suction device has a first and a second end, and the position sensor is positioned at the first end of the suction device and it is rotatable around a pivot point at the first end.

13. Apparatus according to claim 10, including a diameter sensor adapted to determine a diameter of the bobbin.

14. Apparatus according to claim 10, wherein the suction device includes a sucking surface having a groove and wherein the blade is adapted to translate within said groove.

15. Apparatus according to claim 10, including a flat element movable towards and away from the outer surface of the bobbin, the flat element being adapted to lift a portion of the adhesive label while the bobbin is rotating.

16. Apparatus according to claim 15, including a linear actuator adapted to move the flat element towards and away the bobbin.

Description

[0047] Further advantages of the invention will become apparent from the detailed description thereof with no-limiting reference to the appended drawings:

[0048] FIG. 1 is a schematic lateral view of an apparatus according to the invention for detaching an adhesive label from an end portion of a coiled sheet in a bobbin (shown), in a first operative condition;

[0049] FIG. 2 is a schematic lateral view of the apparatus of FIG. 1, in a second operative condition;

[0050] FIG. 3 is a schematic lateral view of the apparatus of FIG. 1, in the first operative condition;

[0051] FIG. 4 is a schematic lateral view of the apparatus of FIG. 1, in a third operative condition;

[0052] FIG. 5 is a schematic perspective view of the apparatus of FIG. 1;

[0053] FIG. 6 is a schematic perspective view of a portion (rotatable hub) of the apparatus of FIG. 1 and a bobbin;

[0054] FIG. 7 is a schematic perspective view of a further portion (position sensor) of the apparatus of FIG. 1;

[0055] FIG. 8 is a schematic perspective view of the further portion of FIG. 7;

[0056] FIG. 9 is a schematic perspective view of the apparatus of FIG. 1, taken from below;

[0057] FIG. 10 is a schematic lateral section of the apparatus of FIG. 1, in a fourth operative condition;

[0058] FIG. 11 is a schematic perspective view of the apparatus of FIG. 1, taken from a front side; and

[0059] FIG. 12 is a schematic perspective view of the apparatus of FIG. 1, taken from above.

[0060] With reference to the figures, an apparatus to detach an adhesive label 22 (visible in FIGS. 6 and 10) according to the present invention is represented and indicated with reference number 20.

[0061] The adhesive label 22 is detached from an end portion 24 of a coiled sheet 26 in a bobbin 28 (FIG. 6), already provided and manufactured in any known way. The bobbin 28 is formed by the coiled sheet 26 of material and defines an inner central hole 29, an outer surface 25 and the end portion 24.

[0062] The bobbin 28 shown in the figures has a round, for example cylindrical, shape. However, the invention works with any bobbins even when the bobbins do not have a round shape. The adhesive label 22 is located between the end portion 24 and the outer surface 25 of the bobbin 28.

[0063] With initial reference to FIGS. 1 and 2, the apparatus 20 comprises a rotatable hub 30 where the bobbin 28 is placed. The rotatable hub 30 is adapted to be inserted into the central hole 29 of the bobbin 28.

[0064] The apparatus 20 also includes a position sensor 32, a suction device 34 and a blade 36.

[0065] The position sensor 32 is adapted to sense the presence of the adhesive label 22 on the outer surface 25 of the bobbin 28.

[0066] The suction device 34 is adapted to suck the adhesive label 22 and the end portion 24 of the coiled sheet 26 to detach the same from the bobbin 28. The suction device 34 is movable towards and away from the outer surface 25 of the bobbin 28. The suction device 34 includes a sucking surface 35 having a groove 37. The sucking surface 35 includes a plurality of holes better described below.

[0067] The blade 36 is adapted to cut the end portion 24 of the coiled sheet 26 containing the adhesive label 22 when the suction device 34 is sucking the adhesive label 22 and the end portion 24 of the coiled sheet 26 to detach the same from the bobbin 28. The blade 36 is adapted to translate within the groove 37.

[0068] The position sensor 32 is positioned at one end 35 of the suction device 34 and it is rotatable around a pivot point 4 at the one end 35.

[0069] The apparatus further includes a flat element 8 (or substantially flat element), which is movable towards and away from the outer surface 25 of the bobbin 28. The flat element 8 is adapted to lift a portion of the adhesive label 22 while the bobbin 28 is rotating, so as to actuate the position sensor 32. A linear actuator 3 is adapted to move the flat element 8 towards and away the bobbin 28. The linear actuator is connected to the suction device and the flat element is located in proximity of the position sensor 32 at the same end of the suction device.

[0070] The apparatus 20 further includes a diameter sensor (not shown in the figures) which is adapted to determine the diameter of the bobbin 28.

[0071] In a preferred embodiment, the apparatus 20 has the overall architecture illustrated in FIGS. 1-4.

[0072] The apparatus includes the suction device 34. The suction device 34 includes an elongated conveying belt 40, forming an oval loop, with air suction effect to grab the adhesive label 22 as well as the end portion 24 of the coiled sheet 26 of the bobbin 28 attached to it. The conveyor belt includes the sucking surface 35 as a portion of its loop-shaped outer surface. The conveyor belt 40 is movable, that is, the sucking surface 35 may face the outer surface of the bobbin or can be opposite to it.

[0073] The conveying belt 40in order to provide for the suction effect - has an air system and vacuum through holes 52 through the belt 40 allowing the outside air to be sucked by the air system, so that it can create a suction effect to an outside material. Preferably, the holes are formed at the sucking surface 35. The conveying belt 40 is specially designed using specific materials for adequate adhesion and enabling effective vacuum through holes 52.

[0074] The conveying belt 40 includes also a linear groove 37 formed on the sucking surface 35. The vacuum through holes 52 of the conveying belt 40 are before and after the groove 37.

[0075] As shown in FIG. 12, the suction device 34 includes also the blade 36, which is for instance a motorized rolling knife. The blade is positioned and mounted in relationship with the conveyor belt 40 in such a way that can slide within the groove 37. This rolling knife 36 is rolling on the sucking surface 35 of the conveyor belt 40 and is positioned so that the linear groove 37 can be aligned with the linear trajectory of the rolling knife 36. Further, when the groove 37 of the belt 40 is aligned with the trajectory of the knife 36, the knife 36 can run into the groove 37 and cut a material that is stuck and hold on the air-suction conveying belt 40, as detailed below.

[0076] The suction device 34 further includes a label-reader device (not depicted in the drawings) to read the information contained in the adhesive label. Such label reader device could be a code bar reader.

[0077] The suction device 34, and more specifically the elongated conveyor belt 40, includes a first and a second distal end 41 and 42. The apparatus 20 further includes a label catching part 1 attached to the first end 41 of the suction device 34. The attachment of the label catching part 1 to the distal end 31 is such that the label catching part 1 can rotate around a pivot point 4 at the first distal end 41 of the suction device 34. The label catching part 1 includes the flat element 8, whichduring a phase of the method of the inventionis so positioned that runs on the outer surface 25 of the bobbin 28 and partially lifts the adhesive label 22, and the position sensor 32 to detect when the adhesive label 22 has been partially lifted. More than one position sensor 32 can be provided. The position sensor could be a proximity sensor. In a preferred embodiment, the position sensor 32 includes an optical sensor. For instance, the optical sensor could include a laser emitting diode coupled with a photosensitive sensor. The label catching part 1 is partially facing the outer surface 25 of the bobbin 28 when in use. The position of the label catching part 1 with respect to the suction device 34, and in particular conveyor belt 40, can be varied, by means of the linear actuator 3, which is connected with one end to the label catching part 1 and with one opposite end to the conveyor belt 40. Changing the length of the linear actuator 3 therefore forces the label catching part 1 to vary an angle formed with the conveyor belt 40. The position of the label catching part 1 in respect of the bobbin 28 can be adjusted adjusting the length of the linear actuator 3, so that the flat element 8 mounted on the label catching part can be positioned tangentially to the outer surface 25 of the bobbin 28.

[0078] As shown in more details in FIGS. 7-10, the label catching part 1 has a hand portion 48 and the position sensor 32. As shown in FIGS. 7 and 8, the hand part 48 includes a side structure 7 upon which the linear actuator 3 is attached, and the substantially flat element 8 which preferably has a T shape. The substantially flat element 8 is coplanar with the sucking surface 35 of the conveyor belt 40 when the linear actuator 3 is at its highest length. The flat element 8 further includes a tip 50 which is adapted to enter into contact with the adhesive label and detach a portion of it, as detailed below. The position sensor 32 is preferably positioned so that the line of sight 10 of the optical sensor 32 is in the plane of the substantially flat element 8 and points toward the tip 50 of the substantially flat element 8.

[0079] The suction device 34 may change its position, that is, the suction device is not stationary. In order to change position, the apparatus 20 includes a motorized axis 5. The motorized axis 5 is located at the second distal end 42 of the suction device 34 to change its angular position. The conveyor belt 40 therefore can moves towards or away from the bobbin. In this way, the conveyor belt 40 can be brought into contact with the bobbin, so that it can be tangential with one of its surfaces to the outer surface 25 of the bobbin 28. The conveyor belt preferably enters into contact with the bobbin by means of the sucking surface. The sucking surface can be then moved from a position facing the bobbin to a different position.

[0080] Further, the apparatus 20 includes a control system 100. The control system (schematically depicted in FIGS. 1-3) receives the information from the position sensor 32 as well as information to the rotatable hub 30 and the diameter sensor (not shown); it commands accordingly the suction device 34 and the motorized axis 5, the label catching part 1, and it sends information and commands to the hub 30 so that it adjusts the rotation direction and speed of the bobbin 28.

[0081] The control system 100 preferably commands the apparatus 20 in the following steps according to the method of the invention, so as to remove the adhesive label 22 put on the bobbin 28.

[0082] The bobbin 28 is placed under the suction device 40 and it rotates around its hub 30. However, different configuration of the location of the suction device and hub are possible (for example the suction device can be positioned laterally with respect to the hub). The bobbin 28 is rotated in the unwinding direction. It is pointed out that, for unwinding correctly the bobbin 28, the bobbin 28 is preferably put in the apparatus 20 with the coiled sheet 26 turning in the same direction than the rotation of the bobbin 28 during manufacturing. As shown in FIG. 6, the rotation direction herewith called unwinding direction is such that a general reference item 46, which is put at a fixed position on the outer surface 25 of the bobbin 28, will first encounter the adhesive label 22, then the end portion 24. That is, the direction of rotation called unwinding direction is such that a general item located on the outer surface of the bobbin first touches the part of the label 22 which is attached to the outer surface of the bobbin, and then the part of the label which is attached to the end portion of the sheet.

[0083] Using the motorized axis 5 and linear actuator 3, the label catching part 1 is initially positioned so that it is in contact with one of its elements with the outer surface 25 of the bobbin 28 and that the conveying belt 40 is not touching the bobbin 28.

[0084] In order to obtain such positioning, the movements are as follows.

[0085] The motorized axis 5 rotates the conveyor belt 40 either up or down, so that the conveyor belt 40 can vary its distance from the outer surface 25 of the bobbin 28. The needed angle to rotate the conveyor belt 40 up to a correct distance with the bobbin 28 is determined by the control system 100 from the data received from the diameter sensor. Other known proximity sensors or contact sensors could be used to adjust such position.

[0086] Further, the label catching part 1 can rotate freely around the axis 4 fixed to the treatment part 2, so that by reducing or increasing the length of the linear actuator 3, the label catching part 1 rotates around the axis 4.

[0087] FIGS. 3 and 4 illustrate the apparatus 20 with two positions of the label catching part 1 according to different lengths of the linear actuator 3.

[0088] In FIG. 3 the linear actuator 3 is at its longest length and a bottom surface 42 of the label catching part 1 is coplanar to sucking surface 35 of the conveyor belt 40. In FIG. 4 the linear actuator 3 is shorter than in FIG. 2, so that the label catching part 1 rotates counter-clockwise around the axis 4. The needed angle to rotate the label catching part 1 in order to obtain a contact of the label catching part 1 with the bobbin 28 is determined from the data from the diameter sensor, data which are received by the control system 100, as well as from the current position of the conveyor belt 40 (in particular the rotation angle of the motorized axis 5). Other known proximity sensors or contact sensors could be used to adjust such position. Using these two elements, the motorized axis 5 and linear actuator 3, the sucking surface 35 of the conveyor belt 40 can be positioned at the desired distance from the outer surface of the bobbin and the bottom surface 42 of the label catching part 1 can be tangentially touching the outer surface 25 of the bobbin 28.

[0089] More in detail, the control system 100 of the apparatus 20 rotates the label catching part 1, so that the tip 50 of the substantially flat element 8 enters into tangential contact with the outer surface 25 of the bobbin 28. The final positioning is so that the tip 50 of the substantially flat element 8 is then facing the direction opposite to the unwinding direction of the bobbin 28.

[0090] Then, the control system 100 commands the bobbin 28 into rotation in the unwinding direction (that is, the direction used during manufacturing), so that the tip 50 of the substantially flat element 8 lightly scratches along the outer surface 25 of the bobbin 28. When the tip 50 of the substantially flat element 8 encounters the adhesive label 22, it bumps against an edge of the adhesive label 22 attached to the outer surface of the bobbin, due to the direction of rotation. When the bobbin 28 carries on its rotation, the adhesive label 22 is pushed and progressively unstuck at least partially by the tip 50 of the substantially flat element 8. By doing so, the adhesive label 22 forms a flap which in turn is moved into the line of sight 10 (see FIGS. 7 and 8) of the position sensor 32 and triggers it (in the preferred embodiment, the light of the laser will be reflected on the adhesive label 22 and will be captured by the photosensitive sensor - not shown in the drawings).

[0091] In case the edge of the adhesive label 22 is too thin to be partially detached by the tip 50, the operator, when places the bobbin 28 on the hub 30, could unstick a little bit the edge of the adhesive label 22 (forming the flap manually) to help the apparatus 20 to remove the label completely and activate the position sensor 32. In this way, the position of the adhesive label 22 is detected.

[0092] In FIG. 10, the substantially flat element 8 has been rotated so that it is in contact with the outer surface 25 of the bobbin 28 which rotates in the unwinding direction. The adhesive label 22 has been partially pushed by the tip 50 of the substantially flat element 8 and triggers the position sensor 32. At this step, the sucking surface 35 of conveyor belt 40 is still not in contact with the bobbin 28.

[0093] The control system 100, when receiving the signal of the position sensor 32 that the label position has been detected, sends a proper command to stop the rotation of the bobbin 28 and subsequently to rotate the bobbin 28 in the opposite direction. The rotation in the opposite direction, that is, the rotation in a direction opposite to the unwinding direction, is performed for an angle such that the adhesive label 22the position of which is now knownis moved at a specific position under the conveyor belt 40, facing sucking surface 35. The exact rotational angle the bobbin 28 is to be moved is determined by the control system 100 which has information relative to the diameter of the bobbin 28 as well as to the distance between the tip 50 of the substantially flat element 8 and the targeted area of the sucking surface 35 of the conveyor belt 40.

[0094] The conveyor belt 40 is then moved so as to position the groove 37 before the position of the adhesive label 22. In the following, before means that in the unwinding direction, the label 22 is positioned downstream the groove 37. Preferably, in order to position the groove correctly, the approximate size of the adhesive label 22 is known.

[0095] The control system 100 also sends signals to move and adjust the suction device 34 as detailed below.

[0096] FIG. 2 illustrates the suction device 34 being put in contact with the bobbin 28 by the motorized axis 5.

[0097] In this position, using the motorized axis 5 of the suction device 34 so as to make the conveying belt 40 touch the bobbin 28, the linear groove 37 of the conveyor belt 40 is positioned just before the adhesive label 22.

[0098] The air suction force of the belt 40 is thus activated so that the adhesive label 22 and the end portion 24 of the bobbin 28 are lifted from the outer surface of the bobbin and get in abutment to the sucking surface 35 of the conveyor belt 40. The control system 100 may use measurements of air pressure variations to determine whether a material, such as the sheet of the bobbin, has been stuck by the air system to the conveyor belt 40. In this way it is possible to determine whether the application of the sucking force has properly removed the end portion of the bobbin from the outer surface of the bobbin.

[0099] Then, preferably, the conveyor belt 40, to which now the adhesive label 22 is in abutment, moves so that the adhesive label attached to the end portion of the sheet is transported to a top surface 54 of the conveyor belt 40. In other words sucking surface 35 initially facing bobbin 28, is shifted and becomes a top surface of the conveyor belt 40. This movement is done in coordination with a rotation of the bobbin 28 that releases the amount of coiled sheet 26 needed for the adhesive label 22 to go to the top surface 54.

[0100] In this position, the label reader device reads the adhesive label 22. In case the information read in the adhesive label matches the desired or expected information for the bobbin 28, then the removal of the adhesive label 22 proceeds as described below. Otherwise, the method of the invention is interrupted and the bobbin is changed. In this latter case, for example, the belt 40 goes in reverse movement as well as the bobbin 28, so that the adhesive label 22 goes back onto the bobbin 28, and a warning or alarm signal is triggered so that the bobbin 28 is replaced.

[0101] In a positive bobbin identification, when the information red in the label are the expected ones, the conveyor belt 40 is again moved so that the linear groove 37 is aligned with the rolling knife trajectory. The rolling knife 36 then cuts the coiled sheet 26 before the adhesive label 22. The adhesive label 22 is thus removed together with a part of the end portion of the sheet. A new end portion of the bobbin is thus formed, still indicated with 24 in the following.

[0102] The belt 40 is then again moved to bring back the end portion 24 on the bobbin surface. This is done in coordination with the reverse rotation of the bobbin 28. The exact amount of movement to be done by the belt 40 as well as by the bobbin 28 is known. The length of the movement is equal to the distance between the groove 37 and the contact point between the conveyor belt 40 and the outer surface of the bobbin 28.

[0103] When the new end portion 24 of the bobbin is again positioned above the outer surface of the bobbin, then the air suction performed by the sucking surface 35 of the conveyor belt is stopped to release the new end portion 24 of the bobbin 28. The unwinding of the bobbin can be thus start.