Method for removal of material residues from rolls with a material carrying core

Abstract

The present invention concerns a method for removal of material residues, particularly tissue or similar porous, non-self-supporting materials, from a material-carrying core, which often has relatively large dimensions, e.g. a diameter of approx. 300 mm and a length of approx. 2540 mm, and thereby allow re-use of the core in the same way as new and unused cores a number of times for winding non-self-supporting or porous material, particularly tissue, wherein a cut section is made in the envelope surface of the roll having the material-carrying core from one end or end portion of the roll to the other end or end portion of the roll by means of a driven rotary knife, which is connected to a motor for rotation of the same.

Claims

1. A method for removal of material residues, from a roll having a material-carrying core having dimensions including a diameter of approximately 300 mm and a length of approximately 2540 mm to thereby allow re-use of the core in a same way as new and unused cores a number of times for winding the material residues, the method comprising: providing: a beam; a leg connected to one end of the beam; a vertical arm that extends from the beam towards the roll, the vertical arm being moveable to and from the leg; and a driven chuck disposed at an end of the vertical arm that fits into the core for rotating the roll; making a cut section in an envelope surface of the roll having the material-carrying core from one end or end portion of the roll to an other end or end portion of the roll by the driven rotary knife; performing a first rotation of the roll, via the driven chuck, with the cut section in one direction so that the material residues intersected by the cut section release from the material residues remaining on the roll into a position hanging vertically downward; after the material residues release, performing a second rotation of the roll, via the driven chuck, in an opposite direction to the one direction so that a rest of the material residues intersected by the cut section releases from the material remaining on the roll; and if required, repeating the first rotation and the second rotation until a desired amount of the material residues has been removed, wherein the driven rotary knife is connected to a motor for reciprocating of the knife, and wherein the roll with the cut section is rotated at least 90 in the one direction, until the cut section is tangent to or ends up on the underside of the roll, and, after the material residues release, the roll with the cut section is rotated at least 180 or more in the opposite direction for releasing the rest of the material residues intersected by the cut section, so that the same falls down under the roll having the material-carrying core.

2. A method according to claim 1, wherein the roll with the cut section is rotated more than 90 in the one direction.

3. A method according to claim 2, wherein the roll with the cut section is rotated 135 in the one direction.

4. A method according to claim 1, wherein a new cut section is made using the driven rotary knife with the roll in said 180 position after the material residues intersected by the cut section has released and fallen down under the roll having the material-carrying core.

5. A method according to claim 1, wherein the driven rotary knife is rotated down into the material residues on the roll under movement of the knife from one end or end portion to the other end or end portion, and the rotation of the knife is reversed under movement of the same from the other end or end portion back to said one end or end portion.

6. The method according to claim 1, wherein the material residues comprise one of: a tissue material; and a porous, non-self-supporting material.

7. The method according to claim 1, wherein, when the driven rotary knife reaches a position outside an end portion of the roll, the roll is rotated in the opposite direction.

8. A method for removal of material residues, from a roll having a material-carrying core having dimensions including a diameter of approximately 300 mm and a length of approximately 2540 mm to thereby allow re-use of the core in a same way as new and unused cores a number of times for winding the material residues, the method comprising: providing: a beam; a leg connected to one end of the beam; a vertical arm that extends from the beam towards the roll, the vertical arm being moveable to and from the leg; and a driven chuck disposed at an end of the vertical arm that fits into the core for rotating the roll; making a cut section in an envelope surface of the roll having the material-carrying core from one end or end portion of the roll to an other end or end portion of the roll by the driven rotary knife; performing a first rotation of the roll, via the driven chuck, with the cut section in one direction, so that the material residues intersected by the cut section release from the material residues remaining on the roll into a position hanging vertically downward; and after the material residues release, performing a second rotation of the roll, via the driven chuck, in an opposite direction to the one direction so that a rest of the material residues intersected by the cut section releases from the material remaining on the roll, wherein the roll with the cut section is rotated at least 90 in the one direction, until the cut section is tangent to or ends up on the underside of the roll, and, after the material residues release, the roll with the cut section is rotated at least 180 or more in the opposite direction for releasing the rest of the material residues intersected by the cut section, so that the same falls down under the roll having the material-carrying core.

9. The method according to claim 8, further comprising repeating the first rotation and the second rotation until a desired amount of the material residues has been removed.

10. The method according to claim 8, wherein the driven rotary knife is connected to a motor for reciprocating of the knife.

Description

(1) In the following, the present invention will be described in more detail, reference being made to the appended drawings.

(2) FIG. 1 shows a view from the front of a device for carrying out the method according to the present invention.

(3) FIG. 2 shows a similar view as FIG. 1 with parts in another position.

(4) FIG. 3 shows a similar view as FIGS. 1 and 2 with parts in an additional position.

(5) FIG. 4 shows a view from above of a part of the device in FIGS. 1-3 with a part of the roll composed of core and material sectioned along the centre line.

(6) FIGS. 5A-5D show a number of side views of a roll having material residues on a core for the illustration of different stages of an embodiment of a method according to the present invention.

(7) In the following, an embodiment of a method according to the present invention will be described as well as a device for executing the same. The device shown in FIGS. 1-3 is in the form of a portal having legs 1 and 2 as well as a beam 3 resting on the legs. The legs 1 and 2 rest on each side of a working surface, e.g. platform or a table (not shown). The legs 1 and 2 may be fixed but also movable along the working surface. A tool-carrying beam 4 extends between the legs 1 and 2 under the beam 3. The tool-carrying beam 4 may be fixed or movable up and down along the legs 1 and 2. The beam 4 supports a driven rotary knife 5. The driven rotary knife 5 is movable to and fro on the beam 4 between the legs 1 and 2 by means of a driving arrangement 6. From the beam 3, two pairs of vertical arms 7 and 8 extend, one of the pairs of vertical arms 7 being arranged near the leg 1 and the other pair of vertical arms 8 being arranged at the leg 2. The arms 7 and 8 are movable to and from the legs 1 by means of a motor 9 and tooth belts 10, or the like.

(8) The part of the device shown in FIG. 4 for carrying out the method according to the present invention is provided with a rotary chuck 11 mounted on the lower end of the arms 7 and 8. The part according to FIG. 4 having the rotary chuck 11 is liftable and lowerable by means of a motor 12 on one arm pair 7 and a motor 13 on the other arm pair 8. The arms of each of the leg pairs 7 and 8 extend parallel to each other and on each side of the beam 4, which supports the driven rotary knife 5. The space between the arm pairs 7 and 8 and the end or end portion of the roll 14 allows handling of rolls 14, on which the material primarily in the outer turns has slid beyond the end or end portion of the roll 14. This can be made in gripper handling of the roll in vertical position. The gripper handling of the roll may cause the central part of the roll 14 to be displaced downward because of small friction between the material turns, so that the material projects up over the end portion or end of the roll 14 and results in a funnel-like shape. The rotary chuck 11 may possibly be longer or be displaceable into and out of the core 15.

(9) A roll 14 consists of a core 15 and a material of paper or the like, e.g. tissue, which also is denominated non-self-supporting material. As mentioned by way of introduction, the method according to the present invention is utilized to remove material residues from the core 15 for re-use of the core 15. The roll 14 is lifted by means of the arms 7 and 8 to the working position shown in FIGS. 1-3 after the rotary chucks 11 have been moved into the ends of the core 15 by moving the arms 7 and 8 toward the ends of the roll 14, which is placed on the working surface or platform, and/or only the rotary chuck 11 and its carrying parts. The working position can be reached by moving the roll 14 to the driven rotary knife 5 and/or the beam 4, so that the roll 14 and the knife 5 meet in the working position. The diameter of the rotary chuck 11 is smaller than the diameter of the core 15 so that the risk of damage to the core end is minimized. In FIGS. 1-3, it is seen that the cut section in the material of the roll 14 is relatively deep, e.g. several millimeters and even several centimeters. A several centimeters deep cut section is possible thanks to the present invention, which in an effective way facilitates the removal of the cut material from the roll 14. The rotary chuck 1 is rotatable by means of a motor M via a suitable driving arrangement.

(10) The knife 5 shown in FIGS. 1-3 is suitably rotated by a servomotor via a planetary bevel gear. On each side of the knife 5 driven into rotation, a plough and a blow-off nozzle may be arranged.

(11) The method according to the present invention is illustrated in FIGS. 5A-5D. The roll 14 is suspended in the rotary chuck 11 and the arrow P is directed toward a cut section S, which has been provided by means of the driven rotary knife 5 in FIGS. 1-3. When the driven rotary knife 5 has reached a position outside the end portion of the roll 14, the roll 14 is rotated counter-clockwise in the direction of the arrow PP to the position shown in FIG. 5B 90-135 from the position in FIG. 5A, or until the material intersected by the cut section S releases from the material remaining on the roll and is hanging principally vertically downward. From this position, with the cut section S approximately at 7, 8 or 9 o'clock, the roll 14 is rotated clockwise according to the arrow PP in FIG. 5C until the cut section S is right in front of the arrow P or approaches said position, or until the material intersected by the cut section S releases and falls down under the roll 14, where it is easy to take care of and remove for suitable further handling. With the roll 14 in this position, which is shown in FIG. 5D, a new cut section S is made approximately at 12 o'clock, whereupon the roll 14 is rotated counter-clockwise until the new cut section S is in the position shown in FIG. 5B, after which the procedure is repeated, until the desired amount of material has been removed from the roll 14. The core 15 may now be restored as desired for re-use in the process.

(12) Numerous modifications of the embodiments according to the present invention described above are naturally possible within the scope of the general idea of the invention defined in the subsequent claims.