EP1205414B1

EP1205414B1 - Peripheral rewinding machine and method for producing logs of web material

Info

Publication number: EP1205414B1
Application number: EP01122438A
Authority: EP
Inventors: Mauro Biagioni; Sergio Casella
Original assignee: Paper Converting Machine Co Italia SpA; Paper Converting Machine Co
Current assignee: Paper Converting Machine Co Italia SpA
Priority date: 2000-11-07
Filing date: 2001-09-20
Publication date: 2006-11-08
Anticipated expiration: 2021-09-20
Also published as: JP2002205853A; MXPA01011253A; DE60124366D1; EP1205414A2; CA2357336A1; IT1319321B1; ES2275597T3; ATE344774T1; ITMI20002399A1; EP1205414A3; DE60124366T2

Abstract

A rewinding machine for the production of logs (1) of web materials (W) around a tubular core (2), comprising a first winding roller (A) around which the web material (W) is fed, a second winding roller (B) forming a gap (3) with the first winding roller (A), through which gap the core (2) is inserted, and a third roller (C) mounted movably to allow the diameter (1) of the log to increase and the log to be discharged at the end of winding, in which a blade (15) is provided, carried by a rotating member (14) pivoted on the axis (X) of said first winding roller (A) and protruding from the profile of the roller (A), the blade (15) rotating in the same direction as the first winding roller (A), at different speeds, so as to undergo a deceleration or an acceleration when it is in contact with the web material (W) in the winding space defined by the three rollers (A, B, C), to cause severing of the web material at the end of winding. The invention also concerns a method for producing logs of web material. <IMAGE>

Description

The present invention relates to a peripheral rewinding machine and relative rewinding method for the production of rolls or logs of web material, such as paper and the like, on a tubular support or core.
In a peripheral rewinding machine of the type to which the invention refers, the roll is wound around a tubular core which is set in rotation between a group of three rollers that act on the periphery of the roll being formed, and the speeds of which are kept constant and equal during the winding cycle.
Such a winding machine is disclosed in EP 0 853060, which is regarded as closest prior art.
The group of three motorized rollers forms a space of variable size so that the three rollers are always in contact with the roll being formed, as the roll increases in diameter. Two of the three rollers are placed at a fixed distance, so as to define a gap, through which the core is inserted, and in which the web material travels, whilst the third roller or pressure roller is movable to allow the diameter of the roll to increase and the roll to be expelled at the end of winding.
In these rewinding machines the so-called changeover stage is important, that is insertion of a new core in the winding space, accompanied by a special inserter, and discharge of the completed log, following severing of the web material.
This severing is obtained in various ways according to the prior art, generally requiring sudden changes in the speed of two of the three winding rollers.
According to some known methods, the speed change of said rollers alone, which is naturally of rather a large entity, causes tensioning and tearing of the web of paper following nipping thereof against the roller along which it is fed, nipping which can take place by means of a new core which is inserted in the winding space. After severing of the web of paper, entry of the new core into the winding space and discharge of the formed log take place through differences in speed between the two input rollers and the two output rollers, respectively.
As stated previously, this method of severing the paper requires large variations in speed between the rollers, and in particular strong accelerations of the pressure roller, which cause stress on the structure of the machine. Moreover, such methods make it difficult to sever the web material on a same perforated line.
Other systems use true cutting blades that cut the web at the end of winding and require complicated actuating mechanisms. Moreover, they are not very flexible in that they are tied to carrying out the cut on well-defined lengths of web material.
The object of the invention is to eliminate the drawbacks of the solutions of the prior art, and therefore to provide a rewinding machine and a rewinding method that are reliable, simple to create and ensure precise cutting of the web material.
This object is achieved with the rewinding machine according to the invention having the characteristics of appended independent claim 1 and with the rewinding method having the characteristics of appended independent claim 8.
Preferred embodiments of the invention are apparent from the dependent claims.
Substantially, according to the invention, a blade carried by a rotating member pivoted on the axis of the roller around which the web material is wound and rotating in the same direction as said roller is provided.
The rotating member is actuated when the log is in the completion stage at a speed equal to or substantially similar to that of the web material, to be subsequently slowed or accelerated when it is inside the winding space, to cause tensioning and severing of the material. Normally severing of the material takes place along a line of perforation thereof.
Further characteristics of the invention will be made clearer by the detailed description that follows, referring to a purely exemplary and therefore non-limiting embodiment thereof, illustrated in the appended drawings, in which:

Figure 1 is a schematic side view of the basic elements of the rewinding machine according to the invention;
Figures 1A to 6A are views like that in Figure 1, illustrating successive stages of the winding cycle according to a first embodiment of the invention;
Figures 1B to 6B are views like that in Figure 1, illustrating successive stages of the winding cycle according to a second embodiment of the invention.

With reference to said figures, for now in particular to Figure 1, which schematically illustrates a few more elements of the machine, a brief description of said elements will be made.
In the description that follows reference will be made in the singular to the elements shown in the drawings, it nevertheless being obvious that many of them, such as the arms and levers, are disposed in pairs, at the two sides of the machine.
In the appended figures, W designates a web material, in particular paper, which is unwound from a large-sized roll, not shown, and, travelling in the direction of the arrow F, is suitably tensioned by rollers R1 and R2 and wound around a first winding roller A, to be rewound in rolls or logs 1, of a considerably smaller diameter, around a central core 2.
The first winding roller A is associated with a second winding roller B, which defines therewith a gap 3, through which the cores 2 are inserted.
The width of the gap 3 is constant during operation of the machine and not greater than the diameter of the core so that the latter enters the gap with slight forcing.
One of the two rollers A, B, in the example shown the first winding roller A, is supported by a mobile arm 4, schematised in the figure, pivoted at 5, to adjust the width of the gap 3 to the diameter of the core 2 which is used.
The group of three winding rollers is completed by a third roller C, also called a pressure roller, supported by an arm 6 movable around a fulcrum 7, according to a predetermined law of motion, to allow the roll 1 to be increased in diameter and discharged at the end of winding.
Upstream of the gap 3 a feed slide 8 is provided for the cores 2 and a core inserting device comprising idler rollers 9 carried at the end of an arm 10 pivoted at 11. The arm 10, which in the appended figures has been schematised with a segment of straight line, in fact has, in a per se known manner, a beak shape so as to push the core 2 into the winding space without interfering with the winding roller B.
A rotating member 14 carrying a blade 15 protruding beyond the profile of the roller A is pivoted on the axis X of the first winding roller A. The member 15 has been called and will henceforth be called a blade, in that it causes severing of the web material, as will be explained below, but in fact it may not have, and preferably does not have, knife-type cutting edges.
The rotating member 14 is driven in rotation in the same direction as the roller A, which is anticlockwise in the appended figures, and is motorized separately by means of a belt drive 16 actuated by a motorized wheel 17 and passing round a tensioning roller 18. Obviously other actuating means can be provided for the rotating member 14, such as, for example, chains, gears and the like.
Operation of the machine according to two different embodiments, shown respectively in Figures 1A to 6A and 1B to 6B will now be illustrated, using in both cases the same reference numerals to designate like or similar parts.
In the embodiment according to Figures 1A to 6A the blade 15 has a concave shape toward the outside, substantially a very wide V shape, with the first leg, in the direction of rotation, longer than the other and less inclined with respect to the tangent to the winding roller A.
Figure 1A illustrates the configuration of the machine during winding of the roll 1, with the blade 15 in the resting position, that is with the rotating member 14 at a standstill. In this condition, the three rollers A, B, C all rotate at a constant and substantially the same speed, a speed which corresponds to the feeding speed of the web material.
In Figure 2A the machine is near the changeover, that is about at the end of winding of roll 1, when said roll is about to be discharged and a new core 2 must be inserted.
In this stage the blade 15, together with the rotating member 14 is set in rotation by the motorized wheel 17 and the belt drive 16 in the same direction of rotation as roller A, indicated by the arrow F 1 in the appended figures.
After an initial acceleration stage, the blade 15 reaches the same speed, or a very similar speed, as that of the web material W.
In the stage illustrated in Figure 3A, the blade 15, which travels at substantially the same speed as that of the web material W, has slightly raised the material W from the profile of the winding roller A and is accompanying it into the winding space. Again in this stage, the core inserting arm 10 begins to rise to bring a new core 2 into the gap between the two rollers A, B.
In Figure 4A the log 1 is practically completed and severing of the web material is taking place. In this stage the pressure roller C has begun an acceleration stage, and the bottom roller B is possibly slowed, causing the roll 1 to move toward the outlet from the winding space.
At the same time, or with slight staggering with respect to the acceleration of the pressure roller C, the blade 15 is slowed, so that the web material W has to slide on the contact edge 15' of the blade 15. In this situation, a transverse line of perforation of the web material comes to pass on the point of contact 15' with the blade 15, and tensioning of the web material due to acceleration of the pressure roller C causes such a lengthening as to cause separation of the material at said line of perforation, as shown in Figure 5A.
It can be advantageous for the blade 15 to have a high coefficient of friction, at least at the point of contact 15' with the web material W, so as to facilitate severing of the web material.
However, depending upon the types of material to be wound, the various types of perforations adopted or even the lack of perforations on the web material, the blade 15 can assume different configurations, for example with a continuous edge, serrated, or the like.
Coming back to Figure 5A, it can be noted that a new core 2, on which an adhesive has previously been spread, comes into contact with the already separated web material W, beginning to wind it on itself, thus starting formation of a new roll 1, which is moved into the winding space by a possible difference in speed between the rollers A and B, the latter having previously been decelerated.
This situation is shown in Figure 6A, where the formed log has been expelled and a new log being formed is entering the winding space. The blade 15 is moving into the resting position and the core inserting arm 10 is going back to pick up a new core, to start a new winding cycle, and the three rollers A, B, C begin to rotate again at the same speed.
In the embodiment illustrated in figures 1B to 6B the same series of stages is shown as in figures 1A to 6A of the first embodiment, therefore they will not be described in detail.
The substantial difference of this second embodiment with respect to the first lies in the fact that the blade 15 is accelerated instead of decelerated to cause separation of the web material W.
For this purpose, in this case the blade 15, made of a material with a high coefficient of friction, is advantageously given a convex profile toward the outside.
In the situation in Figure 4B, the acceleration of the blade 15 with the strong grip on the portion of web material W nipped by the new core 2 against the upper winding roller A, causes a further stretching of the web material and thus severing along the line of perforation between the core being inserted and the blade.
Of course the invention is not limited to the particular embodiments previously described and illustrated in the appended drawings, but numerous changes of detail within the reach of a person skilled in the art can be made thereto, without thereby departing from the scope of the invention, as defined by the appended claims.

Claims

A peripheral rewinding machine for the production of logs (1) of web materials (W) on tubular cores (2), comprising a first winding roller (A), on which the web material (W) is wound, a second winding roller (B) defining with the first winding roller (A) a gap (3), through which the new core (2) is inserted, a third roller or pressure roller (C) mounted movably to allow the diameter of the log (1) to increase and the log to be discharged at the end of winding, means for severing the web material (W) at the end of winding and means for inserting a new core (2), wherein said means for severing the web material (W) comprise a blade (15) carried by a rotating member (14) pivoted on the axis (X) of said first winding roller (A) and protruding from the profile of said roller (A), characterized in that actuating means are provided such as to cause the blade (15) to rotate at different speeds in the same direction of rotation as said winding roller (A), such as to impart a change in speed to the blade when the latter is in contact with the web material (W) in the winding space bed defined by the three rollers (A, B, C).
A rewinding machine according to claim 1, characterized in that said blade (15) has at least one coating of a material with a high coefficient of friction, such as to provide a strong grip with the web material (W).
A rewinding machine according to claim 1 or 2, characterized in that said actuating means for the blade (15) give the blade a deceleration when it is in contact with the web material (W) in the winding space, so as to cause severing of the web material (W) between the point of contact of the web material with the blade and the log in the expulsion stage.
A rewinding machine according to claim 1 or 2, characterized in that said actuating means for the blade give the blade an acceleration when it is in contact with the web material (W) in the winding space, so as to cause severing of the web material between the point of nipping of the web material caused by the contact of a new core (2) with the winding roller (A) and the point of contact (15') of the blade with the web material (W).
A rewinding machine according to any one of the preceding claims, characterized in that said web material (W) comprises predefined transverse lines of perforation along which severing of the web material takes place.
A rewinding machine according to any one of the preceding claims, characterized in that means are provided to accelerate said pressure roller (C) and possibly to decelerate said second winding roller (B) during severing of the web material (W).
A rewinding machine according to any one of the preceding claims, characterized in that said means for driving the blade (15) are independent from the drive means of said first winding roller (A).
A method for producing logs (1) of web materials, such as paper and the like, in which the web material (W) is fed along a first winding roller (A) and wound around a tubular core (2) set in rotation in a winding space defined by said first winding roller (A), a second winding roller (B) and a pressure roller (C), and in which said web material (W) is severed at the end of winding of a log (1), characterized in that said severing takes place by means of a blade (15) carried by a rotating member (14) pivoted on the axis (X) of said first winding roller (A) and rotating at different speeds, characterized in said blade (15) protruding from the profile of said first winding roller (A) and undergoing a change in speed when it is in contact with the web material (W) in said winding space.
A method according to claim 8, characterized in that said blade (15) has a high coefficient of friction, so as to cause a strong grip on said web material (W).
A method according to claim 8 or 9, characterized in that said blade (15) undergoes a deceleration when it is in contact with said web material (W) in the winding space, so a to cause severing of the web material between the point of contact of the blade with the web material and the log (1) in the expulsion stage.
A method according to claim 8 or 9, characterized in that said blade (15) undergoes an acceleration when it is in contact with said web material (W) in the winding space so as to cause severing of the web material between the point of nipping of the web material determined by the contact of a new core with said first winding roller (A), and the point of contact (15') of the blade (15) with the web material.
A method according to any one of claims 8 to 11, characterized in that said severing of the web material takes place along one of the predefined transverse lines of perforation on the web material.
A method according to any one of claims 8 to 12, characterized in that an acceleration of the pressure roller (C) and a possible deceleration of a second winding roller (B) are provided during the stage of severing of said web material (W).
A method according to any one of claims 8 to 13, characterized in that said blade (15) is actuated independently from said first winding roller (A).