The present invention relates to a rewinding machine and a process for producing logs of paper material.
It is known that the production of logs of paper material, from which are obtained, for example, rolls of toilet paper or rolls of kitchen paper, implies the feeding of a web of paper, formed by one or more superimposed plyers, on a predetermined path along which various operations are performed before proceeding to the formation of the logs, including a transversal pre-incision of the web to form pre-cut lines which divide it into separable tear-off sheets. The formation of logs normally involves the use of cardboard tubes, commonly called “cores” on the surface of which a predetermined amount of glue is distributed to allow the paper web to be bonded onto the cores gradually introduced into the machine which produces the logs, commonly called “rewinder”. The glue is distributed on the cores when they pass along a corresponding path comprising an end section commonly known as “cradle” due to its concave shape. The formation of the logs also implies the use of winding rollers which impose each core to rotate about its longitudinal axis thus determining the winding of the web on the same core. The process ends when a predetermined number of sheets is wound on the core, with the gluing of a flap of the last sheet on the underlying one of the roll thus formed (so-called “flap gluing” operation). Upon reaching the predetermined number of sheets wound on the core, the last sheet of the log being completed is separated from the first sheet of the next log, for example by a jet of compressed air directed towards a corresponding pre-cutting line. At this point, the log is discharged from the rewinder. EP 1700805 discloses a rewinding machine that operates according to the above operating scheme. The logs thus produced are then conveyed to a storing unit that supplies one or more cutting-off machines by means of which the transverse cutting of the logs is carried out to obtain the rolls having the desired length.
U.S. Pat. No. 4,783,015 discloses a rewinding machine in which the unit for winding the paper on the cores comprises four rolls sequentially used in groups of three: initially a first group of three rolls provides for the winding of a first quantity of paper on the core and, in a second phase, a second group of three rollers completes the winding.
In practice, the system disclosed in U.S. Pat. No. 4,783,015 involves the use of four winding rollers positioned and controlled so as to form two consecutive nips in which a first and a second part of the winding are respectively realized, with a step of transition of the log being formed from the first to the second nip. One of said nips is formed by three of the four rollers, while the second nip is formed by two of the first three rollers and by a further roller which is not used during the first winding phase. A system of the same type is disclosed in EP3009382A2. In both the cases referred to above, the use of two separate groups of three winding rollers in the initial and final winding phases allows to use three angularly equidistant rollers each time, i.e. three winding rollers whose axes are contained in planes which are mutually spaced of 120°. This allows the logs to be contained, particularly in the final phase of the winding, within a space defined by three winding rollers arranged symmetrically with respect to the core.
In some rewinders, due to the lack of available space and to the shape and the arrangement of some auxiliary components in the winding area where the paper is wound on the cores, it is not possible to implement a constructive solution based on the principle described in U.S. Pat. No. 4,783,015 and EP3009382A2. However, the need to stabilize the log is still felt, particularly in the intermediate and final phases of the winding. In addition, the need to reduce as much as possible the amount of glue used is still felt, with particular reference to rewinders in which on the core is initially distributed both the glue that allows the web to adhere to the core and the glue allowing the last sheet of the log being formed to adhere to the underlying sheets (so-called “flap gluing”).
The main object of the present invention is to provide a solution to the problems indicated above.
This result has been achieved, in accordance with the present invention, by providing a rewinder and a process as indicated in the independent claims. Other features of the present invention are described in the dependent claims.
Among the advantages offered by the present invention, the following are cited for example: it is possible to stabilize the logs being formed, particularly in the intermediate and final phases of the winding, without requiring two separate winding nips, with positive effects in terms of space required and of duration of the process, since a phase of transition of the log from the first to the second nip of the known systems is eliminated; it is possible to reduce the amount of glue used in the gluing phase, with benefits related both to the lower consumption of glue, and to the contamination of the winding area by the same glue; it is possible to complete the gluing phase more efficiently despite the use of a lower amount of glue.
These and further advantages and characteristics of the present invention will be more and better understood by any person skilled in the art, thanks to the following description and to the attached drawings, provided as an example but not to be considered in a limiting sense, in which:
A rewinding machine (RW) which can be equipped with a paper winding mechanism in accordance with the present invention comprises a first winding roller (R1) and a second winding roller (R2) suitable for delimiting, with their respective outer surfaces, a nip ( ) through which a paper web (3), consisting of one or more paper plies and destined to be wound around a tubular core (4), is fed to form a log (L). The web (3) is provided with a series of transversal incisions or pre-cuts which divide the web into consecutive sheets and facilitate the separation of the individual sheets. Each log (4) is formed by a pre-established number of sheets wound on the core (4). During the formation of the log, the diameter of the latter increases up to a predetermined maximum value which corresponds to a predetermined length of the web (3), i.e. to a predetermined number of sheets. Upstream of the aforementioned nip (N), with respect to the direction (F3) from which the web (3) comes, a rotating feeder (RF) is provided for sequentially feeding the cores (4) to allow a continuous production of the logs (L). The cores (4) follow a feeding path along which a glueing unit (6) is placed for distributing a predetermined amount of glue on each core (4). The aforesaid path is delimited by a series of plates (40) placed side by side and placed above a conveyor (5). The gluing unit (6) applies the glue on two distinct areas of each core (4) to glue the last sheet of a log being formed into the winding station (W) with the underlying sheet of the same log (“flap gluing”) and to allow the adhesion of the first sheet of a new log on the surface of a corresponding core (4) as known to those skilled in the art.
For the purposes of the present description, the winding station (W) is the point of the rewinding machine where the winding rollers are arranged and acting.
In the winding station (W) a third winding roller (R3) is arranged which, with respect to said direction (F3) followed by the web (3), is arranged downstream with respect to the first two winding rollers (R1, R2). Furthermore, the second winding roller (R2) is arranged at a lower level than the first roller (R1) with respect to the basement of the machine. In the embodiment shown in the accompanying drawings, the positions of the axes of the first roller (R1) and the second roller (R2) are fixed. The third roller (R3) is above the second roller (R2) and has respective axial ends (S3, S30) connected, as further indicated below, to an actuator (A3) allowing it to he moved to and from the second roller (R2), that is, as further described in the following, allowing to move it from and towards the aforesaid nip (N). With reference to the embodiment illustrated in the accompanying drawings, the actuator (A3) is a rotary actuator.
A fourth roller (R4) is provided in the winding station (W).
The axes of said rollers (R1, R2, R3, R4) are parallel to each other.
On one end (S30) of the third roller (R3), for example the right-hand end with reference to
The third roller (R3) is supported by a right arm (B30) and a left arm (B3). In particular, the right arm (B30) is box-like shaped and contains the transmission gears (RM, RF, RS30). Furthermore, the right arm (B30) is connected to the rotary actuator (A3) by means of corresponding articulated levers (M30) and (T30). The right arm (B3) is a hook-shaped arm and is hinged on a fixed pin (P3) bound to a fixed wall (FW) of the rewinder (RW). The axis of the pin (P3) is horizontal and parallel to the axes (X3, X4) of the rollers (R3, R4). Moreover, as shown in
In this way, the roller (R3) can be arranged in a position which is more or less distant from the core (4) in relation to the instantaneous diameter of the log being formed, as further described below. In other words, the actuator (A3) controls the rotation of the third roller (R3) around the axis of the pin (P3) and both the third and the fourth roller can rotate about the respective axes (X3, X4) under control of the motor (M).
According to the present invention, the log is completed by associating the fourth roller (R4) with the first three (R1, R2, R3) so that the final phase of the paper winding on the core involves the use of all four rollers (R1, R2, R3, R4) which, in this phase, surround the log and define a space having a variable volume in which the formation of the same log is completed.
In other words, in accordance with the present invention until the diameter of the log being formed in the station (W) is lower than a predetermined value (for example, 90 mm), the fourth roller (R4) is in the inoperative position and, upon reaching of said predetermined value, it is in the operating winding position, contributing with the other three rollers (R1, R2, R3) to the winding of the web (3) on the core (4) until the final log diameter is reached (for example, 140 mm). In the inoperative position, the fourth roller (R4) is spaced from the log in formation while in the operating winding position it is in contact with the log (L).
The fourth roller (R4) is connected to a corresponding positioning actuator (A4) which allows it to be placed in the raised or inoperative position (A) and in the winding operating position (B), respectively, as further described below. The lowered position (B) of the fourth roller (R4) is the position of the latter in the completion phase of the log.
With reference to the embodiment shown in the accompanying drawings, the fourth roller (R4) is connected to the respective positioning actuator (A4) by means of a right arm (B40) and a left arm (B4) which support the respective right end (S40) and left end (S4). On each of said arms is mounted a transmission with articulated levers (M40, T40; M4, T4) that connects it to a horizontal bar (C4) operated by the actuator (A4). Said arms (B40, B4) are hinged on the axis (X3) of the third roller. Therefore, the actuator (A4) controls the rotation of the fourth roller (R4) about the axis (X3) of the third roller (R3). The left arm (B4) has a box-shaped structure and contains the transmission gears (RS3, RFD, RS4).
Therefore the mechanism described above allows the following movements: a) rotation of the third roller (R3) about its axis (X3);
b) rotation of the fourth roller (R4) about its axis (X4);
c) rotation of the third roller (R3) about the axis of pin (P3);
d) rotation of the fourth roller (R4) about the axis (X3) of the third roller (R3). In particular, the rotation c) corresponds to the movement of the third roller (R3) from and towards the nip (N), similarly to the rotation d) that concerns the fourth roller (R4).
Once the log winding in the station (W) is completed, the fourth roller (R4) is returned to the initial raised position (A) to free the finished log (LI) as further described below.
The four winding rollers (R1, R2, R3, R4) cooperate with each other only in the phase of completion of the web (3) winding on the core (4). In the initial phase of winding, i.e. until the diameter of the log being formed is smaller than a predefined value, only the first three rollers (R1, R2, R3) are used, and these rollers realize the initial phase of the winding according to a scheme per se known. The intervention of the fourth roller (R4) in the phase of completion of the log determines a multiplicity of advantages. In fact, it acts as a press roller which presses the last sheet of the log onto the underlying one in the final winding phase and therefore contributes to the gluing of the flap even if a smaller amount of glue is used due to the pressure exerted thereby. At the same time, the fourth roller (R4) contributes to precisely keeping of the log (L) in the winding station (W). In fact, despite the substantially asymmetric arrangement of the first three rollers (R1, R2, R3) with respect to the core (4), the positioning of the fourth roller (R4) in the lowered position (winding operating position “B”) contributes to delimit a space in which the log (L) being formed is perfectly contained, so that the negative effects of the oscillations of the same log are practically eliminated, oscillations normally due to the speed of execution of the winding and to the structure of the log. Moreover, when the log formation is completed and the fourth roller (R4) is returned to the initial raised position (A), the completed log can be moved out from the winding station (W) through the side previously occupied by the same fourth roller (R4) to allow the start of a new cycle.
According to a further aspect of the present invention, when using a rewinder provided with a deceleration system of the logs downstream of the winding station (W), the fourth roller (R4) favors the entry of the logs into the deceleration system.
For example, with reference to
With reference to a rewinder equipped with a deceleration system of the logs of this type, the fourth roller (R4), in its relocation movement in the raised position (A), is able to accompany the finished log (LI) towards the output, such that the fourth roller is also a component of the deceleration system and not just a component of the winding system.
The following description refers to two possible examples of operational use of a winding system in accordance with the present invention.
The first example will be described with reference to
Starting from the phase shown in
The second example will be described with reference to
Starting from the phase shown in
In both cases described, when the final diameter of the log is reached, the web (3) is interrupted according to methods known to those skilled in the art and, following this interruption, the production of the new log can be started.
In practice, while in the process described with reference to
According to a further aspect of the invention, the third roller (R3) is connected to respective movement means adapted to move it cyclically from and towards an arrival point of the cores (4) defined between the lust and the second winding roller (R1, R2).
According to a further aspect of the invention, the axes of said four rollers (R1, R2, R3, R4) are parallel to each other.
According to a further aspect of the invention, the movement of the fourth roller (R4) between the inoperative position (A) and the operating winding position (B) is progressive. Alternatively, the movement of the fourth roller (R4) between the inoperative position (A) and the operating winding position (B) is not progressive but it is a snap movement.
In addition, a process for producing logs of paper material according to the present invention involves the feeding a web (3) of paper material and, in sequence, several tubular cores (4) in a winding station (W) of a rewinding machine; in the winding station (W) a first, a second and a third winding roll (R1, R2, R3) are arranged cooperating with each other to wind a predetermined amount of said web (3) on each core (4); the process involves providing a fourth winding roll (R4) which is arranged in a first inoperative position (A) until the diameter of the log (L) being formed is lower than a predetermined first value and in a second operating position (B) when the diameter of the log (L) being formed is equal to said first predetermined value; said fourth winding roll (R4) is kept in the second operating position of winding (B) until the log diameter reaches a second final value greater than the first so that, in a first step which ends with the achievement of said first predetermined value of the diameter of the log being formed, the winding of the web (3) on the cores (4) is formed by said first, second and third winding rollers (R1, R2, R3), and, in a subsequent step, the log is completed in cooperation by the four winding rollers (R1, R2, R3, R4) until the said second predetermined value of the log diameter is reached.
The process can be further characterized by the fact that said third roller (R3) is moved cyclically from and towards an arrival point of the cores (4) defined between the first and the second winding roller (R1, R2).
Similar to what has been said previously with reference to the rewinding machine, the process of the present invention can be further characterized by the fact that the movement of the fourth roller (R4) between the inoperative position (A) and the operating winding position (B) is a progressive movement or it is a snap movement.
According to the example shown in
In all the examples described above, the fourth roller (R4) is held in an inoperative position, i.e. out of contact with the log being formed, until the diameter of the latter is lower than a first predetermined value, after which it is placed in operating position, i.e. in contact with the log in formation, until the diameter of the latter assumes a second predetermined final value greater than the first, so that in a first step which ends with the achievement of said first predetermined value of the diameter of the log being formed, the winding of the web (3) on the cores (4) is made from the said first, second and third winding roll (R1, R2, R3), and, in a subsequent step, the log is completed in cooperation with the four winding rollers (R1, R2, R3, R4) until said second final value of the log diameter is reached.
As mentioned previously, the intervention of the fourth roller (R4) in the final completion phase of the log facilitates the gluing of the last sheet of the web (3) on the underlying paper of the log. In
It is understood that the core (4) feeding system, as well as the web (3) feeding system, the methods of applying the glue on the cores (4) and, more generally, the execution of the phases preceding the winding of the web (3) on the cores (4) may be different from what is described above with reference to the examples shown in the accompanying drawings.
In practice, the details of execution may in any case vary in an equivalent manner as regards the individual elements described and illustrated and their mutual arrangement without departing from the scope of the solution idea adopted and therefore remaining within the limits of the protection conferred by the present patent as defined by the claims.
Number | Date | Country | Kind |
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102017000034591 | Mar 2017 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IT2018/000031 | 3/2/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2018/179016 | 10/4/2018 | WO | A |
Number | Name | Date | Kind |
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3750973 | Walters | Aug 1973 | A |
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20090236463 | Izumida | Sep 2009 | A1 |
20100129543 | Tsai | May 2010 | A1 |
20180179009 | Perini | Jun 2018 | A1 |
20190168979 | Morelli | Jun 2019 | A1 |
Number | Date | Country |
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1 700 805 | Sep 2006 | EP |
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3 009 382 | Apr 2016 | EP |
S50-113667 | Sep 1975 | JP |
2018037272 | Mar 2018 | WO |
Entry |
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International Search Report dated Jul. 12, 2018 in corresponding International Application No. PCT/IT2018/000031; 2 pages. |
International Preliminary Report on Patentability dated Jul. 3, 2019 in corresponding International Application No. PCT/IT2018/000031; 8 pages. |
Number | Date | Country | |
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20200087091 A1 | Mar 2020 | US |