The present invention relates to a plant and a process for the production of paper rolls.
It is known that the production of paper logs involves the feeding of a continuous paper web along a predefined path. At a preset point of said path, a transverse discontinuous cut is made on the paper to subdivide it into portions or sheets each having a predetermined length. This known technique involves the use of tubular cardboard elements, commonly said cores, on whose surface is distributed a predetermined amount of glue to allow the gluing of the first sheet of the log to be formed. This technique also provides for the use of winder rollers, positioned and acting in a logs forming station, which cause the rotation of the core on which the paper web is wound. The formation of a log is completed after that a predetermined amount of paper is wound on the core. At this point, another log is formed. At the end of the log formation process it is necessary to glue the last sheet of each log on the underlying one in order to avoid the spontaneous unwinding of the paper web. Cutting-off machines are subsequently used to subdivide each log into several rolls of smaller length to be packed.
Generally the production of paper rolls according to the scheme described above require that the tube-forming machines that produce the cores and the cutting-off machines are oriented transversely with respect to the path followed by the paper. This implies, however, the need for very large spaces and, therefore, high financial investments are required for the acquisition of the necessary spaces. Typically, a plant of the type described above, in fact occupies a very wide surface.
The main purpose of the present invention is to propose a plant and a process for the production of paper rolls allowing a remarkable reduction of the space required for the installation of the machines, without compromising the efficiency of the process or the quality of the finished product.
This result is achieved in accordance with the present invention, by providing a system a plant and a process having the features indicated in the independent claims. Other features of the present invention are the subject of the dependent claims.
Among the main advantages offered by the present invention there is the fact that, by reducing the space required for the installation of the machines, less economic resources are required, which positively reflects also on the cost of the finished product. In addition, since the production cycle is changed only with reference to some operational phases, the plant can be managed also by personnel that normally operates the traditional systems. A further advantage is the relatively low cost of the modifications required to implement the present invention with respect to conventional plants and processes. Furthermore, in case of a plant comprising two or more production lines, given the lesser surface occupied by each line, the lines can be arranged closer to each other and the plant occupies a less extended area and therefore offers the possibility of using less operators, in particular a smaller number of plant managers or supervisors, compared to a conventional plant having the same number of production lines.
These and other advantages and features of the present invention will be best understood by anyone skilled in the art thanks to the following description and to the attached drawings, provided by way of example but not to be considered in a limitative sense, wherein:
Reduced to its basic structure and with reference to the attached drawings, a plant for the production of paper rolls (for example, rolls of toilet paper or rolls of kitchen paper) in accordance with the present invention typically comprises:
The unwinders (U1, U2) allow the unwinding of the plies (V1, V2) from the reels (B1, B2). Said plies are embossed and glued in the station (EG) that produces the web (W) formed by the embossed and glued plies. The web feeds the rewinder (R) that provides for winding a predetermined amount thereof on each core (C) coming from the first accumulator (CS) and produced by the tube-forming machine (T). The core (C) allows the winding of the web (W) around an axis defined by the longitudinal axis of the same core (C). The logs thus produced in the rewinder (R) reach the conveyor (LT) which conveys them up to the second accumulator (LS). The latter feeds the cutting-off machine (CM) that cuts the logs to obtain rolls of the desired length.
The tube-forming machine (T) and the cutting-off machine (CM) are oriented transversely to the path (PP) followed by the paper web. Therefore, the cores produced by the tube-forming machine (T) and exiting from the latter move along a direction substantially perpendicular to said path (PP) and the rolls produced by the cutting-off machine (CM) go out from the latter also in a direction substantially perpendicular to said path (PP).
The first accumulator (CS) receives the cores produced by the tube-forming machine (T) by means of a vertical conveyor (VC).
The unwinders (U1, U2), the embossing and sizing unit, the rewinder, the accumulator for the cores, the accumulator for the logs, the tube-forming machine, the means for transferring the cores from the tube-forming machine to the first accumulator, the means for transferring the logs from the second accumulator to the cutting-off machine, and the cutting-off machine can be of the type normally used for the production of paper rolls. EP0454633 and U.S. Pat. No. 6,715,709 disclose rewinders, the entire contents of EP0454633 and U.S. Pat. No. 671,570 are herein incorporated by reference; WO2011/089634 discloses an accumulator for tubular cardboard cores, the entire contents of WO2011/089634 are herein incorporated by reference; WO2004/014641 discloses a tube-forming machine, the entire contents of WO2004/014641 are herein incorporated by reference; U.S. Pat. No. 3,926,299 and U.S. Pat. No. 3,762,582 disclose devices for handling and storage of paper logs, the entire contents of U.S. Pat. No. 3,926,299 and U.S. Pat. No. 3,762,582 are herein incorporated by reference.
According to the example shown in
It is observed that with the current production requirements, characterized by high operating speeds (production rate of at least 60 logs per minute), the lateral displacement of the logs (not combined with the advancement) would require a conveyor surface with an extremely high friction coefficient which, however, implies damages to the surface of the logs. In the past, such a solution has been adopted but for lower production rates (about 20 logs per minute). The combination of the advancement and the lateral displacement of the logs implies a lower speed lateral component without imposing any reduction of the operating speeds.
Referring to the diagram of
With reference to the example shown in
In
In particular,
The translation (1C) is determined by the tube forming machine (T) that, while producing the cores (C), advances them, that is, forces them to move as shown in
In
In particular,
The transport unit for the logs (LT) that makes the logs to deviate laterally while they advance towards the cutting-off machine (CM) allows to make use of conventional machines for making the plant and, at the same time, allows the positioning of the cutting-off machine (CM) and the tube-forming (T) within the outline of the production line arranged upstream and comprising the rewinder (R), the embossing-sizing unit (EG) and the unwinding unit (UP).
The transport unit for the logs (LT) consists, for example, of three motor-driven loop chains constituted by meshes (MC) joined together by ball joints (SM), contained in guides (GC) having the desired orientation and equipped, at regular intervals, with blades (PC) that in operation are destined to be in contact with the back of the logs.
In practice, the transport unit (LT) forms a flow diverter for the logs (L), in the sense that it makes possible possible to divert the flow of logs exiting from the rewinder and place the cutting-off machine (CM) with its feeding channels (CT) also in an offset position with respect to the rewinder.
As shown in the drawings, the tube-forming machine (T) is located within the outline of the production line formed by the unwinders, the embossing-sizing unit and the rewinder.
Compared to a conventional plant, in which the tube-forming machine (T) is external to the production line formed by the unwinders, the embossing-sizing unit and the rewinder, there is a considerable saving of ground area in manufacturing the logs production plant. For example, for equal maximum size of the logs (logs length equal to 2850.00 mm) and hence the same machines used, in a traditional system the dimension “A” previously mentioned assumes a value of about 20 meters. By contrast, as mentioned earlier, positioning the tube (T) as in the diagram of
It is understood that, where the accumulation of the logs (L) upstream of the cutting-off machine (CM) is not required, the transport unit (LT) directly connects the rewinder (R) with the cutting-off machine (CM).
The tube-forming machine (T) can be placed downstream of the rewinder and upstream of the cutting-off machine, or upstream of the rewinder.
In practice the details of execution may vary according to what regards to the individual elements described and illustrated, without thereby departing from the scope of the adopted solution idea and, thereby, remaining within the limits of the protection granted by this patent.
Number | Date | Country | Kind |
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FI2014A0299 | Dec 2014 | IT | national |
This application is a continuation under 37 CFR 1.53(b) of pending prior application Ser. No. 15/537,641 filed Jun. 19, 2017, which claims the benefit (35 U.S.C. § 120 and 365(c)) of International Application PCT/IT2015/000276 filed Nov. 11, 2015 and claims the benefit of priority under 35 U.S.C. § 119 of Italian Patent Application FI2014A000299 filed Dec. 20, 2014, the entire contents of each application are incorporated herein by reference.
Number | Name | Date | Kind |
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3926299 | Bradley | Dec 1975 | A |
5344091 | Molison | Sep 1994 | A |
Number | Date | Country | |
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20180170700 A1 | Jun 2018 | US |
Number | Date | Country | |
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Parent | 15537641 | US | |
Child | 15896376 | US |