巴西专利BR112015001677B1 machine to close the final end of a roll of blanket material

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专利摘要:
MACHINE TO CLOSE THE FINAL END OF A MATERIAL ROLL. The present invention relates to a machine comprising: a first glue application device (97) for closing said end end; and a second mechanical locking device (91) for mechanically anchoring the end end of the roll (R) to a portion of an outer loop of the pulp material wound on the roll.
公开号:BR112015001677B1
申请号:R112015001677-4
申请日:2013-07-12
公开日:2020-10-20
发明作者:Graziano Mazzacherini；Romano Maddaleni
申请人:Fabio Perini S.P.A；
IPC主号:

专利说明:

TECHNICAL FIELD
[001] The present invention relates to machines and devices for converting blanket material into rolls. More specifically, the present invention relates to machines for closing the end end of rolls of blanket material, for example, tissue paper rolls. TECHNICAL STATUS
[002] In the field of converting paper, in particular, although not exclusively, tissue paper for the production of rolls of toilet paper, kitchen towels and the like, it is well known to produce rolls or cylinders by rolling one or more sheets of blanket material, for example, by means of a rewinding machine. The end end of these rollers must be closed to prevent the mat material from accidentally unwinding during subsequent processing and conversion operations, for example, when cutting the cylinders into rolls of smaller axial dimensions, as well as during packaging.
[003] Various types of machines for closing the final end of rolls of blanket material by applying glue are known. US-A-5242525, US-B-7846286, US-A-6143111 and WO-A-201000666 reveal examples of such machines.
[004] Documents US-A-20100101705 and US-A-20110265954 disclose machines for sealing the final end of rolls of blanket material without gluing it, but instead joining it mechanically, through so-called systems mechanical connection of blades. SUMMARY OF THE INVENTION
[005] The present invention relates to a machine for closing the final end of rolls of blanket material, in particular, although not exclusively, tissue paper or other cellulose materials, allowing for high productivity and greater flexibility.
[006] According to one aspect, a machine is essentially provided for sealing the end end of a roll of blanket material comprising: a first glue application device for sealing the end end with glue; and a second mechanical locking device for mechanically joining the end end of the roll to a portion of an outer loop of the pulp material wound on the roll. In advantageous modalities, the connection or mechanical union is carried out by pressing together the layers of mat material with high compression force. If the mat material contains, or is made of, cellulose fibers, the pressure located between the sheets or layers of the mat material causes them to join in the compression areas as a result of a localized fusion of fibers. The type of mechanical joint is usually called the mechanical bonding of blades.
[007] The type of anchoring or sealing is carried out by pressing the final end of the blanket material against a portion of blanket material from the last rolled loop, where that portion is folded, for example, along three fold lines to projection from the typically cylindrical surface of the roller. The mechanical connection is, therefore, carried out by pressing three layers of the mat material together: two layers formed by the portion of folded and projecting material from the cylindrical surface of the roll, and the third layer formed by the final end. Clearly, each layer can comprise one or more sheets of blanket material, for example cellulose material, according to the number of sheets that form the material.
[008] With such a machine, it is possible to select one of at least two modes of operation, which differ in the different way of anchoring the end end to the external cylindrical surface of the roller. The two devices are preferably arranged and controlled to operate alternately with each other.
[009] In some advantageous embodiments, the second device comprises a plurality of mechanical blade connecting members. The second device may comprise, for example, a plurality of blade connecting members aligned with each other in a direction substantially parallel to the final end of the roll of mat material. Each mechanical blade connecting member may comprise a mechanical blade connecting roller. The mechanically connected blade rollers can cooperate with a single pressure surface, formed, for example, by a crossbar attached to the machine frame. The crossbar or other pressing surface can be formed by a single element or a plurality of adjacent elements. In other embodiments, the mechanically connected blade rollers can cooperate with a plurality of pressure surfaces separated from each other. However, the use of a single or essentially continuous pressure surface, formed, for example, by a transversal of one piece or by more elements aligned to form a transversal bar, allows a more effective sealing of the final end, forming a line of substantially continuous mechanical connection over all, or at least a substantial part, the width of the mat material, i.e., the axial length of the roll.
[010] According to the advantageous modalities, each mechanical blade link member can be arranged and controlled for movement between an operating position and a resting position. In the resting position, the free end of the roller can be glued using the first device.
[011] An actuator, for example, a pneumatic or hydraulic actuator, can control the switching from one position to another. The same actuator can be used to apply the force necessary to press the layers of blanket material together for mechanically bonding the blades. However, separate members can also be used: a first actuator to move the mechanical blade connecting member (s) from an operating position to a resting position and vice versa; a second actuator to apply the required mechanical blade pressure. For the purpose of simplicity and cost reduction, it is preferable to use only one actuator.
[012] In the particularly advantageous embodiments of the invention, each mechanical blade link member comprises at least one actuator, separate from the actuators of the other mechanical blade link members. This makes it possible, for example, to actuate the mechanical blade connecting members selectively and also to apply an appropriate calibrated tension to each mechanical blade connecting member. For example, in this way, it is possible to compensate for changes, if any, in the thickness of the blanket material along the extension of the final end and / or deformations, corrosions or tolerances of pressure surface parallelism against which the mechanical connection members blades act.
[013] In the advantageous modalities, each member of the mechanical connection of blades, for example, each roller of mechanical connection of the blades, is transported by a respective slide. The slides can advantageously be provided with a synchronous movement parallel to the end end of the roller. For example, the slides can be mechanically connected to each other in order to move controlled synchronously by a single actuator, such as a cylinder and piston actuator, or an electric motor, or other auxiliary mechanism or actuator, arranged , for example, on one side of the machine. In other embodiments, the slides can move by means of a transverse threaded bar that engages a plurality of nut bolts, one for each slide. It is also possible to use an actuator for each slide, for example, an electric motor that activates a pinion, engaging a common rack. This arrangement allows the mechanical link members of the blades to be actuated independently of each other. However, with the use of a single actuator, the structure is simpler, more reliable and less costly.
[014] Advantageously, each slide can carry an actuator to respectively: push the respective mechanical linkage roller against a rolling and pressure surface and move the mechanical linkage member to a rest position.
[015] In some embodiments, the mechanically connected blade rollers comprise: a first serrated annular portion, which cooperates with the rolling and pressure surface; a second elasticly malleable annular portion, which cooperates with an embossing surface with a notch. In this way, the mat material pressed between the embossing surface and the second elastically malleable annular portion of the mechanical blade connecting roller is embossed with a pattern according to said notch. The notch can be advantageously exchangeable. It can be provided, for example, in a linear element, for example, a bar or a profile, easy to be removed and replaced. For this purpose, in the advantageous modalities, a seat or a housing can be provided for the linear element, below the rolling and pressure surface of the mechanically connected blade rollers. The linear element can be in one piece. In other modalities, to simplify construction and assembly, the linear element can be formed by a plurality of separate parts or segments, assembled, for example, in a common seat.
[016] In some advantageous embodiments, the first glue application device comprises a plurality of glue dispensing nozzles, arranged and controlled to apply glue to the end end of the roll. The adhesive dispensing nozzles can advantageously be aligned in a direction essentially parallel to the end-end roller.
[017] In some embodiments, a respective lamina mechanical connection member is associated with each glue dispensing nozzle. For example, each slide carrying one of the mechanical blade connecting members can also be provided with a glue dispensing nozzle. In this way, the same actuator that moves the mechanical blade connecting members transversely can be used to move the adhesive dispensing nozzles transversely.
[018] Preferably, on each slide, a movable support is provided, for example, an oscillating support that carries the mechanical blade connecting member, for example, a mechanical blade connecting roller. The movable support can be moved to alternatively place the mechanical blade connecting member in the operating position and a resting position. Preferably, the glue dispensing nozzle is not integral with the movable support carrying the mechanical blade connecting member, but, instead, connected to the slide independently of the movable support. In this way, the glue dispensing nozzle can be adjusted in position independently of the mechanical blade connecting member. In some embodiments, each glue dispensing nozzle has a fixed position in relation to the slide that carries it. In other embodiments, each glue dispensing nozzle can be advantageously positioned in at least two positions of the slide carrying the same. The two positions can be defined so that the glue dispensing nozzle applies the glue to the end end or alternatively to an area on the outer surface of the roll from which the end end has been partially unwound, where the end end passes over the glue when rolled again.
[019] According to some advantageous modalities, at least one sensor is associated with the adhesive dispensing nozzle to detect the presence of the final end roller, in order to automatically control the application of adhesive and prevent the machine from being soiled with adhesive when there is no blanket material in front of the glue dispensing nozzle. Preferably, two sensors are associated with each adhesive dispensing nozzle to detect the presence of the final end of the roll. The two sensors are advantageously arranged on the sides of the nozzle, aligned in a direction substantially parallel to the final end to be glued and, therefore, to the movement of the glue dispensing nozzle.
[020] In some embodiments, the machine comprises a station for unwinding and positioning the end end of the rollers and a system for forming and stabilizing a fold of blanket material in a suitable position along the circumferential extension of the roll. More particularly, the folding system is arranged and controlled to form a fold at a distance from the final end of the rolled mat material equal to the length of the outermost loop of the mat material and thus equal to the circumference of the roll, increased by an equal length the length of the final end which (after mechanically connecting the blades with the fold) will be projected from the cylindrical surface of the roll.
[021] In the advantageous modalities, the system for forming and stabilizing the fold is arranged in correspondence with the unwinding station. The bend stabilization system may comprise pneumatic members to suck and / or generate jets of air, so as to form a loop of blanket material within a mechanical member to form and stabilize the bend.
[022] Advantageously, when the machine is controlled to seal the end end with glue, the fold is not formed.
[023] In advantageous embodiments, the machine comprises a station for sealing the end end of the roll, in which both the first glue application device and the second mechanical closing device are arranged.
[024] In advantageous modalities, the station where the end end is unrolled and positioned and the station where the end end is sealed are arranged in sequence, where the first station is upstream and the second downstream of the feed path of roller.
[025] Preferably, the driving members extend between that unwinding and positioning station and the sealing station; these members transfer the rollers from one station to another, controlling the position of the end end after it has been unrolled and positioned at the first station. The driving members can comprise flexible upper and lower members, between which the roller feeding path is defined. A roller transfer surface can extend between the unwinding and positioning station and the sealing station. Along this transfer surface, which can be fully or partially provided with a suction system to keep the end end open and stretched, a branch of a belt or other flexible member that forms a conductor for the rollers can extend. In some embodiments, along this surface, two separate conductors can be arranged in sequence, each one comprising a respective continuous flexible member. The two conductors can be controlled to have different speeds.
[026] In addition, the upper driving members can be subdivided into two, that is, they can comprise two conductors in sequence, which can be actuated at different speeds.
[027] In advantageous modalities, along the feeding path, in the area of the end-end sealing station, an opening, an interruption or a gap can be provided in the roll feed surface. Through this opening, interruption or crack, anchoring of the final end of the roll can be performed, as described below. Essentially, each roll is moved forward towards that opening, interruption or crack provided on the feeding surface until the final end enters said opening, crack or interruption, passing below the feeding surface, for example, through a system suction system or a system with air jets generated, for example, by one or more pressurized air nozzles.
[028] The brief description above illustrates some characteristics of the various modalities of the present invention to better understand the detailed description below and to better assess the contribution of the invention to the state of the art. The additional features of the invention will be clearly described below and detailed in the attached claims. In this respect, before detailing the modalities of the invention, it is necessary to specify that they can be applied not only with the details of construction and the component arrangements explained in the description below or illustrated in the drawings. Other modalities are also possible and the invention can be incorporated and carried out in several ways. It should also be specified that the terms and sentences used in this document are for description purposes only and are not limiting.
[029] Furthermore, it is also clearly perceived by those skilled in the art that the concepts, on which the invention is based, can easily be used as a basis for designing other structures, methods and / or systems to achieve the various objectives of this invention. It is, therefore, to understand that the claims intend to understand these equivalent modalities, insofar as they are not different from the concept and objective of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS
[030] The present invention will be better understood by means of the description below and the attached drawing, which shows a practical non-limiting embodiment of the invention. More particularly, in the drawing: Figure 1 shows a schematic side view of a machine in a possible embodiment; Figure 2 shows an enlargement of the area where the fold is formed on the outer surface of the roll; Figure 3 shows an enlargement of a detail in Figure 2; Figure 4 shows an enlargement of the end-end sealing area; Figure 5 shows a front view according to V-V of Figure 4 of a series of slides that carry mechanical link rollers for blades; Figure 6 shows a view according to VI-VI in Figure 5; Figures 7 and 8 show a side view of a glue dispensing nozzle in two alternative operating positions; Figures 9A to 9J show a sequence of operation of the machine in a first mode of operation; Figures 10A to 10E show a sequence of operation of the machine in a second mode of operation; Figure 11 shows a longitudinal section of a roller for connecting mechanical blades in an improved mode; Figure 12 shows a schematic view of a roller closed with glue; and Figure 13 shows a side view according to XIII-XIII in Figure 12. DETAILED DESCRIPTION OF MODALITIES OF THE INVENTION
[031] The description below of some exemplary modalities refers to the attached drawings. The same numbers in different designs represent identical elements or similar elements. The drawings are not necessarily to scale. In addition, the detailed description below does not limit the invention. On the contrary, the protective scope of the present invention is defined by the appended claims.
[032] Throughout the description, the reference to "a modality" or "some modalities" or similar or equivalent expressions indicates that a particular characteristic, structure or property described in relation to a modality is included in at least one modality or example of embodiment of the described invention. Therefore, the phrases "in one modality" or "in some modalities" or analogous or equivalent expressions at different points in the description do not necessarily refer to the same modality or the same modalities. In addition, particular features, structures or elements can be combined in any suitable way in one or more modalities.
[033] With initial reference to Figures 1 to 5, the number 1 indicates an entire machine for sealing the final end of a blanket material, typically tissue paper, which incorporates the invention.
[034] In one embodiment, machine 1 comprises an input chute 3, along which the rollers or cylinders R are unloaded from a rewinding machine, an intermediate storage unit or any other unit arranged upstream along the line. conversion. Downstream of the chute 3, a distributor 5 that rotates about a geometry axis 7 is arranged to collect the single rolls R and feed them within a path P along which the rolls are processed in various ways to seal the end Final.
[035] In one embodiment, the path P extends between an upper driving member, indicated as a whole with the number 9, and a lower surface or lower surface that supports the rollers and indicated with 11, with which the members lower driving ranges, described below, are associated.
[036] In one embodiment, the upper driving member 9 comprises a first flexible member 13 driven around a first guide member 15 and a second guide member 17. The continuous flexible member 13 can consist of a series of parallel belts spaced from each other, each of which is driven around the respective pulleys. The first guide member 15, as well as the second guide member 17, can be formed from a series of coaxial pulleys. The guide members 15, 17, around which the belts or other elements that make up the flexible member 13 can be driven, can be motorized or, preferably, only one is motorized and the other is inactive. In a possible embodiment, the guide member 15 is motorized while the guide member 17 is inactive and driven in rotation by the continuous flexible member 13.
[037] In one embodiment, the upper driving member 9 comprises an additional flexible member 19; this member 19 may also consist of a series of parallel belts. The straps 19 are driven around the guide member 17 and around an additional guide member 21.
[038] In a possible embodiment, coaxial belts 17 are provided, independent of each other and mounted inactive on a common geometric axis, while each of the two guide members 15 and 21 is formed from the respective groups of pulleys linked to an axis motorized. In this way, flexible member 13 and flexible member 19 can be moved independently of each other and make different movements at different times and at varying speeds independently of each other.
[039] In a possible embodiment, the lower surface 11 supporting the rollers comprises a first suction box 23 and a second suction box 25 arranged in series along the feed path P of the rollers R. In one embodiment, the box suction cup 23 has a substantially flat top wall 23A with holes 23B through which air can be sucked. 23C indicates a duct for connection to a suction line.
[040] In one embodiment, the suction box 25 is bounded at the top by a substantially flat wall 23A with holes 25B through which air is sucked. A duct 25C connects the interior of the suction box 25 to a suction line. Ducts 23C and 25C can be connected to the same suction line.
[041] Along the substantially flat upper wall 23 A of the suction box 23, the upper branch of a continuous flexible member 27, which may consist of a series of parallel belts or other, extends. The flexible member 27 is driven around the guide members 29, 31, 33, 37. These guide members, similarly to the guide members 15, 17, and 21, can consist of rollers or coaxial pulley groups.
[042] In an embodiment of the invention, the guide member 31, for example, a roller or a group of parallel coaxial pulleys linked to a common axis, is motorized, while the guide members 29, 33 and 37 are inactive .
[043] The upper branch of flexible member 27 is indicated with 27A. This upper branch extends along the outer surface of the wall 23A of the suction box 23.
[044] With an arrangement similar to that described with reference to flexible member 27, an additional flexible member 39 has an upper branch 39A that slides along the outer surface of the substantially flat upper wall 25A of the suction box 25. As the flexible member 27, also the continuous flexible member 39 can consist of parallel or other belts and is driven around the guide member 37 as well as around the additional guide members 41, 43, 45. Like the guide member 37, also the members guide 41, 43, 45 can be of various types; they can be, for example, rollers or cylinders or even a group of coaxial pulleys.
[045] Like pulleys 17, also pulleys 37 can preferably be mounted idle independently of one another on a common axis, to allow flexible member 27 to move independently of flexible member 39. The latter is moved by one of the others guide members, for example, roller 41, which can be motorized.
[046] In one embodiment, upstream of the suction box 23, there is a station for unwinding and positioning the final end of the rollers to be glued. The unwinding and positioning station is indicated as a whole with the number 46. That unwinding and positioning station 46 comprises an unwinding member 47. In one embodiment, the unwinding member 47 may comprise one or more belts in contact with the roller to be rolled out. In a different embodiment, shown in the Figure, the unwinding member 47 comprises a motorized roller 49 that cooperates with the continuous flexible member 13 and spaced from the lower branch 13A thereof by a length equal to or slightly less than the diameter of the rollers R.
[047] In one embodiment, the upper driving member 9 can be adjusted in height to modify the distance between the lower branch 13A of flexible member 13 and the motorized roller 49, thus adapting the machine to the various diameters of the R rollers.
[048] Between the roller 49 and the guide member 29, an opening, space or cavity is provided, extending below a geometric surface formed by the extension of the substantially flat upper wall 23 A of the suction box 23 and by a surface 51 tangent to the roller 49, see, in particular, Figure 2.
[049] In this opening, space or cavity, indicated by the number 53 and extending transversely in relation to the feed direction of path P, a pressure member is housed to stabilize a fold obtained as described below in an area or a length of blanket material unrolled from each R roller fed to the machine 1. In one embodiment, this pressure member, indicated as a whole with the number 55, comprises a series of levers or swing arms 57, articulated around a common geometric axis 59 substantially transversal in relation to the feeding direction of the rollers R. 61 indicates an actuator, for example, a cylinder and piston actuator, which controls the oscillation of the arms 57 that can be joined by a common axis 62, with which the actuator 61 is articulated. In one embodiment, two or more actuators 61 are provided at the ends or at various points along the length of the shaft 62 to apply sufficient tension to the arms 57. The arms 57 are levers that, with a moderate effort from the actuators 61, through its ends 57A exert very high pressure against a pressure surface 63 formed, for example, in a transverse block that delimits the cavity or transverse space 53 and which defines the surface 51.
[050] Below the pressure surface 63, with which the ends 57A of the arms 57 cooperate, there are suction holes 67 preferably distributed along the entire length of the machine, that is, along the entire transverse extension of the cavity or of space 53 below surface 51. Ducts 67 are connected to a suction space or collector 68, so that, adjacent to surface 63, suction is obtained to maintain the portion of a blanket material between the pressure surface 63 and the ends 57A of the arms 57 for the purposes better explained below.
[051] The action of said suction through holes 67 can be replaced by or combined with the action of pressurized air jets G generated by the nozzles 68 positioned between the upper branch and the lower branch of the continuous flexible member 13. The nozzles 69 are directed towards the cavity defined between the pressure surface 63 and the ends 57A of the swing arms 57. Preferably, more nozzles 69 are aligned transversely along all or part of the transverse extension of the machine.
[052] In one embodiment, between the upper and lower branches of the continuous flexible member 13, there is a second series of pressurized air nozzles 71. The latter are connected to a pressurized air duct 73, similarly to the nozzles 69 that are connected to a pressurized air duct 75. In a modified embodiment, nozzles 71 and 69 can be connected to the same pressurized air duct. The nozzles 71 are inclined with respect to the lower branch 13A of the continuous flexible member 13 and, more precisely, they are not inclined so that the air jets G2 they generate are directed with a component in the feed direction of the rollers R along the P. path
[053] In one embodiment, there is also a sensor between the upper branch and the lower branch of the continuous flexible member 13; this sensor, for example, a photocell 77, is for detecting the presence of a final end L of mat material N in a given position, for example, along the upper branch 27 A of the continuous flexible member 27.
[054] In one embodiment, an additional sensor 79, for example, an optical sensor, is arranged between the upper branch and the lower branch of the flexible member 19. The sensor 79 is arranged so as to read the presence of a final end of blanket material almost in correspondence with the guide member 45 of the continuous flexible member 39.
[055] In one embodiment, downstream of the guide member 45, a cavity or space 81 is arranged (Figure 4), extending below an ideal geometric surface that constitutes the extension of the upper branch 39A of the continuous flexible member 39 The machine portion, in which the space or cavity 81 is located, forms a station, indicated as a whole with the number 82, to seal the end end roller. The cavity or space 81 is bounded upstream by a crossbar 83 which can be restricted, for example, to a fixed frame or frame 85. Downstream of the crossbar 85, a rail 86 is provided. The rail 86 can be formed by a series of profiles that are aligned with each other transversely to the forward movement of the rollers or cylinders R through the machine. Between the crossbar 85 and the rail 86, an opening or a slot 81A is defined. In the area of opening 81A, there are devices for sealing the end end of the roll. These devices comprise both blade mechanics and bonding systems, that is, sealing systems in which a glue is applied to the mat material that forms the roll.
[056] The structure 85 is designed to be interspersed, for example, between the parallel straps that define the continuous flexible member 39. The suction box 25 can be shaped to accommodate a comb-shaped structure of the frame 85.
[057] In one embodiment, guides 87 are attached to the frame or bearing frame 85; along these guides, the slides 89 slide, hooked to the guides 87 by means of shoes 90. Each slide 89 carries a roller for mechanical linkage of blades 91. Figures 5 and 6 show a front view according to VV of Figure 4 and a plan view according to VI-VI of Figure 5, respectively, of a part of the slides 89. The number of slides 89 can vary. As will be better explained in the description of the operation of the machine, the greater the number of runners and, therefore, the mechanically connected roller blades 91, the higher the productivity of the machine, that is, the number of cylinders or rollers per unit of time the machine can process.
[058] Each mechanical link roller 91 may have an annular edge, preferably serrated 93, which cooperates with the cross bar 83 by pressing against it while the mechanical link roller 91 moves along the guides 87 by middle of slide 89. Slides 89 can be joined together by means of ties 92 (see, in particular, Figures 5 and 6). The struts 92 can be fixed at the two opposite ends by means of ball joints 94. Thus, a single actuator is sufficient, for example, a cylinder and piston actuator (not shown) on one side of the machine, to move all the slides 89 and, therefore, all blade link rollers 91.
[059] Each roller of mechanical connection of blades 91 is fixed to the respective slide 89 by means of a support support 96 articulated with the slide 89 around a geometric axis 96A. The oscillating movement of the support support 96 around the geometry axis 96A places the blade link roller 91 in a working position or a resting position, alternatively, as will be further explained below with reference to the two modes operation of the machine. The rotation movement about the geometric axis 96A is transmitted to each support support 96 by an actuator, for example, an air spring, or a cylinder and piston actuator, preferably pneumatic. In the drawing, 98 indicates the respective cylinder and piston actuators for each mechanical link roller 91. Each cylinder and piston actuator 98 is articulated in 98A with the respective slide 89 and 98B with the respective support 96 that it carries the corresponding blade mechanical roller 91. The oscillating or rotating movement of the supports 96 around the geometric axis 96A can be transmitted to the rail 86 through the rods to connect the supports 96 (or some of them) and the rail 86 of so that the latter does not interfere with the transverse movement of the mechanically connected blade rollers.
[060] In the illustrated embodiment, in addition to the respective blade mechanical roller 91, each slide 89 carries a glue dispensing nozzle 97 mounted, for example, on a shelf 102. In the illustrated example, shelf 102 is attached to the support support 96 and, therefore, each glue dispensing nozzle is moved at an angle together with the respective mechanical link roller. In other embodiments, not shown, the adhesive dispensing nozzle 97 can be mounted fixed in relation to the corresponding slide 89.
[061] In advantageous modalities, at each glue dispensing nozzle 97 at least one sensor is associated to detect if there is mat material to be glued, according to the methods described in more detail below in reference to one of the operating modes of the machine. As shown in particular in Figures 5 and 6, with each glue dispensing nozzle 97, two sensors are preferably associated, indicated by 99 A and 99B and arranged on the sides of the glue dispensing nozzle 97. Sensors 99A, 99B can be , for example, optical sensors.
[062] As is clearly apparent from Figures 7 and 8, which show an enlarged side view of one of the slides 89 with the respective glue dispensing nozzle 97, the latter can be mounted on shelf 102 in two different alternative positions, so that they are directed upwards to spray the glue directly onto a roller or cylinder R through the opening or slit 81A (Fig. 7) or on a final end of a roller or cylinder arranged above slot 81 A (Fig . 8). In some embodiments, each glue dispensing nozzle 97 may be associated with an auxiliary mechanism or an actuator to automatically switch between the position of Fig. 7 to that of Fig. 8, allowing the machine to operate alternatively in one or the other of the two collage modes.
[063] Below the space and cavity 81, a suction system can be provided, not shown, which (for the purposes described below) generates an air flow that sucks, below the rolling surface of the R rollers, the final end L of roller R and the intermediate transverse fold, if any, created along the outermost lap of the rolled blanket material when the machine operates without applying glue. In combination with or instead of the suction system, a series of pressurized air nozzles 101 can be supplied, pushing the final ex-tremor L and, if necessary, the fold F below the laminating surface R.
[064] As mentioned, the machine can operate in at least two different modes to approach the end end L of each roll or cylinder R fed to the machine. In a first mode of operation, the sealing is carried out by mechanically connecting the end end L to a portion of blanket material from the last loop, forming a fold that protrudes from the cylindrical side surface of the roll. In a second mode of operation, the end end L is closed by gluing it. In this second case, as mentioned, in a particularly advantageous mode of the machine, the glue can be applied to the end end L or to the cylindrical side surface of the roller or cylinder R. The machine can be designed to apply glue only in one of the two positions . The machine is preferably configured to apply the glue alternatively in one way or another. When the machine operates with the application of glue, the fold of the blanket material is not formed.
[065] With reference to the sequence of Figures 9A to 9J, the glue-free operation mode will be described.
[066] First, the rotating distributor 5 collects from the trough 3 a roll R coming from a downstream machine; the roller is then inserted between the lower motorized roller 49 and the lower branch 13A of the flexible member 13. The members 49 and 13 move at substantially equal peripheral speed and in such a direction that the roller R rotates in the winding direction (Figure 9A). At the point of contact of roller 49 and the lower branch 13 A of flexible member 13 with roller R, the speed is the same and the direction is different; the geometrical axis of the roller R therefore remains in a substantially fixed position, while the roller R rotates about it.
[067] Nozzles 71 generate G2 air jets; when the final end L is in the area of action of said air jets G2 (Figure 9B), it is then unrolled and stretched on the lamination surface below, defined by the upper branch 27A of the continuous flexible member 27 and the upper wall 23A of the suction box 23 along which the upper branch 27A of the continuous flexible member 27 extends. A segment of blanket material wrapped around roll R is therefore wrapped and stretched below sensor 77, see Figure 9C.
[068] Continuing the rotating movement of the motorized roller 49 and the movement of the upper flexible member 13, the mat material N is gradually rewound onto roller R. As the final end L is detected by sensor 77 (Figure 9D), the latter it generates a signal sent to a central control unit 100 (Figure 1), with which they are in contact and with which the various motors of the machine are controlled. With this signal, the movement of the motorized roller 49 and the upper flexible member 13 is reversed, so that these two members move again at equal speed, but so that the roller R rotates about its own geometric axis (substantially fixed) in the opposite direction to cause the blanket material to unwind. In this step, the lower flexible member 27 also moves in the direction indicated in Figures 9A, 9B, so that a given length of mat material is unwound from the roll R and stretched on the unwinding surface defined by the upper branch 27A of the flexible member bottom 27 and the top wall 23A of the suction box 23. This unwinding step is interrupted when an appropriate length of mat material has been unwound, slightly larger than the circumference of the roll R (Figure 9F). This length can be determined using an additional optical sensor that is similar to sensor 77 and can be properly arranged between the branches of the upper flexible member 13 along the path of the R roll. In another embodiment (not shown), the length of the material of unrolled mat is controlled based on time, that is, the movement of the roller 49 of the upper flexible member 13 as well as of the lower flexible member 27 is maintained for a time that, multiplied by the unwinding speed of the roller R, generates the length uncoiled required. The length can also be controlled via an encoder associated with one of the moving members 49, 13, 27. The signal from the optical sensor 77 is the starting point of the measurement performed by the encoder or another position sensor.
[069] Once the desired length of blanket material has been unwound, members 49 and 13 stop; the pneumatic system constituted by the suction through the ducts 67 and / or the air jets through the nozzles 69 is then acted to generate a fold F of the mat material below the surface 51, forming two transverse portions of mat material arranged between the surface pressure 63 and the ends 57A of the swing arms 57. The bend F is formed at a distance from the end end of the mat material that is slightly greater than the circumference of the roll or cylinder R, so that the end end L can be mechanically anchored in fold F, as described in more detail below, once the previously unrolled portion of blanket material has been rewound around the roll.
[070] The suction and / or air jets through the nozzles 69 can be maintained as long as necessary to generate and stabilize the transverse fold F in the blanket material N. The fold is stabilized by the oscillation of the arms 57 through of the actuators 61 so that the ends 57A of the arms 57 press with high pressure located against the pressure surface 63. The two opposite portions of mat material that define the fold F are thus joined by means of the mechanical effect of the high pressure located by the 57A ends of arms 57. This operation stabilizes the fold.
[071] In practice, fold F is formed by two strips or portions of blanket material moved to and joined to each other, defined by three fold lines parallel to each other and to the geometric axis of the R roll.
[072] In a modified embodiment, the two strips or portions of mat material that define the fold F can be connected together by means of one or more blade mechanical link rollers similar to the mechanical blade link rollers 91 described above. In a modified modality, the mechanical connection of the two opposite strips that define the fold F can occur by means of points, needles, projections or similar, which pierce the two strips. These members are suitably shaped so as to cause, by entering and / or exiting the mat material, such a rupture of that mat material to obtain a localized connection due to tearing, perforation or other mechanical action in the submitted N mat material. mechanical action.
[073] When this operation is finished, the transverse fold F generated in the mat material N unrolled from the roll R is adequately stabilized, so that the subsequent rewinding takes place keeping a folded strip and projecting from the last lap of the blanket material, as shown in Figure 9G.
[074] In the subsequent step, the roller R is moved forward along the path P between the lower branch 13A of the upper limb 13 and the suction box 23 as well as the upper branch 27A of the continuous flexible lower member 27 due to the movement of the flexible member 13 and lower continuous flexible member 27, while roller 49 can be stopped, slowed or rotated in the opposite direction. The lower flexible member 27 may remain fixed, but it is preferably movable to facilitate the forward movement of the roller R along the path P with a translation and lamination movement on the lower unwinding surface by the branch 27A of the lower flexible member. 27.
[075] By modulating the speed of the flexible upper limb 13 and the continuous flexible lower member 27, it is possible to move the roller R forward and roll it up gradually, but still maintain a segment of blanket material unrolled between the roller and the final end L of it. In this way, advancing continuously, the roller R is positioned above the suction box 25 between the latter and the upper flexible member 19 with the final end L arranged almost in correspondence with the space 81, that is, in correspondence with or slightly downstream the upper corner of the crossbar 83, as shown in Figure 9H. This position is detected through optical sensor 79. To reach this position, the forward movement of the roller along the path P is obtained not only through the movement of the upper flexible member 13 and the lower flexible member 27, but also through the movement of the upper flexible member 19 in combination with the movement of the lower flexible member 39 along the suction box 25.
[076] As shown in Figure 9H, when this forward movement is completed, controlled by means of sensor 79, the roller R is close to the crossbar 83 with the final end L below the lamination surface defined by the upper branch 39A of the member lower flexible 39. The end end L is sucked down by suction in that area generated by the suction member (not shown) and / or by the air jets of the nozzles 101.
[077] Once that position has been reached, the lower flexible member 39A stops and the roller R continues to move forward by lamination on the fixed upper branch 39A of the continuous flexible member 39 due to the continuous movement effect of the flexible member upper 19, until the fold F previously formed and stabilized by means of the member 57 is positioned adjacent to the final end L which, meanwhile, has been sucked or pushed by the jets of the nozzles 101 into the space 81 against the crossbar 83.
[078] Figure 9I shows the final arrangement of the roller R with the final end Lea fold F in the space 81 adjacent to the crossbar 83.
[079] Once that position has been reached, the final end L is actually sealed by mechanical joining or mechanical attachment of blades by means of the mechanical attachment roller 91.
[080] For this purpose, actuators 98 control the oscillation of the mechanically connected roller blades 91, in order to press their annular edges 93 against the crossbar 83. The slides 89 are simultaneously moved parallel to the geometric axis of the R roller. The more advantageously the mechanical link rollers 91 are provided, the stroke of the slides 89 according to the arrow f89 (Figures 5 and 6) can be almost equal to the distance between the mechanical link rollers 91, indicated by PI in the Figures 5 and 6. In some cases, the stroke may be slightly greater than the PI spacing, to consider that, during the movement stage of the mechanical linkage rollers 91 towards the crossbar 83, the pressure exerted by the mechanical connection of blades 91 may not be sufficient to mechanically connect these layers of mat material together correctly, forming the fold F (the first two layers) and the final end L ( the third layer).
[081] The mechanical link rollers for blades 91 are advantageously mounted inactive on their support axis and the roll on the crossbar 83, pressing the three layers of mat material that form the fold F and the final end L against each other . A particularly effective mechanical connection is achieved if the annular edge 93 of the mechanical blade connecting rollers is serrated, that is, provided with a surface notch, reducing the contact surface between the mechanical blade connecting roller and the mat material .
[082] The high pressure exerted by the annular edge 93 of the mechanical lamination link roller against the pressure surface defined by the crossbar 83 causes the mechanical union of the final end L in the fold F. Substantially, the cellulose fibers of the three layers of blanket material that forms the final end L and fold F merge locally, at the points of greatest pressure, thus closing the roll R.
[083] In other embodiments, the mechanical connection between the end L and the bend F may occur not through localized pressure, but instead through properly shaped drill members, for example, needles or tips similar to those used for mechanical interlacing. These members can be transported by the idle rollers, similarly to the mechanical blade link rollers 91.
[084] The roller R with the end end L mechanically anchored to the fold F is then unloaded from the machine along the outlet rail 86 through the continuous flexible member 19 which, once the mechanical connection of the end end has been carried out, is driven in motion to control the rolling and unloading of the closed roller R roller (Figure 9J).
[085] In this operating mode, the glue dispensing nozzles 97 are inactive.
[086] The transverse movement of slides 89 can be performed alternately in one direction and in the opposite direction, in order to reduce the times and movements performed by the machine.
[087] When the end end L needs to be sealed by gluing and not by mechanical connection, the mechanical link rollers for blades 91 remain inactive, that is, in the position shown in Figures 7 and 8, while the glue distribution nozzles 97 are acted upon. The operating cycle in this case is simpler and schematically illustrated following Figures 10A to 10E. The mechanism that generates the fold B (pressure member 55 and associated pneumatic members) remains inactive. The roller R is inserted into the machine (Figure 10A) and the end L of it is unrolled and placed in a defined position (Figure 10B) according to the methods known to those skilled in the art. The roller is then moved forward to the position of Figure 10D, with the final end L inserted in the cavity or in the space 81, where it is kept stretched through the suction generated by the suction member and / or jets of air generated by the nozzles 101.
[088] Glue dispensing nozzles 97 are actuated to spray a dose of glue onto the blanket material. In the example illustrated in the sequence of Figures 10A to 10E, the position of the glue dispensing nozzles 97 is such that the glue is sprinkled on the end end L and, more particularly, on the surface of the same which, subsequently, during unwinding of the end end L, will be placed in contact with the cylindrical surface of roller R.
[089] In contrast, with the adhesive dispensing nozzles 97 as shown in Figure 7, the adhesive will be sprinkled on the outer surface of the roller R, in an area that will subsequently be covered by the final end L, when the last one is rewound.
[090] The glue dispensing nozzles 97 are moved according to the arrow f89 by movement of the slides 89 that carry them, similarly to what happens in the case of mechanical connection of blades with the mechanical connection roller of blades 91. A Transverse translation is accomplished by a stroke that can be limited to the PI spacing between the glue distribution nozzles 97. In this way, a continuous line of glue is applied.
[091] It is also possible to apply glue in a different way, for example, keeping the glue dispensing nozzles 97 fixed, or moving them according to the arrow f89, but making them distribute intermittently during displacement, in order to apply the glue in segments. In other operating modes, the transverse stroke according to f89 can be less than the spacing PI, so that even if the glue is applied continuously, it will be applied in segments.
[092] Once the glue has been applied, the roller R is moved towards and along the outlet rail 86, along which there is a roller 88 which, together with the guide member 21, chokes through which the roller R passes. In a known manner, the speed of the roller 88 can be controlled so that the roller R rotates about its own axis, making one or more revolutions to press the final end L against the outer surface of the roller R, stabilizing, thus, the collage.
[093] If the final end L is not positioned correctly, for example, it is bent and not stretched, or it will have defects, such as tears, holes or the like, to prevent the glue from sticking to the machine, the application of glue is interrupted in correspondence with the areas where there is no mat material to be glued in freight to the glue dispensing nozzle 97. The sensors 99A, 99B on both sides of each glue dispensing nozzle 97 allow to check the presence of mat material at each point in the path of the glue dispensing nozzle 97, regardless of the direction in which the glue dispensing nozzle 97 is moving, so that the control unit 100 has enough time to inhibit the application of glue when no blanket is detected.
[094] In some embodiments, the mechanical link rollers for blades 91 can be designed to model the end end L and the fold F of the roll R, for example, to print a logo, writing or engraving pattern on decorative relief. Figure 11 shows a longitudinal cross-section of a mechanical linkage roller 91 designed to perform this type of treatment. The same numbers indicate equal or equivalent parts to those of the modalities described in reference to the previous Figures. For example, the mechanical linkage roller 91 may have a cylindrical body 121 held inactive through a bearing 123 on an axis 125 mounted on the support bracket 96. In the body 121, a disc-shaped element 127 is applied, forming the serrated annular edge 93.
[095] Around the cylindrical body 121, a ring 129 is applied, made of an elastically malleable material, for example, synthetic rubber, forming an outer surface preferably smooth and substantially cylindrical. This elastically malleable ring 129 cooperates with a bar 131 housed in a seat obtained in the cross bar 83. The bar 131 has, for example, a flat notched surface, facing the mechanical link rollers of blades 91. The notch is the logo, writing, reverse drawing or other embossing pattern to be generated at the end end L of the roll during mechanical bonding of blades. When the mechanical link roller of blades 91 rolls onto the flat notched surface of bar 131, the mat material is embossed between the notched surface of bar 131 and the elastically malleable material of ring 129 in order to print the embossing pattern notched in the blanket material. Bar 131 is advantageously interchangeable so that it is easy to modify the embossing pattern.
[096] Figures 12 and 13 show schematically the result of a mechanical sealing operation of the final end L of a roller R through the mechanical link rollers of the type illustrated in Figure 11. Figure 12 shows a portion of a roller or a cylinder, that is, a small roller obtained by cutting a roller or a cylinder of greater axial length sealed by means of the machine described above. M indicates a mechanical blade connection line and G indicates the embossed area of the blanket material. F indicates the fold at which the end L of roll R is anchored. F1, F2 and F3 indicate three fold lines that form the fold F of the blanket material, which the final end F is connected in sheets. In this exemplary embodiment, the final end L protrudes radially beyond the fold F, but this is not strictly necessary.
[097] Although the particular modalities of the invention have been described above in reference to the attached drawings, those skilled in the art will understand that modifications, changes and omissions, without, however, departing from the innovative teaching, principles and concepts described above. However, the scope of the described invention should be determined only on the basis of the broader interpretation of the appended claims, in order to understand all modifications, changes and omissions. In addition, the order or sequence of any step in the method or process can be changed according to alternative modalities. Any reference numerals in the attached claims are provided to facilitate the reading of the claims in reference to the description and design and do not limit the scope of protection represented by the claims. The terms "understand", "understand" and the like do not exclude the presence of other elements or steps in addition to those listed in a claim. The term "one" or "one", before an element or resource, does not exclude the presence of a plurality of those elements or resources. The term "means" often used in a claim does not exclude the possibility that two or more of these means are acted upon through a single element or component. The fact that given resources, elements or components are cited in different dependent claims does not exclude that at least some of these resources, elements or components can be used in combination together.

权利要求:
Claims (19)
[0001]
1. A machine for closing the final end (L) of a roll (R) of mat material (N) comprising: a first glue application device (97) for closing said end end (L); characterized by the fact that it further comprises a second mechanical closing device (91) for mechanically sealing the end end (L) by anchoring the end end (L) of the roll (R) in a portion of an outer loop of the mat material ( N) wound on the roll (R).
[0002]
2. Machine according to claim 1, characterized by the fact that said first device (97) and said second device (91) are arranged and controlled so as to operate alternating with each other.
[0003]
Machine according to claim 1 or 2, characterized in that said second device comprises a plurality of mechanical blade connecting members (91).
[0004]
4. Machine, according to claim 3, characterized by the fact that said members of mechanical blade connection (91) are arranged aligned with each other in a direction parallel to the final end (L) of the roller (R) of blanket material (N).
[0005]
5. Machine according to claim 3 or 4, characterized by the fact that each mechanical blade link member (91) can move between an operating position and a resting position.
[0006]
Machine according to any one of claims 3 to 5, characterized by the fact that each member of the mechanical blade link comprises a mechanical blade link roller (91).
[0007]
7. Machine, according to claim 6, characterized by the fact that each roller of mechanical connection of blades (91) is transported by a respective slide (89), in which the slides are provided with synchronous movement parallel to the final end ( L) to be closed.
[0008]
8. Machine, according to claim 7, characterized by the fact that said slides (89) are mechanically connected to each other for synchronous movement.
[0009]
9. Machine according to claim 7 or 8, characterized by the fact that each slide (89) carries an actuator (98) respectively to: push the respective mechanical link roller (91) against a laminating surface and pressure (83) and transport the mechanical link roller (91) in a resting position.
[0010]
10. Machine according to any one of claims 6 to 9, characterized in that said mechanical blade connection rollers (91) comprise: a first serrated annular portion (93), which cooperates with said laminating surface and pressure (83); a second, elastically malleable annular portion (129), which cooperates with an embossing surface (131) provided with a notch, in which the mat material (N) pressed between the embossing surface (131) and the second elastically malleable annular portion (129) of each blade mechanical link roller (91) is embossed with a pattern (G) defined by said notch.
[0011]
Machine according to any one of claims 1 to 10, characterized in that said first glue application device comprises a plurality of glue dispensing nozzles (97), arranged and controlled so as to apply glue to the end end (L) of the roll (R).
[0012]
Machine according to claim 11, characterized in that said glue dispensing nozzles (97) are aligned in a direction parallel to the end end of the roll (R).
[0013]
13. Machine according to claim 11 or 12, characterized by the fact that a respective mechanical blade connecting member (91) is associated with each adhesive dispensing nozzle (97).
[0014]
Machine according to any one of claims 11 to 13, when dependent on claim 7, characterized by the fact that each glue dispensing nozzle (97) is transported by one of said slides (89).
[0015]
Machine according to any one of claims 11 to 14, characterized in that said glue dispensing nozzles (97) have an adjustable inclination to alternatively apply glue to the end end (L) or the cylindrical surface of the roller .
[0016]
16. Machine according to any one of claims 11 to 15, characterized by the fact that at least one sensor (99A, 99B) is associated with each adhesive dispensing nozzle (97) to detect the presence of the final end (L ) of the roll (R).
[0017]
17. Machine according to any one of claims 11 to 16, characterized by the fact that two sensors (99A, 99B) are associated with each adhesive dispensing nozzle (97) to detect the presence of the final end of the roller, in that said two sensors (99A, 99B) are arranged on the sides of the nozzle (97), aligned in a direction parallel to the final end (L) to be glued.
[0018]
18. Machine according to claim 16 or 17, characterized by the fact that each glue dispensing nozzle (97) is inhibited by the signal from the respective sensor (s) (99A, 99B), when the said sensor (s) does not detect the presence of the final end (L) to be closed.
[0019]
19. Machine according to any one of claims 11 to 18, characterized in that said nozzles (97) are inhibited when said mechanical blade connection members (91) are actuated and vice versa.

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法律状态:
2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

2019-10-01| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

2020-08-11| B09A| Decision: intention to grant|

2020-10-20| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 12/07/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

IT000156A|ITFI20120156A1|2012-07-27|2012-07-27|"MACHINE TO CLOSE THE FINAL HALF OF A ROLL OF RIBBED MATERIAL"|

ITFI2012A000156|2012-07-27|

PCT/IB2013/055731|WO2014016725A2|2012-07-27|2013-07-12|Machine for closing the tail end of a roll of web material|

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