This invention refers to the formation of rolls in film plastic material, in particular to a method and an apparatus for corrugating and winding up rolls of a plastic film which is provided with a plurality of crosswise corrugations or pleats, extending between opposite open-end side edges, as the plastic film is wound up into a roll.
Although the invention finds its application in the production of rolls of plastic films for packing and/or wrapping loads, the aforementioned method and apparatus prove to be particularly suitable for winding up coreless rolls, or rolls with a soft core made of thin cardboard, for example 1 or 2 mm thick, by an extensible stretchable plastic film.
It is well known that stretchable plastic films are widely used for packing and wrapping palletized loads, in order to give the load the necessary protection and stability.
Usually a plastic film can be produced by linear or circular extrusion heads, and subsequently wound up into rolls having weight and size suitable for the manual wrapping of a load, or by an automatic wrapping machine.
The plastic film can be wound up into rolls either around a rigid tubular core, generally of cardboard or plastic material, having a wall thickness of 3 or 4 mm, or made of thin cardboard, or directly wound around itself thereby forming a so-called “coreless” roll.
In the production of rolls of a stretchable plastic film, several problems arise caused by the natural adhesiveness of the plastic material, and by the elastic memory of the same plastic film after has been stretched; these problems can lead to the production of faulty rolls, or to the implosion of the rolls themselves if wound up without any internal supporting core, or with a core of a thin cardboard.
In order to partially solve these problems, EP 0.728.102 suggests the use of a textured roller provided with a peripheral teething for partially deforming the plastic film, embossing a plurality of small pockets suitable to trap air in the rolled film, during the winding; the trapped air will tend to prevent adhesion between the turns of the roll, and facilitates the subsequent unwinding of the film. This solution however does not prevent any possible deformation and implosion of the rolls both at the winding and over time, caused by the shrinkage due to the elastic memory of the film.
In turn, WO 05/123555 suggests the use of a grooved drawing drum having a peripheral surface provided with a plurality of longitudinally extending grooves to shape or fold the plastic film with a plurality of crosswise pleats, or open-end corrugations, which extend crosswise between the opposite side edges of the film; the plastic film is urged and folded into longitudinal grooves of the drawing roller, by air jets as it is continuously made to move towards a roll being wound.
Although this solution has allowed a substantial improvement and the formation of rolls of regular diameter and shape, in which any incidental yielding or implosion of the turns is substantially compensated by a controlled flattening of the crosswise pleats, made possible by venting air from the open ends of the pleats, further improvements are however possible in the method of corrugating or folding the crosswise pleats, as well as in the apparatus.
In the case of extensible or stretchable films, a different behaviour was in fact noted, both during the winding up of the rolls and subsequently, depending upon whether the plastic film is extruded in a flat or tubular form, due to the different molecular orientation resulting from the different stretching conditions, and from the different elastic memory of the plastic films.
While on the one hand, the use of air jets to fold and cause the plastic film to penetrate into the longitudinal grooves of a drawing and corrugating drum, as proposed in WO 05/123555, has enabled the production of wholly regular rolls, reducing any risk of implosion, from tests and experiments subsequently carried out it was found that in certain cases, or with certain types of plastic film, it does not allow an adequate control of the corrugations, in the forming of the pleats, and in the winding up of the film. On the contrary, the tests carried out proved that this control of the corrugations is necessary in order to compensate a different shrinkage degree of the plastic material both during the winding up of the roll, and over time, due to the different elastic memory of the same films; it was also noted that the action of the air jets some times is opposed by the cushioning of air that remains trapped between the film and the grooved drum, especially at high winding revolutions, which causes a certain lateral instability in the positioning of the film both on the grooved drum and on the roll being wound.
The main object of this invention is therefore to provide a method and an apparatus for corrugating and winding up plastic film into rolls, capable of obviating the drawbacks of the previously known methods and devices, by means of which it is possible to wind up rolls with or without an internal supporting core, in a controlled manner and of a wholly regular shape.
A still further object of the invention is to provide a method and an apparatus of the aforementioned kind, by means of which it is possible to control the effect and the corrugation depth of the plastic film, depending upon the characteristics of the same film to be wound, and of the rolls.
A still further object is to provide a method and an apparatus for corrugating and winding up plastic films into rolls, by which it is possible to further reduce any deformation risk of the rolls caused by an implosion of its turns, or by an uncontrolled shrinkage of the film itself, over the time.
The invention is particularly applicable for producing rolls of stretchable plastic films wound either around a rigid or soft tubular core, or for producing coreless rolls.
According to a main feature of the invention, use is made of a grooved drawing drum for corrugating a plastic film material to be wound onto a roll, said grooved drum with a plurality of longitudinally extending grooves and air suction holes opening into the corrugating grooves and means to connect the air suction holes to an air suction source and to allow a controlled penetration and folding of the plastic film into the grooves of the drawing drum during the winding up of the film onto the roll.
These and further characteristics of a method, a corrugating drum, and an apparatus for winding up rolls of plastic films, as well as a preferential embodiment, will be more clearly evident from the following description, with reference to the drawings, in which:
With reference to
In
The film 10, preferably in a pre-stretched state, is made to move between a first drawing assembly 13 and a second drawing assembly 14, between which a tension control device 15 is disposed for controlling the tensioning of the film, before to be wound.
In particular, the first drawing assembly 13 comprises a pair of drawing rollers 16, 17 one of which is operatively connected to a driving motor 17,; the control device 15 suitable for balancing the tensioning of the film 10 in turn comprises a pair of spaced apart and parallely arranged idle rollers 18, 19, between which an upwardly oriented loop 20 of the film 10 is formed and supported, in a freely floating condition, by an air jet generated by a nozzle 21; reference number 22 in
The second drawing assembly 14 in turn comprises a grooved and perforated drawing drum 23 rotatably and pivotally supported to be urged against the roll 11; the drawing drum 23 in turn is connected to a respective driving motor, not shown, to cause the plastic film 10 to move towards the roll 11 drawing the same roll 11 into rotation.
As more clearly shown in the remaining figures, the drawing drum 23 is conformed with a plurality of longitudinally extending outer grooves 31 open frontally and at both ends, into which the plastic film 10 is made to penetrate to form a plurality of pleats or cross corrugations, open at both ends, which extend between the two opposite side edges of the film 10.
As shown in
The tubular shaft 24 has a side wall provided with through holes 24′ which put into fluid communication the suction chamber 23′ of the hollow body of the drum 23 with the tubular shaft 24, thereby enabling the air into the outer grooves 31 of the drum 23 to be sucked into the suction chamber 23′ through radial holes 28, and consequently the plastic film 10 to be sucked and folded into the grooves 31, in correspondence with a contact area of the film 10 with the drawing drum 23, as shown in
The quantity of air sucked through the holes 28 in the drum 23, can be changed and appropriately adjusted in any suitable manner, for example by means of the valve control device 27 for changing the air flow, or by adjusting the speed of the suction pump 25, or by any other suitable means.
As shown in
The suction of the air in the contact area between the drawing drum 23 and the plastic film 10, tends to cause the plastic film to adhere and be sucked into the longitudinal grooves 31, thereby shaping the plastic film 10 with corrugations consisting in a plurality of crosswise pleats or folds 10A open at both ends which, during the progressive winding up of the film onto the roll 11, retain a small quantity of cushioning air to prevent the superimposed turns of the wound film to adhere each other, as well as a slight stress relieving and relaxation of the film, both during the winding onto the roll 11, and subsequently.
In fact, the formation of open-end crosswise pleats 31, makes it possible to compensate any elastic shrinkage of the plastic film, both during and after the winding of the roll 11; consequently it makes possible to obtain perfectly cylindrical rolls of regular shape, preventing their implosion and tightening of the internal turns which, in the case of coreless rolls or rolls with a soft core would cause a deformation of the central hole of the same roll which tends to prevent the insertion of a mandrel, for unwinding the film during the wrapping of a load.
The air suction holes 28, 281 can be anyway shaped and disposed along the longitudinal grooves 31 of the drum 23; one possible example is shown in
Schematically, in the example of
In particular, the holes 28 of the central area L1 have a pitch P1 of a pre-established value, while the holes 28 in the intermediate areas L2 have a pitch P2 equal to or greater than P1, for example double the length. This can be obtained by any disposition of the holes 18; for example, it can be achieved by maintaining a same axial space between the holes along the grooves 31, and staggering the holes of each groove with respect to the holes of the adjacent ones, or providing suction holes 28, differently spaced apart on all or some of the grooves 31.
Obviously, it is possible to contemplate any other disposition of the suction holes, of such kind as to maintain a greater number or concentration of holes 28 along a central section of the drum 23, and a smaller number of suction holes on the opposite side areas 42.
A greater concentration of suction holes 28 in the central area L1, has proved to be particularly advantageous in that it offers the possibility of causing, at the central portion of the drum 23, a greater suction force on the plastic film 10 and penetration into the grooves 31, allowing a certain air to flow from the ends towards the centre of the grooves themselves, thereby avoiding the formation of air pockets and, consequently, of irregular pleats or corrugations in the wound up film.
In the example of
The diameter of the holes 2S, the length, the depth and the width of the grooves 31, as well as the angular space between adjacent grooves can be of any size whatsoever, and must be chosen each time depending on specific requirements, and the characteristics of the plastic film to be wound.
Successful experiments have been carried out with perforated drums having a maximum diameter ranging from 150 to 180 mm, in which the holes 28 had a diameter ranging from 1.5 to 2.5 mm, an angular pitch between grooves ranging from 2° to 3°, and a pitch P between holes 28 along the same groove 31 ranging from 30 to 50 mm.
In the tested drums, the holes 28 all had a same diameter, however the use of holes of different diameters in the same drum could be also considered.
In fact, depending upon the working conditions of the apparatus, for example the speed and/or the thickness of the film, or for other causes, the plastic film 10 could have a certain instability or tendency to shift sideways, with the consequent winding of faulty rolls.
Consequently, according to a further feature of the invention, in correspondence with each end of the drawing drum 23, use of one or more nozzles 32 has been made for the ejection of air jets which urge and maintain the lateral edges of the plastic film 10 against the drum 23, preventing the same film from shifting sideways. Both nozzles 32 are connected, by a pressure adjusting valve 33, to a pressurised air source 34.
From what has been described and shown in the accompanying drawings it will be clear that a method and an apparatus are provided for winding up rolls of plastic film, wherein use is made of a grooved and perforated drum, connectable to a vacuum source, both in order to corrugate and to draw the plastic film, forming a plurality of cross folds or corrugations which extend between the opposite side edges of the film, as the latter is wound up around into a roll.
It is understood therefore that what has been described and shown with reference to the drawings, has been given purely by way of example in order to illustrate the general characteristics and those of preferential embodiments of the invention; consequently, other modifications or changes may be made, to the grooved and perforated drum, to the apparatus and to the film winding method, without departing from the claims.
Number | Date | Country | Kind |
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MI2007A001133 | Jun 2007 | IT | national |