CAPSULES FOR BOTTLE TOPS , MACHINE FOR PRODUCING COVERING CAPSULES FOR BOTTLE TOPS , AND CUTTING METHOD" DESCRIPTION

[0001] This invention relates to a cutting assembly for a machine for producing covering capsules for bottle tops , a machine for producing covering capsules for bottle tops , and a method for cutting a thin strip for producing a covering capsule for bottle tops .

[0002] It is known in the art to use covering capsules for bottle tops , that is , decorative and protective cork covers for bottles , typically wine bottles , or for other uses , in which covering the top is required and, when necessary, part of the bottle neck . The aforesaid cork covers , also known in the art as bottle capsules or wine capsules , are typically made o f Polyvinyl chloride ( PVC ) , or PET or aluminum or aluminum polylaminate and PET or of more or less shrinkable materials .

[0003] The capsules made of PVC are very popular for versatility, economy, and ease of application as a safety seal .

[0004] For producing the aforesaid capsules , machines suitable for producing the correct capsule geometry from a sheet of PVC or aluminum (polylaminate ) are known in the art . [0005] The machines of the prior art divide the activity into two main sections . In the tail section, the machining takes place on the body of the capsule . In particular, in the tail section, a sheet of plastic or aluminum material is unwound from a reel in the form of a single thin strip . In a first step, the thin strip is cut and then passed through a dandy roll , which allows the transition of the strip from a continuous to an intermittent movement , facilitating the execution of subsequent processes . Subsequent processes comprise printing and engraving for the insertion of a small strip that will facilitate tearing the capsule during opening .

[0006] In the head section of the machine , the sheet advances by successive steps to be portioned and wound on a spindle . In this section, the portion of thin strip ( the so-called " leaf" ) , is picked up by a suction device placed between two knives for cutting the strip .

[0007] Once the strip has been cut by the knives ( or blades ) , the thin sheet obtained is placed under a spindle and wound on the latter, after having undergone a gluing operation, so as to form the shell of the capsule ( generally in the shape of a truncated cone ) .

[0008] Then, by means of a rotary table , the wound sheet i s conveyed first under a hot air gun to make the excess material on the spindle head shrink and then to a further step of gluing a disc to close the capsule shell , i . e . , to form the upper closing base of the truncated cone .

[0009] The finished capsule is then cooled by an air j et and trimmed to the required height .

[0010] Unfortunately, during the cutting stage , the machines of the prior art are subj ect to a high production of waste and therefore are not very ef ficient . In particular , this is due to the need to use a pair of blades , the first blade being intended to separate the sheet from the strip attached to the reel and the second blade to def ine the shape of the f rustoconical capsule , while generating waste .

[0011] A part of the residual material is removed from the cutting area by a blower and the resulting truncated cone is maintained adhered to a carriage for transport to the next station by means of a suction unit .

[0012] It is clear, therefore , that the machines of the prior art suf fer from numerous limits linked to low ef ficiency, excessively large overall dimensions due to the presence of two cutting blades and the relative actuation mechanics , as well as work speeds limited by the mechanics of the blade movements , their replacement due to wear, and the need to modi fy the blades or their arrangement every time a change of capsule layout is required .

[0013] Therefore , there is a strong need to propose a cutting assembly for machines for producing covering capsules for bottle tops , and a thin strip cutting method for producing covering capsules for bottle tops , which are able to overcome the aforesaid drawbacks of the prior art .

[0014] Said requirement is satis fied with a cutting assembly for a machine for producing covering capsules for bottle tops , with a machine for producing covering capsules for bottle tops , and a cutting method, according to the appended independent claims . The dependent claims describe preferred or advantageous embodiments .

[0015] The features and advantages of the cutting as sembly for a machine for producing covering capsules for bottle tops , of the machine for producing covering capsules for bottle tops , and of the cutting method will in any case be evident from the following description of their pre ferred embodiments , provided by way of non-limiting example , with reference to the accompanying figures , wherein :

[0016] Fig . 1 is an axonometric view of a machine for producing covering capsules for bottle tops according to an embodiment of this invention;

[0017] Fig . 2 is an axonometric view of the machine in Fig . 1 , from another viewing angle ;

[0018] Fig . 3 is an example of a covering capsule for bottle tops obtainable from a machine for producing covering capsules for bottle tops according to this invention . [0019] With reference to the aforesaid figures , reference numeral 1 has been used to indicate a cutting assembly 1 for a machine 100 for producing covering capsules 2 for bottle tops .

[0020] Fig . 3 is an example of a covering capsule 2 obtainable through the machine 100 , provided with a cover 20 and a head dis k 21 enclosing the base of the cover 20 . Said covering capsules 2 are typically used for covering tops and necks of wine bottles or the like and are also known as wine capsules .

[0021] According to the invention, the machine 100 for producing covering capsules for bottle tops comprises a strip unwinding assembly known to the person ski lled in the art (not shown) , suitable for unwinding a strip made of a plastic material or a metal material , such as PVC, PET or aluminum polylaminate , for producing a covering capsule 2 .

[0022] The machine 100 further comprises a dandy roll assembly, also known to the person skilled in the art and not shown in the figures , arranged downstream of the strip unwinding assembly and suitable for trans forming the transition movement of the thin strip from a continuous movement to an intermittent movement .

[0023] A cutting assembly feeding station 5 of the machine 100 is arranged downstream of the dandy roll assembly and is suitable for transporting the thin strip to a cutting assembly 1 and in particular to a support table 10 of the cutting assembly 1 .

[0024] The cutting assembly 1 , per se a subj ect of this invention, comprises a support table 10 , suitable for supporting the thin strip made of a plastic material or a metal material for producing a covering capsule 2 .

[0025] The cutting assembly 1 further comprises a support table movement unit 12 suitable for moving the support table 10 from a cutting position C, in which the support table 10 is arranged to allow the cutting of the thin strip for obtaining a thin sheet 11 , to an unloading position U, in which the support table is spaced apart from the cutting position C and is positioned close to a next work station, for example a winding station 31 , i . e . , close to a spindle 3 for winding the thin sheet 11 so as to form the cover 20 of the capsule .

[0026] Additionally, the cutting assembly 1 comprises a laser unit 4 , positioned close to the cutting position C and comprising a laser head 41 suitable for emitting a laser beam for laser cutting the thin strip when the support table 10 is in the cutting position C so as to obtain a thin sheet 11 intended to be then directly wound in the winding station 31 , for example around a spindle 3 . [0027] According to one embodiment , the laser unit 4 comprises a cros spiece 42 for supporting the laser head 41 . Said laser head 41 is thus supported by the supporting crosspiece 42 above and in a manner spaced apart from the support table 10 when said support table 10 is in the cutting position C .

[0028] According to one embodiment , the support table movement assembly 12 comprises a carriage 120 which is translatable along a longitudinal direction X . In this variant , the carriage 120 supports the support table 11 and is translatable along said longitudinal direction X from the cutting position C to the unloading position U .

[0029] According to an advantageous embodiment , the cutting assembly 1 comprises suction means , not shown . In this variant , the support table 11 comprises suction openings 110 operatively connected to the suction means , so that said suction openings 110 are suitable for sucking up the thin strip when arranged on the support table 10 to hold it in place during laser cutting to obtain the thin sheet 11 .

[0030] In this discussion, it is therefore clear that the term "thin strip" refers to the initial thin strip that is unwound in its entirety from a reel for subsequent cutting operations , while the term "thin sheet" 11 refers to a discrete thin sheet , obtained downstream of the laser cutting step and that already has the ideal and final geometry to be wound by a subsequent winding station for the formation of the cover of the covering capsule 2 .

[0031] It is clear, therefore , that the machine 100 according to this invention also comprises a winding station 31 , arranged downstream of the cutting assembly 1 and comprising one or more spindles 3 suitable for receiving the thin sheet 11 cut by the cutting assembly 1 for winding it about the spindle to form the cover 20 of the capsule 2 .

[0032] Preferably, extremely advantageously, the machine 100 is devoid of a blower device for removing the waste generated in the step of cutting the thin strip when the support table 10 is in the cutting position C . This is enabled by the fact that laser cutting allows precise cutting of the desired shape of the thin sheet 11 to be performed immediately .

[0033] According to an advantageous embodiment , the cutting assembly feeding station 5 is configured to carry the thin strip along a main transport direction Y, substantially perpendicular to the longitudinal direction X of translation of the carriage 120 . This results in a machine that is much more compact with respect to the machines of the prior art .

[0034] It is moreover an obj ect of this invention to provide a method for cutting a thin strip for producing a capsule 2 for bottle tops , preferably produced by means of a machine 100 described in the preceding paragraphs .

[0035] The method comprises the following operating steps , in the stated order :

[0036] - feeding a thin strip from a cutting assembly feeding station 5 towards a table 10 for supporting the thin strip ;

[0037] - cutting the thin strip by laser cutting performed by a laser unit 4 for obtaining a thin sheet 11 arranged on the support table 10 ;

[0038] - moving the support table 10 to a winding station 31 for winding the thin sheet 11 .

[0039] Preferably, in the step of cutting the thin strip, the method provides for the laser unit to perform the laser cut at a speed of between 0 . 5 m/ s and 3 m/ s , preferably at a power of between 20W and 60W . This results in optimum cutting cycle times for a thin sheet with a thickness of about 0 . 1 mm, for example between 0 . 08 and 0 . 12 mm .

[0040] Preferably, the method comprises the step of preloading a virtual drawing of the laser cut to be made on the thin strip onto a storage medium and sending cutting commands to the laser unit 4 according to the preloaded virtual drawing .

[0041] Innovatively, thi s invention overcomes the drawbacks of cutting assemblies and machines of the prior art .

[0042] In particular, due to the presence of the laser cutting unit , it is possible to obtain a considerable reduction of the overall dimensions with respect to the machines of the prior art . Moreover, synergistically to the reduction of the overall dimensions , the presence of the laser cutting unit allows for the two cutting steps which are required by the machines of the prior art to be reali zed in only one cutting step, that is , the first cut for detaching from the strip and the second cut for defining the geometry .

[0043] Moreover, advantageously, the presence of laser cutting allows cutting speeds to be reached up to 50% higher than the cutting speeds reachable by the machines of the prior art , which are instead limited by the movement speed of the blade units .

[0044] Advantageously, the presence of laser cutting allows the production o f waste , typical of the prior art , to be eliminated, thereby increasing the productivity of the machine while employing the same amount of strip .

[0045] Moreover, due to the presence of laser cutting, it is possible to quickly change the cutting geometry .

[0046] In addition, the elimination o f waste production means that there is no need to use blowing devices , thus further reducing the overall dimensions and allowing the arrangement of the stations that compose the machine to be made more compact , for example by bringing the cutting station closer to the winding station on the spindle , as shown in the accompanying figures .

[0047] Furthermore , the costly blade change operations typical of the prior art are no longer necessary . [0048] A person skilled in the art may, in order to meet speci fic needs , make several changes to the embodiments of this invention or substitutions of elements with other functionally equivalent ones .

[0049] These variants are also contained within the scope of protection as defined by the following claims .