The present invention relates to a unit for feeding and cutting into discrete lengths a strip of wrapping material.
The discrete lengths thus obtained are used in a machine for packaging commodities.
Units of the type in question are used typically to cut a continuous strip of metal foil paper into single leaves, which are then fed to the wrapping unit of a cigarette packer and folded each directly around a respective group of cigarettes to form an inner wrapper in the finished packet.
The leaves of metal foil paper are generated by making transverse cuts through the strip and appear rectangular in outline, the predominating dimension aligned on the axis of the strip. Each single leaf presents a corner area with two tear-off lines, one longitudinal, one transverse, combining to delimit a rectangular portion known as a “pull”, which can be removed by the user at the moment of breaking open the packet of cigarettes.
Conventionally, feeding and cutting devices used to generate the single leaves of material comprise a first roller and a second roller rotatable about mutually parallel axes in opposite directions, each of which is equipped with two diametrically opposed blades extending parallel to the axes of rotation.
The first roller has an aspirating cylindrical surface and, besides affording a reaction element in the course of the cutting step, serves also to advance the strip of metal foil paper decoiled from a relative roll, and to convey the leaves separated by the cutting action toward a further processing station.
The two blades of a first pair mounted one to the first roller and one to the second, substantially equal in length to the transverse dimension of the strip, serve to make the cut by which the leaf is separated from the strip. The blades of a second pair serve to impress the transverse tear-off line aforementioned.
Also forming a part of the feeding and cutting device is a disc cutter rotatable about an axis parallel to the axes of the two rollers, operating in combination with the first roller to impress the longitudinal tear-off line aforementioned.
In the conventional feeding and cutting devices thus briefly described, accordingly, the transverse tear-off line occupies an intermediate position, located between and at a set distance from the two shorter cut edges of the rectangular leaf.
It can happen, for example when changing from one type of metal foil strip to another, or changing the arrangement of the rows of cigarettes making up the group, or changing the brand of cigarettes in production, that the longer dimension presented by the removable part of the wrapper needs adjusting in order to avoid any incorrect alignment of the inner wrapper, and more particularly of the pull portion, relative to the group of cigarettes. This same adjustment serves also to avoid damaging the cigarettes through contact with folder mechanisms placed, in the case of the typical wrapping method, to engage the end portions of the flank faces when making the end folds of the inner wrapper.
The object of the present invention is to provide a unit for cutting a strip of wrapping material into discrete lengths such as will be unaffected by the aforementioned drawbacks.
The stated object is duly realized in a unit for feeding and cutting into discrete lengths a strip of wrapping material, applicable to a machine for packaging commodities and in particular a cigarette packer. Such a unit comprises first cutting means, cyclical in operation, by which a continuous strip is divided up transversely into single leaves of predetermined length, and at least second cutting means, cyclical in operation, serving to impress at least one transverse tear-off line on each leaf; the unit disclosed will also include means by which to control the timing of the stroke made by the second cutting means, relative to the cycle of the first cutting means, between each two successive transverse dividing strokes made through the strip, so as to adjust the position of the transverse tear-off line on the leaf.
The invention will now be described in detail, by way of example, with the aid of the accompanying drawings, in which:
a and 1b illustrate an example of a rigid cigarette packet, viewed in perspective from the front in an open configuration, and showing an inner wrapper fashioned from a leaf of wrapping material obtainable with the unit according to the present invention;
Referring to
The packet 1 is of conventional type, comprising a cupped body 7 surmounted by a lid 8 hinged to the rear wall of the body 7, also a stiffening frame 9 projecting beyond the open end of the cupped body 7 and functioning as an element by which the lid 8 is guided into a closed position (not illustrated) and retained stably in this same position.
Located internally of the cupped body 7 and in direct contact with the group 2 of cigarettes 3 is an inner wrapper 10 made of a suitable material, preferably metal foil paper. The inner wrapper 10 is fashioned from a leaf 11 of wrapping material obtained from a continuous strip 12 (see FIGS. 2 to 4) by way of transverse cutting steps that will be described in due course.
Referring to
The two lines 14 and 15 in question delimit a rectangular portion 16 commonly referred to as a “pull” and constituting a part of the wrapper that can be removed by the consumer when opening the packet 1 of cigarettes 3. As indicated in
The leaves 11 are directed through feed and guide means shown schematically as a pair of essentially vertical conveyor belts denoted 18, disposed facing one another on opposite sides of the leaf 11, and advanced toward a first processing station 19 where each successive leaf will be engaged transversely by a respective group 2 of cigarettes and directed together with the cigarettes by the action of a push rod 20 into a relative pocket 21 of a wrapping wheel 22 that forms part of a cigarette packer not illustrated in the drawings.
As the group 2 of cigarettes is inserted into the pocket 21 and directed along a circular path by the wrapping wheel 22, in familiar fashion, the leaf 11 of material is folded gradually into a tube around the group 2, with two free edges overlapping along the flank of the group facing radially outwards.
The two ends of the tubular wrap thus formed, which project beyond the ends of the cigarettes 3, are folded in and flattened likewise during the rotation of the wheel 22 to form the bottom end face 10a and the top end face 10b of the inner wrapper 10 (
The strip 12 is decoiled from the roll 12a and drawn initially over a first diverting roller 23 by feed means consisting in a pair of pinch rolls 24 rotatable substantially tangential one to another about mutually parallel axes.
The strip 12 is directed by the rolls 24 along a predetermined feed path P toward a cutter device, denoted 25 in its entirety, which comprises a first roller 26 set in rotation at constant speed about a relative horizontal axis 26a, turning counterclockwise as viewed in
The first roller 26 carries a first blade 28 and a second blade 29 occupying diametrically opposed positions, each extending substantially parallel to the axis of rotation 26a and proportioned so as not to project radially above the surface of revolution of the roller 26.
The cutter device 25 further comprises a second roller 30 rotatable in the opposite direction to the first roller 26 about an axis 30a parallel to the axis 26a first mentioned, and equipped with a first blade 31 and a second blade 32 diametrically opposed and extending substantially parallel to the axis 30a of rotation which in this instance project above the surface of revolution of the roller 30.
The angular velocities and the timing of the two rollers 26 and 30 are controlled in such a way that the first blades 28 and 31 of the first and second rollers 26 and 30 will constitute first transverse cutting means by which to separate single sheets 11 from the strip 12 along dividing lines denoted 34 in
The two rollers 26 and 30 combine at an area of substantially tangential proximity to establish a cutting zone 33 occupiable, in particular, by the first and second cutting means.
It will be seen that the length of the two first blades 28 and 31, measured parallel to the axis of rotation 26a, is substantially equal to the width of the strip 12, whilst the length of the second blades 29 and 32, measured parallel to the selfsame axis 26a, is substantially equal to the length of the transverse tear-off lines 15.
35 denotes third cutting means located downstream of the second roller 30 and consisting in a disc cutter 36 rotatable clockwise, at the same speed as the first roller 26, about an axis 36a parallel to the axis 26a of the selfsame first roller.
The disc cutter 36 engages in a circumferential track 37 afforded by the first roller 26 and serves to impress the aforementioned longitudinal tear-off lines 14, which will combine with the transverse tear-off lines 15 to delineate the removable pull portions 16 on the strip.
The track 37 presents a portion of minimal depth, occupying a predetermined portion of length equal to the length of the longitudinal tear-off line 14, along which the recessed cylindrical face provides a reaction surface offered to the disc cutter 36, whilst the depth of the remaining portion is such that no contact will be made with the cutter 36.
The single leaves 11 advance beyond the third cutting means, each presenting longitudinal and transverse tear-off lines 14 and 15 and retained by suction on the first roller 26, and are directed into a transfer station 38 positioned diametrically opposite to the cutting zone 33.
On reaching the transfer station 38, each leaf 11 is taken up by a suction roller 39 set in rotation about an axis 39a parallel to the axis 26a of the first roller 26, turning in a clockwise direction substantially tangential to this same roller 26, and transferred to the aforementioned belts 18 of the feed and guide means, represented schematically in
The unit further comprises pivotable diverter means 40 located along the feed path P upstream of the cutting zone 33, preceding the cutting zone 33 and following the pinch rolls 24, and interacting with the running strip 12 in such a way as to vary the length of the path P according to the operating frequency of the second cutting means.
The diverter means 40 comprise an arm 41 of which one end is anchored pivotably to a mounting 42 and the other end carries a roller 43 placed in contact with the strip 12. The arm 41 can be swung between two limit positions, one of which indicated in bold lines and the other in phantom lines (see
The operation of the unit will now be described, departing from a situation in which the downstream machine requires leaves 11 of wrapping material with the transverse tear-off line 15 occupying a substantially intermediate position, denoted 15 in
In this situation, the pivoting arm 41 of the diverter means 40 is set in a predetermined fixed position and the roller 43 placed so as to divert the strip 12 along a path denoted P0, indicated by a dash-dot phantom line in
In the event that, for the reasons explained in the preamble, it should become necessary to adjust the position of the transverse tear-off lines 15 in relation to the transverse cut lines 34, so as to bring the edge 16a created by the tear-off line 15 into alignment with the longitudinal edge 10c of the inner wrapper 10 generated by the transverse cut 34, in a plane not parallel to the rear wall of the cupped body 7, as illustrated in
As illustrated in
The corrective action can be generated manually or automatically and is induced by transmitting an input signal S3 to the control unit 45 such as will restore the correct position of the removable or pull portion 16.
Assuming one operating cycle to consist in a rotation of 360° completed by the first roller 26 between two successive cutting strokes, resulting in the separation of one leaf 11 from the strip 12, the correct position is restored by inducing a cyclical variation in the length of the path P followed by the strip between the pinch rolls 24 and the cutting zone 33, through the agency of the diverter means 40.
More particularly, as illustrated in
Conversely, if the intention is to shift the position of the transverse tear-off line upstream relative to the feed direction F of the strip 12 as indicated by numeral 15b, thereby increasing the length of the pull portion 16, then the arm 41 will be repositioned in such a manner as to divert the strip 12 along a path P2 shorter than the path denoted P0.
The adjustment in question produces a periodic variation in the linear speed of the strip 12 relative to the peripheral speed of the roller 26, with the strip effectively slipping on the surface of the roller 26.
It will be seen that the variation in speed has an effect only on the positioning of the transverse tear-off line 15, and accordingly, causing the diverter means 40 to act on the strip 12 in the course of each cycle is equivalent to adjusting the timing of the cutting stroke made by the second blades 29 and 32, and consequently the position of the transverse tear-off line 15.
In the example of
The variation is induced by activating a drive component, connected to at least one of the two rolls 24 and indicated schematically as a block 46 in
It will be seen that the decoiling pinch rolls 24 in all of the various embodiments illustrated might consist in embossing rollers, denoted 24b, and that in the example of
In the example of
In the example of
In all of the examples illustrated in
Finally, it will be observed that the position of the transverse tear-off lines 15a and 15b can be controlled by varying the amplitude and frequency of the movement described by the arm 41, in the case of the embodiment illustrated in
Number | Date | Country | Kind |
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BO2004A000201 | Apr 2004 | IT | national |