This Patent application claims priority from Italian Patent Application No. 102017000134278 filed on Nov. 23, 2017, the disclosure of which is incorporated by reference.
The present invention relates to a packer machine and to a wrapping method to produce a pack of smoking articles provided with two rigid containers one inside the other.
The present invention finds advantageous application in producing a pack of cigarettes containing a group of cigarettes, to which the following disclosure will make explicit reference without thereby losing generality.
In U.S. Pat. No. 8,123,030B2 a pack of cigarettes has been proposed, comprising a group of cigarettes, a rigid inner container having a through pull-out opening through which the cigarettes can be withdrawn, and a rigid outer container which contains the inner container and is provided with a hinged lid; preferably, a closing tab is coupled to the inner container, which is glued, by means of re-stick glue, to the inner container to cover the pull-out opening.
In U.S. Pat. No. 8,123,030B2 a packer machine has also been proposed, which produces the pack of cigarettes described above and comprises: a first wrapping drum having a vertical rotation axis (i.e. arranged horizontally), which receives a first blank and then the group of cigarettes and folds the first blank around the group of cigarettes to form the inner container, a first gluing unit that is arranged downstream of the first wrapping drum and applies glue to opposite side walls of the first container to stabilize the shape of the first container itself, a pair of first drying drums arranged downstream of the first gluing unit to allow the glue to set, a second wrapping drum having a vertical rotation axis (i.e. arranged horizontally) which receives a second blank and then the inner container and folds the second blank around the inner container to form the outer container (thus completing the formation of the pack of cigarettes), a second gluing unit which is arranged downstream of the second wrapping drum and applies glue to opposite side walls of the second container to stabilize the shape of the second container itself, and a pair of second drying drums arranged downstream of the second gluing unit to allow the glue to set.
However, the packer machine described in U.S. Pat. No. 8,123,030B2 is very bulky (i.e. it occupies a large surface area) and above all has many parts that are hard to reach (i.e. an operator cannot reach, by hand, many parts of the packer machine while standing in front of the packer machine, but in order to reach many parts of the packer machine by hand one must somehow “enter” the packer machine by making demanding and tiring “contortions”). Consequently, assembly and above all maintenance and periodic cleaning of the packer machine described in U.S. Pat. No. 8,123,030B2 are extremely laborious and particularly long (with a consequent extremely long maintenance and cleaning down-time of the machine and therefore clearly detrimental to the average productivity of the packer machine in the long run).
Moreover, the packer machine described in the U.S. Pat. No. 8,123,030B2 is adapted to operate only with an intermittent motion (i.e. a motion that cyclically alternates stopping steps and motion steps) and then subjects the mechanics to continuous accelerations/decelerations which do not allow a high hourly productivity to be obtained (i.e. a large number of packs of cigarettes produced per time unit) while maintaining an optimal production quality.
The object of the present invention is to provide a packer machine and a wrapping method to produce a pack of smoking articles provided with two rigid containers one inside the other, which packer machine and wrapping method are free from the drawbacks described above and are, at the same time, easy and inexpensive to produce.
According to the present invention, a packer machine and a wrapping method are provided to produce a pack of smoking articles provided with two rigid containers one inside the other, according to what is claimed in the attached claims.
The claims describe preferred embodiments of the present invention forming an integral part of the present disclosure.
The present invention will now be described with reference to the attached drawings, which illustrate an example of non-limiting embodiment, wherein:
In
The outer container 2 has an open upper end 3 and is provided with a lid 4, which is cup-shaped and is hinged to the outer container 2 along a hinge 5 (illustrated in
The lid 4 has a substantially rectangular parallelepiped shape, is cup-shaped, and has an open lower end (facing the open upper end 3 of the outer container 2 when the lid 4 is in the closed position), an upper wall 10 (which is parallel and opposite to the lower wall 6 of the outer container 2 when the lid 4 is in the closed position), a front wall 11 (which is parallel to and aligned with the front wall 7 of the outer container 2 when the lid 4 is in the closed position) a rear wall 12 (which is parallel to and aligned with the rear wall 8 of the outer container 2 when the lid 4 is in the closed position and is hinged to the rear wall 8 of the outer container 2 along the hinge 5), and two side walls 13 parallel and opposite to each other (which are parallel and aligned, in particular coplanar and adjacent, to the side walls 9 of the outer container 2 when the lid 4 is in the closed position). Between the front 11, rear 12 and side 13 walls of the lid 4, four longitudinal edges are defined, whereas between the walls 11, 12 and 13 and the upper wall 10 of the lid 4, four transverse edges are defined. The longitudinal edges and transverse edges of the lid 4 are parallel to and aligned with the corresponding longitudinal and transverse edges of the outer container 2 when the lid 4 is in the closed position.
As illustrated in
The inner container 14 also has the function of keeping the lid 4 in the closed position with a given force to avoid undesired openings of the lid 4; said “locking” function of the lid 4 in the closed position is carried out due to the fact that when the lid 4 is in the closed position the inner container 14 partially protrudes from the open end of the container 2 and thus engages a corresponding inner surface of the lid 4: in this way, to open the lid 4 it is necessary to elastically and slightly deform the lid 4 and/or the inner container 14 and therefore it is necessary to apply a given force to the lid 4 to open the lid 4.
The inner container 14 has a pull-out opening 20 which is arranged at the centre and involves a portion of the front wall 15 of the inner container 14 and a portion of the upper wall 18 of the inner container 14. The pull-out opening 20 is formed by making a closed-shaped through incision through the inner container 14 which internally delimits a disposable portion of the inner container 14 which is removed, so as to leave a hole (which forms the extraction opening 20).
According to what is illustrated in
The closing tab 21 is provided with a connecting flap 22, which is glued in a permanent and non-separable manner to the inner surface of the front wall 11 of the lid 4 by means of the permanent glue 26 (illustrated in
In the (non-limiting) embodiment illustrated in the attached Figures, the outer surface of the connecting flap 22 of the closing tab 21 is glued in a permanent and not separable manner to the inner surface of the front wall 11 of the lid 4 by permanent glue so that, by opening and closing the lid 4, the closing tab 21 is simultaneously and automatically opened and closed as well.
As illustrated in
According to what is illustrated in
According to what is illustrated in
According to a preferred, but not binding, embodiment, the panel 15′ partially overlaps the panel 15″ to form the front wall 15 of the inner container 14; as clearly illustrated in
The blank 25 comprises a pair of wings 16′, which are arranged on opposite sides of the panel 15′, are connected to the panel 15′ along the two longitudinal folding lines 26 and make up part of the side walls 16 of the inner container 14. The blank 25 comprises a pair of wings 16″′, which are arranged on opposite sides of the panel 17′, are connected to the panel 17′ along the two longitudinal folding lines 26, make up part of the side walls 16 of the inner container 14, and overlap the corresponding wings 16′ to form part of the side walls 16 of the inner container 14. The blank 25 comprises a pair of wings 16″, which are arranged on opposite sides of the panel 15″, are connected to the panel 15″ along the two longitudinal folding lines 26, make up part of the side walls 16 of the inner container 14, and overlap the corresponding wings 16″′ to form part of the side walls 16 of the inner container 14.
The blank 25 comprises a pair of wings 29, which are arranged on opposite sides of the panel 18′, are connected to the panel 18′ along the two longitudinal folding lines 26 and are folded by 90° relative to the panel 18′ to rest against the wings 16″′. The blank 25 comprises a pair of wings 30, which are arranged on opposite sides of the panel 19′, are connected to the corresponding wings 16″′ along a transverse folding line 27 and are folded by 90° relative to the corresponding wings 16″′ to rest against the panel 19′.
In the (non-binding) embodiment illustrated in the attached Figures, the inner container 14 is internally devoid of glue (i.e. no glue is used to connect parts of the inner container 14 to one another) and the inner container 14 is glued to the outer container 2 only by means of permanent glue 31 (i.e. of a glue that dries after its application thus providing a strong and non-separable bond, except by means of a violent and destructive tear). In other words, throughout the inner container 14 the only permanent glue that is applied is the permanent glue 31 which only serves to join the inner container 14 to the outer container 2. In the embodiment illustrated in
With reference to
Initially and as illustrated in
Subsequently and as illustrated in
Subsequently and as illustrated in
Subsequently and as illustrated in
Subsequently and as illustrated in
Subsequently and as illustrated in
Finally, the wings 16′ are folded by 90° relative to the panel 15′ and against the wings 16″′ and, at the same time, the wings 16″ are folded by 90° relative to the panel 15″ and against the wings 16″′ to complete the formation of the inner container 14.
In the alternative of the blank 25 illustrated in
In this embodiment, initially and as illustrated in
Subsequently and as illustrated in
Subsequently and as illustrated in
From this point on, the folding of the blank 25, illustrated in
According to a further embodiment, not illustrated, the wings 29 are arranged on opposite sides of the panel 18′, are connected to the corresponding wings 16″′ along a transverse folding line 27, and are folded by 90° relative to the corresponding wings 16″′ so as to rest against the panel 18′ (in this embodiment the wings 29 are much smaller so as not to interfere with the pull-out opening 20 when they are folded against the panel 18′).
In
The packer machine 32 comprises a forming unit 33 (known and only schematically illustrated in
The forming unit 33 comprises a hopper 38 provided with a plurality of outlet openings for feeding the groups 23 of cigarettes, a forming conveyor 39 provided with trains of pockets, each of which receives a group 23 of cigarettes from the hopper 38 and a transfer drum 40 which is mounted so as to rotate in a continuous manner and cyclically withdraws the groups 23 of cigarettes from the pockets of the forming conveyor 39 to transfer the groups 23 of cigarettes to the wrapping unit 34.
As better illustrated in
The wrapping unit 34 comprises a wrapping drum 44 which is mounted so as to rotate in a continuous manner about a horizontal rotation axis 45 (parallel to the rotation axis 42) and is provided with a plurality of wrapping pockets 46 (only one of which is illustrated in the attached Figures for clarity), each of which is adapted to receive and hold a blank 25 and subsequently a group 23 of cigarettes. The rotation of the wrapping drum 44 about the rotation axis 45 carries each wrapping pocket 46 through a feeding station S3 in which the wrapping pocket 46 receives a blank 25 from the feeding unit 36, subsequently through the transfer station S2 in which the wrapping pocket 46 receives a group 23 of cigarettes from the transfer drum 41, and finally through a transfer station S4 in which the wrapping pocket 46 releases the group 23 of cigarettes coupled to the blank 25. Each wrapping pocket 46 is provided with folding devices (better described in the following) which perform all the folding of the blank 25 around the group 23 of cigarettes. The wrapping unit 34 comprises a wrapping drum 47 which is mounted so as to rotate in a continuous manner about a horizontal rotation axis 48 (parallel to the rotation axis 45) and is provided with a plurality of wrapping pockets 49 (only one of which is illustrated in the attached Figures for clarity), each of which is adapted to receive and hold an inner container 14 (i.e. a group 23 of cigarettes completely wrapped in a blank 25). The rotation of the wrapping drum 47 about the rotation axis 48 carries each wrapping pocket 49 through the transfer station S4 in which the wrapping pocket 49 receives an inner container 14 from the wrapping drum 44 (the folding of the blank 25 around the group 23 of cigarettes is completed in the transfer station S4 wherein the entry of the wrapping drum 47 into the wrapping pocket 49 causes the folding by 90° of the wings 16′ and of the wings 16″ against the wings 16″′) and subsequently through a transfer station S5 in which the wrapping pocket 49 releases the inner container 14.
The wrapping unit 35 comprises a wrapping drum 50 which is mounted so as to rotate in a continuous manner about a horizontal rotation axis 51 (parallel to the rotation axis 48) and is provided with a plurality of wrapping pockets 52 (only one of which is illustrated in the attached Figures for clarity), each of which is adapted to receive and hold a blank 24 and therefore an inner container 14. The rotation of the wrapping drum 50 about the rotation axis 51 carries each wrapping pocket 52 through a feeding station S6, in which the wrapping pocket 52 receives a blank 24 from the feeding unit 37, thereafter through the transfer station S5, in which the wrapping pocket 52 receives an inner container 14 from the wrapping drum 47, and finally through a transfer station S7, in which the wrapping pocket 52 releases the inner container 14 coupled to the blank 24. Each wrapping pocket 52 is provided with folding devices which fold the blank 24 around the inner container 14. Moreover, around the wrapping drum 44 and between the transfer station S5 and the transfer station S7 further folding devices (external and independent of the wrapping drum 50 and schematically illustrated only with a dashed line) are arranged, which perform the folding of the blank 24 around the inner container 14.
The wrapping unit 35 comprises a wrapping drum 53 (illustrated only in
Downstream of the wrapping drum 53, the packs 1 of cigarettes are transferred to a vertical outlet conveyor and then to a subsequent horizontal outlet conveyor.
As illustrated in
As illustrated in
The tab-sticking unit 62 comprises a tab-sticking drum 63 which receives the blanks 25 from the transfer drum 61, a tab-sticking device 64 which is adapted to stick the closing tabs 21 onto the blanks 25 carried by the tab-sticking drum 63, a further tab-sticking drum 65, which receive the blanks 25 from the tab-sticking drum 63 by the interposition of a transfer drum 66, and a further tab-sticking device 67, which is adapted to stick the closing tabs 21 on the blanks 25 carried by the tab-sticking drum 65. The two tab-sticking devices 64 can be operated alternatively (while a tab-sticking device 64 works the other tab-sticking device 64 is still, for example to allow cleaning, adjustment or replacement manoeuvres of the belt containing the closing tabs 23) or the two tab-sticking devices 64 can be operated together (obviously at a half operating speed because each tab-sticking device 64 applies a closing tab 21 to every two blanks 25). According to a different embodiment, not illustrated, the tab-sticking unit comprises only the tab-sticking device 67 and the tab-sticking drum 65 (i.e. the tab-sticking device 64, the tab-sticking drum 63, and the transfer drum 66 are not provided).
It is important to note that each closing tab 21 is applied to the corresponding blank 25 when the blank 25 is completely extended; in this way it is possible to stick each closing tab 21 to the corresponding blank 25 with a very high precision (not having to “follow” three-dimensional shapes during the application) and with an optimal adhesion (when the blank 25 is completely extended, it is simple to exert a high pressure between the closing tab 21 and the blank 25 to favour optimal adhesion of the closing tab 21 to the blank 25).
According to a preferred embodiment, the tab-sticking unit 62 comprises a control and rejection device 68, which is adapted to optically detect (for example by means of a digital video camera) an image of each blank 25 at least at the closing tab 21 to check whether the closing tab 21 is present, has been correctly applied (i.e. in the desired position and without folds or anomalous orientations) and is free of defects; in case of missing, incorrectly arranged or defective closing tabs 21, the control and rejection device 68 rejects the corresponding blanks 25, i.e. extracts the corresponding blanks 25 from the production flow, directing the rejected blanks 25 to a collecting container. It is important to note that the control and rejection device 68 could control the blanks 25 only at the closing tab 21 or could also control the blanks 25 in their entirety. In the embodiment illustrated in the attached Figure, the control and rejection device 68 is coupled to the tab-sticking drum 65 downstream of the tab-sticking device 67; according to other embodiments not illustrated, the control and rejection device 68 could be arranged in a different position (again downstream of the tab-sticking device 67).
It is important to note that controlling each blank 25 before folding the blank 25 around the corresponding group 23 of cigarettes makes it possible to reject only the defective 25 blanks without having, at the same time, to also reject groups 23 of cigarettes (being free of defects) only because they are coupled with defective blanks 25. Thus, controlling each blank 25 before folding the blank 25 around the corresponding group 23 of cigarettes allows to significantly reduce the number of cigarettes being rejected.
The feeding unit 36 comprises a transfer device 69 which receives the blanks 25 (provided with the closing tabs 21) from the tab-sticking drum 62 of the tab-sticking unit 62, collects the blanks 25 forming corresponding stacks and then cyclically transfers the stacks of blanks 25 on the feeding conveyor 57 to replenish the horizontal stack fed by feeding conveyor 57 towards the pick-up station S8. In the embodiment illustrated in
As illustrated in
As illustrated in
As illustrated in
As previously stated, the inner container 14 is internally devoid of glue (i.e. no glue is used to connect parts of the inner container 14 together) and therefore in the wrapping unit 34 (i.e. at the wrapping drum 44 and at the wrapping drum 47) no gluing devices are provided as no glue is applied to the blank 25.
As illustrated in
According to an alternative embodiment, the gluing device 77 only applies the permanent glue which stabilizes the shape of the outer container 2 and of the lid 4 (i.e. does not apply the permanent glue 31 for gluing the inner container 14 to the outer container 2 and therefore the inner container 14 is not glued to the outer container 2).
According to a further embodiment not illustrated, the gluing device 77 only applies the permanent glue 31 for gluing the inner container 14 to the outer container 2 and a further gluing device is provided (separate and independent of the gluing device 77) which is arranged around the wrapping drum 50 near the transfer station S7 and is adapted to apply, on the blank 24, the permanent glue, which stabilizes the shape of the outer container 2 and of the lid 4. In fact, as previously stated, the folding of the blank 24 around the inner container 14 is completed in the transfer station S7 by folding the wings 9′ and 13′ by 90° against the previously folded wings 9″ and 13″; consequently, the gluing (i.e. the application of glue) on the wings 9′ or 9″ and 13′ or 13″ of the blank 24 takes place immediately before the folding of the wings 9′ and 13′ against the wings 9″ and 13″ (i.e. immediately before the transfer station S7).
As illustrated in
A base 81 is mounted on the main body 78 of each wrapping pocket 46, which is arranged parallel to the rotation axis 45 of the wrapping drum 44 and is provided with suction to hold a corresponding blank 25 by way of suction; in particular, the base 81 has approximately the size of the panel 17′ of the blank 25 and in use engages (by suction) the panel 17′ of the blank 25. The base 81 is mounted on the main body 78 in a radially sliding manner, i.e. it is adapted to slide (under the control of a cam actuating system) relative to the main body 78 along a radial sliding direction 82 (i.e. perpendicular to the rotation axis 45 of the wrapping drum 44) between a retracted position (not illustrated) and an extracted position (illustrated in
On the main body 78 of each wrapping pocket 46, two side walls 83 are mounted, which are arranged on opposite sides of the base and are hinged to the main body 78 to rotate (under the control of a cam actuating system) about two corresponding rotation axes parallel to the rotation axis 45 of the wrapping drum 44 between a raised position (illustrated in
On the main body 78 of each wrapping pocket 46, two containment plates 84 are mounted, which are orientated perpendicularly to the two side walls 83 and are hinged to the main body 78 to rotate (under the control of a cam actuating system) around two corresponding rotation axes perpendicular to the rotation axis 45 of the wrapping drum 44 between a rest position (illustrated in
As illustrated in
Again for simplicity and economy of construction, also each wrapping pocket 49 of the wrapping drum 47 is completely identical to the wrapping pockets 46 of the wrapping drum 44, while each wrapping pocket 52 of the wrapping drum 50 is very similar but not completely identical to the wrapping pockets 46 of the wrapping drum 44, since around the wrapping drum 50 the blanks 24 are folded, which are different from the blanks 25 that are folded around the wrapping drum 44.
As will be described hereinafter, in each wrapping pocket 46 the two side walls 83 form folding devices (carried by the wrapping pocket 46), which perform the folding of the wings 16″′ relative to the panel 17′ and the two containment plates 84 form the folding devices (carried by the wrapping pocket 46), which perform the folding of the panels 19′ e 18′ relative to the panel 17′ and the folding of the panels 15′ e 15″ relative to the panels 18′ e 19′.
According to a preferred embodiment, when a blank 25 is fed (at the feeding station S3) to a wrapping pocket 46, the base 81 of the wrapping pocket 46 is in the extracted position (also illustrated in
In the transfer station S2 (as illustrated in
In the transfer station S2 and after the group 23 of cigarettes has been placed resting against (with the interposition of the blank 25) the base 81 of the wrapping pocket 46 of the wrapping drum 44, the base 81 itself moves from the extracted position to the retracted position and, at the same time, the side walls 83 move from the lowered position to the raised position to fold the two wings 16″′ of the blank 25 by 90° relative to the panel 17′ and against the group 23 of cigarettes; in other words, the first folding of each blank 25 (as illustrated in
The wrapping drum 44 is provided with folding devices (mounted on the wrapping pockets 46) which, between the transfer station S2 and the transfer station S4 and for each blank 25, fold the panel 19′ by 90° relative to the panel 17′ (as illustrated in
As previously stated, for each blank 25 the wings 16′ and the wings 16″ are folded by 90° and against the wings 16″′ completing the formation of the inner container 14 in the transfer station S4 during the passage of the inner container 14 from the wrapping pocket 46 of the wrapping drum 44 to the wrapping pocket 49 of the wrapping drum 47.
The wrapping drum 44 is provided with folding devices (mounted on the wrapping pockets 46) which, between the transfer station S2 and the transfer station S4 and for each blank 25, fold the wings 29 by 90° relative to the panel 18′ (as illustrated in
According to the embodiment illustrated in
According to the embodiment illustrated in
In the embodiments illustrated in
The embodiments described herein can be combined one with the other without departing from the scope of protection of the present invention.
The packer machine 32 described above has numerous advantages.
Firstly, the packer machine 32 described above allows to avoid the application of glue inside the inner containers 14 (i.e. in close proximity to the groups 23 of cigarettes) thus avoiding the risk of contaminating the cigarettes with traces of glue (both by direct contact of the cigarettes with the glue, and by absorption, by the cigarettes, of volatile substances released by the glue).
Furthermore, the packer machine 32 described above can operate with continuous motion (i.e. a motion devoid of stopping steps wherein the various moving parts move with a constant speed) which substantially reduces the mechanical stresses to which the cigarettes are subjected thus allowing to operate at a high hourly productivity (i.e. a high number of packs 1 of cigarettes produced per time unit) while maintaining, at the same time, an optimal production quality.
The packer machine 32 described above is compact and has an optimal accessibility to all its components; in fact, an operator who is in front of the packer machine 32 is able to reach, by hand, all the active parts of the packer machine 32 in a simple, fast and ergonomic manner.
The embodiment illustrated in the attached figures refers to the production of a pack of cigarettes, but the present invention can also be applied, without substantial modifications, to the production of any other type of pack of smoking articles (for example a pack of cigars, a pack of electronic cigarettes of the liquid vaporization type, a new generation pack of cigarettes without tobacco combustion . . . ).
Finally, the packer machine 32 described above can be easily modified to produce a standard pack of cigarettes (i.e. wherein the inner container 14 is replaced by a standard collar having only three walls, i.e. a front wall and two opposite side walls) simply by disabling (and possibly disassembling or removing) the feeding unit 36 which is replaced by a standard feeding unit, which feeds the standard collars at the transfer station S4. Accordingly, the packer machine 32 described above is very flexible as it can easily be adapted to produce different types of packs of cigarettes.
Number | Date | Country | Kind |
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102017000134278 | Nov 2017 | IT | national |