PACKAGING MACHINE AND METHOD FOR PRODUCING PACKAGES FROM A SHEET OF PACKAGING MATERIAL

Abstract

A packaging machine for producing packages (2) from a sheet of packaging material (3), said packaging material (3) comprising a plurality of marks (20) associated with corresponding portions (21) of said packaging material (3), said packaging machine comprising a working unit (30) having a track arrangement (31) and a plurality of transporting elements (32), each transporting element (32) supporting a tool (40) arranged for carrying out a working operation on said packaging material (3), said transporting elements (32) being movable on said track arrangement (31) (independently from each other, each of said transporting elements (32) comprising a sensor device (33) arranged for detecting a corresponding mark (20) and generating a signal indicating the position of said mark (20) with respect to said transporting element (32), said packaging machine further comprising a control unit arranged to control the position of said transporting element (32) along said track arrangement (31) on the basis of said signal; a method for producing packages (2) from a sheet of packaging material (3) is also disclosed.

Claims

1-14. (canceled)

15. A packaging machine for producing packages from a sheet of packaging material having a plurality of marks associated with portions of the packaging material, the packaging machine comprising: a plurality of tools that perform packaging operations on the packaging material; a packaging unit having a closed-loop track along which the plurality of tools are configured to move, wherein the packing unit operates at least one of the plurality of tools on the packaging material when producing the packages; a plurality of transport unit units that move independently along the track, wherein each transport unit supports a tool used to perform a different packaging operation on the packaging material, each transport unit further including: a sensor device configured to detect a corresponding mark on the packaging material and to generate a position signal indicating the position of the mark relative to the respective transport unit; and a control unit configured to control the position of the transport unit along the track on the basis of the generated position signal.

16. The packaging machine of claim 15, wherein the packaging unit is configured to: form the packaging material into a tube, fill the tube with a foodstuff product, seal the filled tube, and cut the sealed tube along equally spaced transverse sections to form packs that are subsequently subjected to mechanical folding operations to obtain the packages.

17. The packaging machine of claim 16, wherein the packaging unit further includes a plurality of pairs of independently-movable jaws configured to seal and cut the tube.

18. The packaging machine of claim 17, wherein the track comprises: a first track portion on which a plurality of first transport units are movable; and a second track portion on which a plurality of second transport units are movable, wherein each pair of jaws comprises a first jaw carried by at least one of the first transport units and a second jaw carried by at least one of the second transport units, and wherein each of the first transport units comprises a first sensor device and each of the second transport units comprises a second sensor device.

19. The packaging machine of claim 18, wherein the first track portion and the second track portion are parallel to each other and arranged on opposite sides of the tube.

20. The packaging machine of claim 15, wherein the unit comprises: an application unit configured to mold plastic material on to the packaging material to form a pouring spout in an opening device of each package.

21. The packaging machine of claim 20, wherein the application unit further comprises: a plurality of molds that are independently movable and configured to mold the plastic material on the packaging material.

22. The packaging machine of claim 21, wherein the track comprises a track portion along which the transport units move, each transport unit supporting a corresponding mold of the plurality of molds, and each transport unit comprising a sensor device.

23. The packaging machine of claim 15, wherein the track houses individually-activated solenoids and the transport units house permanent magnets, wherein each individually-controlled solenoid is configured to move the respective one of the transport units.

24. The packaging machine of claim 15, wherein each transport unit includes an individually-activated solenoid and the track has permanent magnets, wherein each individually-controlled solenoid is configured to move the respective transport unit.

25. A method for producing packages from a sheet of packaging material, the packaging material comprising a plurality of marks associated with corresponding portions of the packaging material, the method comprising: providing a plurality of transport units, each transport unit supporting a tool configured to perform an operation on the packaging material, the transport units being independently movable on a track; providing each of the transport units with a sensor device; detecting a corresponding mark with the sensor; generating a signal indicating the position of the mark with respect to the transport unit; and controlling the position of the transport unit along the track on the basis of the generated signal.

26. The method of claim 25, wherein the packaging material comprises a plurality of sections arranged in a consecutive manner in a direction D of the packaging material, each section defining a corresponding side portion of the corresponding package formed from the packaging material.

27. The method of claim 26, wherein each section comprises a pattern of creasing lines along which the packaging material is folded to form a corresponding package, each mark being arranged at a predetermined position with respect to a corresponding section.

28. The method of claim 25, further comprising: evaluating, on the basis of the signal, a difference between a real position of the transport unit with respect to the portion of the packaging material having the mark and a target position of the transport unit with respect to the portion of the packaging material having the mark; and driving the transport unit along the track so as to minimize the distance.

29. The method of claim 25, wherein the track is associated with individually-excitable solenoids and each transport unit has a permanent magnet, wherein each transport unit is independently movable along the track through individual control of a corresponding solenoid.

30. The method of claim 25, wherein each transport unit has an individually-excitable solenoid and the track is associated with corresponding permanent magnets, wherein each transport unit is independently movable along the track through individual control of a corresponding solenoid.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] Some preferred, non-limiting embodiment of the invention will be described by way of example with reference to the accompanying drawings, in which:

[0020] FIG. 1 is a perspective view, with parts removed for clarity, of a packaging machine for producing packages form a sheet of packaging material, in accordance with the invention;

[0021] FIG. 2 is a schematic side view of a working unit of the packaging machine of FIG. 1;

[0022] FIG. 3 is an enlarged detail of FIG. 2;

[0023] FIG. 4 is a plan view of the sheet of packaging material of FIG. 1;

[0024] FIG. 5 is a side view of a forming and transverse sealing unit of a packaging machine for producing packages form a sheet of packaging material, in accordance with the invention;

[0025] FIG. 6 is a plan view of an applying unit of a packaging machine for producing packages form a sheet of packaging material, in accordance with the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0026] With reference to FIGS. 1 to 6, there is shown a packaging machine 1 for producing sealed packages 2, containing a pourable food product, such as pasteurized or UHT milk, fruit juice, wine, etc., from a packaging material 3 unwound off a reel (not shown) and fed along an advancing path P. When unwound off the real the packaging material has the shape of a planar sheet 100.

[0027] By means of known guide elements, rollers or similar devices (not shown), the sheet 100 is fed along the advancing path P through a sterilizing unit (not shown), whichin one embodimentcomprises a sterilizing bath.

[0028] In another embodiment (not shown), the sterilizing unit may comprise other sterilizing devices, for example a sterilizing device that irradiates the packaging material 3 with a low voltage electron beam.

[0029] The sheet 100 is fed along the advancing path P through a chamber 4 (shown by the dash line in FIG. 1), in which the sheet 100 is maintained in a sterile-air environment.

[0030] The chamber 4 comprises a top portion 6, which communicates with the sterilizing unit, and in which the sheet 100 is guided along a vertical portion P1 and a bottom portion 8 extending vertically from the top portion 6 along the portion P1.

[0031] Inside the bottom portion 8, the sheet 100 is folded longitudinally into a cylinder to form a continuous vertical tube 9 having a longitudinal axis A coaxial with the portion P1.

[0032] The packaging machine 1 comprises a number of forming assemblies, in the embodiment shown four forming assemblies, i.e. a first forming assembly 11, a second forming assembly 12, a third forming assembly 13 and a fourth forming assembly 14 located along the portion P1 inside the chamber 4 and interacting with the sheet 100 to fold the sheet 100 gradually into a cylinder and mutually superimpose a first lateral portion 100a of the sheet 100 and a second lateral portion 100b of the sheet 100, opposite the first lateral portion 100a, to form the tube 9.

[0033] The packaging machine 1 also comprises a sealing device 15 (shown schematically in FIG. 1) located along the portion P1, downstream of the fourth forming assembly 14, and which provides for sealing the superimposed first lateral portion 100a and second lateral portion 100b, so as to form a fluid-tight longitudinal seal in the tube 9.

[0034] The tube 9 is filled continuously with the sterilized or sterile-processed food product by means of a pour conduit 17 extending partly inside the tube 9 and forming part of a filling circuit (not shown).

[0035] The packaging machine 1 further comprises a forming and transversal sealing unit 5 provided with pairs of jaws 7 that interact with the tube 9 to seal and cut the tube 9 along equally spaced transverse sections to form packs 10.

[0036] The packaging machine 2 also comprises a folding unit (not shown) in which the packs 10 are subjected to successive mechanical folding operations to obtain the packages 2.

[0037] The packaging machine 1 may also comprise an application unit 16, located upstream of the sterilizing unit along path P, which applies opening devices to the sheet 100. The application unit 16 is conveniently defined by a station for molding plastic material to form a pouring spout 42 (FIG. 6) of the opening device, and through which the sheet 100 is fed in steps. At the output of the application unit 16, the sheet 100 is provided, along an intermediate longitudinal portion thereof, with a succession of equally spaced spouts 42.

[0038] The packaging material 3 comprises a plurality of marks 20 associated with corresponding portions 21 of the packaging material 3.

[0039] In the embodiment shown in FIG. 4, the packaging material 3 comprises a plurality of units 22 arranged one after the other along a direction D of the packaging material 3, each unit 22 being intended to formonce foldeda corresponding package 2. In the embodiment shown in FIG. 4, each unit 22 defines a corresponding portion 21.

[0040] The units 22 are identical to each other; in particular the units 22 have the same length in the direction D. Each unit 22 may carry a design thatonce the packaging material 3 is foldedconstitutes an outer ornamentation of the package 2.

[0041] Each unit 22 may comprise a pattern of creasing lines 23 along which the packaging material 3 is folded in the packaging machine 1 to form a corresponding package 2. In particular, all the units 22 may have the same pattern of creasing lines 23.

[0042] Each mark 20 is arranged in a predetermined position with respect to the corresponding portion 21.

[0043] In the case of the above-mentioned units 22, the marks 20 are arranged in a predetermined position with respect to the corresponding pattern of creasing lines 23. In this case, the position of the mark 20 provides a univocal indication of the position of the pattern of creasing lines 23.

[0044] In one embodiment, the marks 20 are magnetic marks carrying a magnetic field. The marks 20 may be obtained through a magnetisable ink that is distributed onto the packaging material 3 when a decor is printed on the packaging material 3. The ink is subsequently magnetized, for example when the packaging material 3 is creased. In this caseas already mentioned abovethe position of the pattern of creasing lines 23 matches the position of the corresponding mark 20.

[0045] In another embodiment, the marks 20 are optical marks. The marks 20 may be obtained when a decor is printed on the packaging material 3. In this case the position of the decor matches the position of the corresponding mark 20.

[0046] With reference to FIGS. 2 and 3, there is shown a working unit 30 of the packaging machine 1 comprising a track arrangement 31 and a plurality of transporting elements 32 movable along the track arrangement 31 independently from each other.

[0047] The track arrangement 31 houses a stator armature formed by a plurality of individually-excitable solenoids (not shown) and the transporting elements 32 house permanent magnets (not shown).

[0048] The transporting elements 32 are independently movable along the track arrangement 31 by individually controlling the solenoids.

[0049] In another embodiment, the track arrangement 31 houses the permanent magnets and the transporting elements 32 house the individually-excitable solenoids.

[0050] Each transporting element 32 is arranged for supporting a tool 40, or a device, of the packaging machine 1, which carries out a certain working operation on a corresponding portion 21 of the packaging material 3.

[0051] In the embodiment shown in FIGS. 2 and 3, the track arrangement 31 has the shape of a closed loop and comprises a working portion 34, along which the tools 40carried by the transporting elements 32interact with the packaging material 3, and a return portion 35.

[0052] Each transporting element 32 comprises a sensor device 33 arranged for detecting a corresponding mark 20 and generating a signal indicating the position of the mark 20 with respect to the transporting element 33.

[0053] In case the marks 20 are magnetic marks, the sensor devices 33 comprise magnetic sensors.

[0054] In case the marks 20 are optical marks, the sensor devices 33 comprise optical sensors.

[0055] The marks 20 can be any kind of marks applied to, or associated with, or embedded in, the packaging material 3.

[0056] In the same way, the sensor devices 33 can be any kind of sensors able to read the corresponding marks 20.

[0057] The packaging machine 1 further comprises a control unit (not shown) arranged to control the position of the transporting element 32 along the track arrangement 31 on the basis of the above-mentioned signal.

[0058] In particular, the sensor device 33 detects the distance of the mark 20 form the transporting element and sends the signal to the control unit.

[0059] The control unit, on the basis of the signal, evaluates the difference between the real position R of the transporting element 32 with respect to the portion 21 of the packaging material 3 carrying the mark 20 and a target position T of the transporting element 32 with respect to the portion 21 of the packaging material 3 carrying the mark 20. In other words, the control unit calculates the distance d between the real position R and the target position T.

[0060] The difference between the real position R and the target position T may be due to the deformability of the packaging material 3.

[0061] Subsequently, the control unit drives the transporting element 32 along the track arrangement 31 so as to minimize the distance d. In other words, the control unit drives the transporting element 32 along the track arrangement 31 so that the real position R corresponds to the target position T.

[0062] With reference to FIG. 5, there is shown an embodiment in which the working unit 30 is the forming and transverse sealing unit 5 of the packaging machine 1.

[0063] The forming and transverse sealing unit 5 comprises a plurality of pairs of jaws 7 that are movably independently from each other.

[0064] In this case, the track arrangement 31 comprises a first track 31a on which a plurality of first transporting elements 32a is movable and a second track 31b on which a plurality of second transporting elements 32b is movable.

[0065] The first track 31a and the second track 31b are parallel to each other and arranged on opposite sides of the tube 9 of packaging material 3.

[0066] In particular, each pair of jaws 7 comprises a first jaw 7a carried by a first transporting element 32a and a second jaw 7b carried by a second transporting element 32b.

[0067] In one embodiment, the first jaw 7a supports a sealing element (not shown) and the second jaw 7b supports a counter-pressure element (not shown), whichduring operationcooperates with the sealing element.

[0068] Each first transporting element 32a comprises a first sensor device 33a.

[0069] Each second transporting element 32b comprises a second sensor device 33b.

[0070] During operation, the first sensor device 33a and the second sensor device 33b detect the position of a mark 20 associated with the portion 21 of packaging material 3already folded in the tube configurationwhich has to be formed and sealed.

[0071] The control unit evaluates the difference between the real position R of the first transporting element 32a, i.e. of the first jaw 7a, and the target position T of the first transporting element 32a, i.e. of the first jaw 7a, and moves the first transporting element 32a along the first track 31a so as to minimize the distance d between the real position R and the target position T.

[0072] In the same way, the control unit evaluates the difference between the real position R of the second transporting element 32b, i.e. of the second jaw 7b, and the target position T of the second transporting element 32b, i.e. of the second jaw 7b, and moves the second transporting element 32b along the second track 31b so as to minimize the distance d between the real position R and the target position T.

[0073] In this way, the first jaw 7a and the second jaw 7b are arranged in the correct position with respect to the portion 20. This allows obtaining a good folding and sealing of the packaging material 3 and, therefore, a good quality package 2.

[0074] With reference to FIG. 6, there is shown an embodiment in which the working unit 30 is the application unit 16 of the packaging machine 1.

[0075] The application unit 16 comprises a plurality of moulds 41 that are movable independently from each other.

[0076] In this case, the track arrangement 31 comprises a track 31c on which a plurality transporting elements 32c is movable, each transporting element 32c supporting a corresponding mould 41.

[0077] Each transporting element 32c comprises a sensor device 33c.

[0078] During operation, the sensor device 33c detects the position of a mark 20 associated with the portion 21 of packaging material 3 on which a spout 42 of an opening device has to be formed.

[0079] The control unit evaluates the difference between the real position R of the transporting element 32c, i.e. of the mould 41, and the target position T of the transporting element 32c, i.e. of the mould 41, and moves the transporting element 32c along the track 31c so as to minimize the distance d between the real position R and the target position T.

[0080] In this way, the mould 41 is arranged in the correct position with respect to the portion 20. This allows molding the molten plastic material in the correct zone of the portion 21 and, therefore, obtaining a good quality spout 42.

[0081] Owing to the fact that each transporting element 32 comprises a sensor device 33, and to the fact that each transporting device 32 is movable independently from the other transporting devices 32 on the track arrangement 31, the tool 40 can be positioned very precisely with respect to the portion 21 of the packaging material 3 on which a desired operation has to be carried out. In addition, the position of the tool 40 with respect to the portion 21 is not adversely affected by the deformation of the packaging material 3.

[0082] Clearly, changes may be made to the packaging machine as described and illustrated herein without, however, departing from the scope of the present invention as defined in the accompanying claims.