Patent Grant
11618624
The present invention relates to a package for containing products, for example of a food type. The invention also relates to a process and a relative apparatus for manufacturing said package, in particular using a support or tray designed to house at least one product, and at least one plastic film, designed to mate with the support or tray in order to seal the product in a package. The finding can have application in vacuum packaging or in controlled atmosphere packaging of products of various type.
Apparatus and related methods for packaging products are known in the field of packaging. Among the packaging processes, processes that make packages with plastic films for sealing foods such as meat and fish to be frozen, cheese, treated meat, ready meals and similar foods are known. In the food packaging field, packages are known, closed by means of plastic films provided with a facilitated opening system which facilitates the opening of the package by the user, thus ensuring a simple and rapid extraction of the product from the package.
A first example of facilitated opening described in patent application no. WO 2008/029332 A1 consists of a first and a second plastic film coupled together at an outer perimetral edge so as to define a housing compartment for one or more products (the products are interposed between the first and the second film). The package has a facilitated opening system consisting of two side-by-side flaps, not overlapping each other, respectively of the first and second plastic films which emerge from the perimetral closing edge of the package. The flaps are configured for defining respective gripping portions adapted to allow the opening of the package.
Although the opening system of the aforementioned international application represents a facilitated access point for the package, the Applicant has noted that the package is not however without drawbacks. In particular, it is noted that due to the flexible structure of the package and in particular the structure of the facilitated opening system, the same package is difficult to grip and above all complex to handle during the opening steps thereof.
A second example of a facilitated opening package, described in the French patent application no. FR 3 002 209 A1, consists of a support and a plastic film welded at a perimetral edge of the support. The support comprises a gripping portion emerging from the perimetral edge; the film comprises a closing portion welded to said perimetral edge and a respective gripping portion emerging from the latter: the gripping portions of the support and the closing film, respectively, define an opening system of the package. A first part of the gripping portion of the film is superimposed (not constrained) to the gripping portion of the support and is configured for being raised relative to the latter while a second part of the gripping portion of the film is flanked by the gripping portion of the support and emerges from the perimetral edge of the latter. The second part of the film is attached to a stiffening tab deriving from the support: the second part of the film together with the stiffening tab represent the part of film which can be grasped by the user for opening the package, while the gripping portion of the support, on the other hand, is the part which can be grasped by the user for holding the support during the step of removing the film from the package.
While the solution described in the French application allows defining a package with a facilitated opening, the Applicant has found that the complex structure of the opening system requires the user to detect the correct gripping portion to be raised (film gripping portion) in such a way that the gripping portion of the support can be shown, a portion otherwise covered by the plastic film obstructing the subsequent step of removal of the film itself.
The object of the present invention is to solve the drawbacks and/or limitations of the above prior art.
A first object of the invention is to provide a package having an effective facilitated opening system to allow the user a simple and quick opening of the package; in particular, it is an object of the present invention to provide a package that provides the user with a rapid tactile and visual perception of the facilitated opening system. A further object of the present invention is to provide a package having a simple and cost-effective structure which at the same time can ensure a convenient and stable handling of the package at least during the opening of the latter. It is also an additional object of the present invention to ensure the opening of the package by means of a single movement and therefore without requiring the user to change the grip of the package during the opening steps. A further object is to provide a package that can be manufactured by means of a simple and fast in-line production, which does not require expensive modifications to the manufacturing plants of standard packages, i.e. without a facilitated opening system.
These and yet other objects, which will become more apparent from the following description, are substantially achieved by a package, an apparatus and a related process for manufacturing said package according to what is expressed in one or more of the accompanying claims and/or the following aspects, taken alone or in any combination with each other or in combination with any one of the appended claims and/or in combination with any of the other aspects or features described below.
In a 1st aspect, a package (100) is provided for containing at least one product (P) comprising:
the removable portion (21) and at least part of the closing film (10) being configured for being separated from the support (1) during a step of opening the package (100),
the package (100) being configured for defining a closed condition wherein:
In a 2nd aspect according to the preceding aspect, the package (100) comprises a gripping portion (22) emerging from the perimetral edge (6) and extending, in the closed condition of the package, at least partially transversally to the removable portion (21).
In a 3rd aspect according to any one of the preceding aspects, the removable portion (21), in the closed condition, is coplanar with at least said portion (6a) of the perimetral edge (6) from which the removable portion (21) itself extends as a prolongation.
In a 4th aspect according to the 2nd or 3rd aspect, the gripping portion (22) is integrally joined to the perimetral edge (6) of the support (1).
In a 5th aspect according to any one of aspects from the 2nd to the 4th, the gripping portion (22) extends between:
In a 6th aspect according to the preceding aspect, the end portion (23), at least in the closed condition, is distanced from the closing film (10).
In a 7th aspect according to any one of the aspects from the 2nd to the 6th, the gripping portion (22) extends along a prevalent development direction which, at least in the closed condition of the package (100), is angularly offset with respect to the removable portion (21).
In an 8th aspect according to any one of the aspects from the 2nd to the 7th, the gripping portion (22) is directly engaged to the perimetral edge (6) and is folded with respect to the latter.
In a 9th aspect according to any one of the aspects from the 2nd to the 8th, the gripping portion (22) is directly engaged to the at least said portion (6a) of the perimetral edge (6), the gripping portion (22) extending as a prolongation and being folded with respect to said portion (6a) of the perimetral edge (6).
In a 10th aspect according to any one of the preceding aspects, the perimetral edge (6) comprises an external flange (30) which lies on a plane, wherein the closing film (10) being at least partially engaged with the flange (30).
In an 11th aspect according to the preceding aspect, the gripping portion (22) extends along a respective plane transverse to the lying plane of the flange (30).
In a 12th aspect, according to the preceding aspect, the lying plane of the flange (30) and the extension plane of the gripping portion (22), in the closed condition of the package (100), are transversal to each other.
In a 13th aspect according to the 11th or 12th aspect, the lying plane of the flange (30) and the extension plane of the gripping portion (22), in the closed condition of the package (100), are incident to each other at the attachment portion (24).
In a 14th aspect according to any one of the aspects from the 10th to the 13th, the removable portion (21), in the closed condition of the package, extends along a main direction coplanar to the lying plane of the flange (30).
In a 15th aspect according to any one of the aspects from the 2nd to the 14th, the gripping portion (22) comprises a tab emerging from the perimetral edge (6).
In a 16th aspect according to the preceding aspect, the tab of the gripping portion (22) lies on a plane.
In a 17th aspect according to any one of the preceding aspects, the removable portion (21) comprises a respective tab.
In an 18th aspect according to the preceding aspect, the tab of the removable portion (21) lies on a plane.
In a 19th aspect according to the 17th or 18th aspect, the tabs, respectively of the gripping portion (22) and removable portion (21), at least in the closed condition of the package (100), are angularly offset from each other.
In a 20th aspect according to any one of the aspects from the 2nd to the 19th, the gripping portion (22) and the removable portion (21), in the closed condition of the package (100), are inclined at an angle with each other of between 5° and 135°, optionally between 20° and 95°, even more optionally between 30° and 90°.
In a 21st aspect according to any one of the preceding aspects, the closing film (10) extends in thickness between a first and a second surface (10a, 10b), the support (1) extending in thickness between a first and a second surface (1a, 1b), wherein the second surface (10b) of the closing film (10) contacts at least in part the first surface (1a) of the support (1).
In a 22nd aspect according to the preceding aspect, wherein:
wherein the first surface (22a) of the gripping portion (22) does not contact the closing film (10).
In a 23rd aspect according to the 21st or 22nd aspect, the second surface (10b) of the closing film (10) is at least partly engaged to the perimetral edge (6) and to the removable portion (21).
In a 24th aspect according to any one of the preceding aspects, the removable portion (21), in the closed condition of the package, is:
In a 25th aspect according to any one of the preceding aspects, the removable portion (21) has a mechanical stiffness greater than a mechanical stiffness of the closing film (10).
In a 26th aspect according to any one of the preceding aspects, the removable portion (21) has a mechanical stiffness substantially equal to a mechanical stiffness of the perimetral edge (6) of the support (1).
In a 27th aspect according to any one of the preceding aspects, the removable portion (21) has a thickness greater than a thickness of the closing film (10).
In a 28th aspect according to any one of the preceding aspects, the removable portion (21) has a thickness of at least 1.5 times, in particular 3 times, greater than a thickness of the closing film (10).
In a 29th aspect according to any one of the preceding aspects, the base (2) of the support (1) comprises a bottom wall (8) and a lateral wall (7), said lateral wall (7) emerging, in height, from the bottom wall (8) transversally to this latter, and defining, cooperatively with said bottom wall (8), a containment seat intended to receive the product (P).
In a 30th aspect according to the preceding aspect, the flange (30) of the perimetral edge (6) emerges from the lateral wall (7) according to a direction exiting from the containment seat, said flange (30) being distanced from the bottom wall (8).
In a 31st aspect according to the 29th or 30th aspect, the gripping portion (22) is arranged at the side of the lateral wall (7).
In a 32nd aspect according to any one of the aspects from the 29th to the 31st, the end portion (23) of the gripping portion (22) is spaced from the lateral wall (7) of the base (2).
In a 33rd aspect according to any one of the aspects from the 5th to the 32nd, the end portion (23) of the gripping portion (22), at least in the closed condition of the package, is spaced from the removable portion (21).
In a 34th aspect according to any one of the aspects from the 5th to the 33rd, the end portion (23) of the gripping portion (22), at least in the closed condition of the package, is spaced from the closing film (10).
In a 35th aspect according to the 33rd or 34th aspect, wherein the ratio between the distance of the end portion (23) from the lateral wall (7) and the distance of the same end portion (23) from the removable portion (21), in the closed condition of the package, is between 0.4 and 1.6, optionally between 0.8 and 1.2.
In a 36th aspect according to any one of the preceding aspects, the support (1) comprises at least one angular portion (11), the removable portion (21) being located at the at least one angular portion (11).
In a 37th aspect according to the preceding aspect, the removable portion (21) defines at least part of said angular portion (11).
In a 38th aspect according to the 36th or 37th aspect, the gripping portion (22) is arranged at said at least one angular portion (11).
In a 39th aspect according to any one of the aspects from the 36th to the 38th, the gripping portion (22) and the removable portion (21) are arranged at a same angular portion (11) of the support (1).
In a 40th aspect according to any one of the aspects from the 36th to the 39th, the support (1) comprises a plurality of angular portions (11), wherein the removable portion (21) defines at least part of only one of said angular portions (11), wherein the gripping portion (22) is arranged at said angular portion defined at least in part by said removable portion (21).
In a 41st aspect according to any one of the preceding aspects, the removable portion (21) has a substantially “L” or “C” or “U” or “V” shape having a concavity facing the base (2) of the support (1).
In a 42nd aspect according to any one of the preceding aspects, the removable portion (21) and at least part of the perimetral edge (6), at least in the closed condition of the package, delimiting an opening (12), wherein at least in the closed condition of the package, the closing film (10) is placed for covering said opening (12).
In a 43rd aspect according to the preceding aspect, said opening (12) is defined, at least in the closed condition of the package, between said removable portion (21) and at least part of the flange (30).
In a 44th aspect according to any one of the preceding aspects, the package comprises at least one product (P), optionally of a food-type, arranged in the housing compartment (5), wherein the closing film (10) is tight-fluidly engaged to the perimetral edge (6) of the support (1), optionally engaged to the flange (30), so that the housing compartment (5) is fluid-tight.
In a 45th aspect according to any one of the preceding aspects, wherein:
In a 46th aspect according to any one of the preceding aspects, the support (1) is entirely made of plastic material, optionally obtained by means of a thermoforming process.
In a 47th aspect according to any one of aspects from the 2nd to the 46th, the gripping portion (22) is entirely made of plastic material.
In a 48th aspect, a process is provided for manufacturing a package (100) for containing at least one product (P) according to any one of the preceding aspects.
In a 49th aspect according to the preceding aspect, the process comprises at least the following steps:
In a 50th aspect according to the preceding aspect, comprising a step of making at least one through cut in the sheet (200) and in the closing film (201), such through cut—cooperatively with the notch made on the sheet material (200), is adapted to delimit the removable portion (21) and optionally to define said package (100).
In a 51st aspect according to the preceding aspect, the through cut intersects—in at least one point—the at least one notch in the sheet material (200) in order to delimit at least partially said removable portion (21).
In a 52nd aspect according to any one of the aspects from the 49th to the 51st, the step of constraining a closing film (201) to the sheet material (200) is subsequent to the folding step of the second semifinished portion (222) adapted to define said gripping portion (22).
In a 53th aspect according to any one of the aspects from the 50th to the 52nd, the step of through cut of the sheet (200) and of the closing film (201) is subsequent to the step of constraining said closing film (201) to the sheet material (200).
In a 54th aspect according to any one of the aspects from the 49th to the 51st, the constraint of the closing film (201) on the sheet material (200) is carried out by heat-sealing.
In a 55th aspect according to any one of the aspects from the 49th to the 51st, the process comprises:
In a 56th aspect according to any one of the aspects from the 49th to the 51st wherein, upon folding the second semifinished portion (222) of the sheet material (200), a through opening of the sheet material is obtained, optionally the opening (12) of the support (1) is obtained,
wherein the process comprises a step of occluding, optionally filling, said through opening by the step of constraining said closing film (201) on the sheet material (200).
In a 57th aspect according to any one of the aspects from the 49th to the 56th, the steps of notching and folding the second semifinished portion (222) are combined into a single step of punching the sheet material (200).
In a 58th aspect according to any one of the aspects from the 49th to the 57th, the process comprises a step of thermoforming the sheet material (200) for defining a precursor body comprising a plurality of semifinished supports (1c), each semifinished support (1c) comprising:
wherein the step of notching the sheet material (200) provides for making at least one through cut on the perimetral edge (6) of each semifinished support (1c) to define the first and second semifinished portions which are alongside each other, wherein the process provides for folding the second semifinished portion of each semifinished support (1c), said second folded semifinished portion being configured for defining the gripping portion (22) of the support (1).
In a 59th aspect according to the preceding aspect, the step of constraining the closing film (201) to at least one portion of the sheet material (200) comprises a step of fluid-tightly heat-sealing said closing film (201) to the perimetral edge (6) of each semifinished support (1c) of the precursor body, each semifinished support (1c), cooperatively with the closing film, defining a housing compartment (5) for at least one product (P).
In a 60th aspect according to the 58th or 59th aspect, the step of positioning the product (P) on the sheet material (200) comprises resting at least one product (P) on the base (2) of the semifinished support (1c) of the precursor body.
In a 61st aspect according to any one of the preceding claims, the process comprises a step of making a through cut in the precursor body, on which the plurality of semifinished supports (1c) are defined, and in the closing film (201) associated to the precursor body for defining, at the end of the step of making the through cut, a plurality of single packages (1) according to any one of the aspects from the 1st to the 47th.
In a 62nd aspect, an apparatus (300) is provided for making a package according to any one of the aspects from the 1st to the 47th, the apparatus (300) being configured for performing the process according to any one of the aspects from the 48th to the 61st.
In a 63rd aspect according to the preceding aspect, the apparatus (300) comprises:
In a 64th aspect according to the preceding aspect, the apparatus comprises at least one cutting station (310) placed downstream of the notching station (305) configured for defining a through cut of the sheet material (200) and closing film (201) for forming said packages (100).
In a 65th aspect according to the 63rd or 64th aspect, the packaging station (307) is synchronized with at least one of the conveyor (302), the first supplying group (301) or the second supplying group (303).
In a 66th aspect according to any one of the aspects from the 63rd to the 65th, the apparatus comprises a positioning station (304) configured for housing at least one product (P) on the sheet material (200) upstream of the packaging station (307).
In a 67th aspect according to the preceding aspect, the positioning station (304) is configured for housing, upstream of the packaging station (307), at least one product (P) on at least one base (2) of the supports (1) defined on the sheet material (200).
In a 68th aspect according to any one of the aspects from the 63rd to the 67th, the apparatus comprises a forming station (308) configured for making the supports (1), by means of a thermoforming process, on the sheet material, said forming station being arranged upstream of the packaging station (307).
In a 69th aspect according to the preceding aspect, the forming station (308) is configured for performing a thermoforming of the sheet material (200) to define on the latter one or more semifinished supports (1c) each of which comprises:
comprising:
In a 70th aspect according to any one of the aspects from the 63rd to the 69th, the notching station (305) and the folding station (306) are joined together to define a single punching station configured for performing the notching and the folding of sheet material (200) at the same time.
In a 71st aspect, a support (1) for packages (100) is provided for the containment of products (P), said support (1) being of the type according to any one of the aspects from the 1st to the 47th, optionally obtained through the process according to any one of the aspects from the 48th to the 61st.
In a 72nd aspect, a support (1) for packages (100) is provided for the containment of products (P), said support (1) comprising:
at least part of the removable portion (21) and of the perimetral edge (6) are configured for receiving in engagement a closing film (10) of the support (1),
wherein the removable portion (21) is configured for being separated from the support (optionally from the rest of the support or base and movable portion) during a package (100) opening step.
In a 73rd aspect according to the preceding aspect, the support comprises a gripping portion (22) emerging from the perimetral edge (6) and extending, in the closed condition of the package, at least partially transversally to the removable portion (21).
In a 74th aspect according to any one of the preceding aspects, the removable portion (21) is coplanar with at least said portion (6a) of the perimetral edge (6) from which the removable portion (21) itself extends as a prolongation.
In a 75th aspect according to the 73rd or 74th aspect, the gripping portion (22) is integrally joined to the perimetral edge (6) of the support (1).
In a 76th aspect according to any one of aspects from the 73rd to the 75th, the gripping portion (22) extends between:
In a 77th aspect according to the preceding aspect, the end portion (23) is distanced from the closing film (10).
In a 78th aspect according to any one of the aspects from the 73rd to the 77th, the gripping portion (22) extends along a prevalent development direction which is angularly offset with respect to the removable portion (21).
In a 79th aspect according to any one of the aspects from the 73rd to the 78th, the gripping portion (22) is directly engaged to the perimetral edge (6) and is folded with respect to the latter.
In an 80th aspect according to any one of the aspects from the 73rd to the 79th, the gripping portion (22) is directly engaged to the at least said portion (6a) of the perimetral edge (6), the gripping portion (22) extending as a prolongation and being folded with respect to said portion (6a) of the perimetral edge (6).
In an 81st aspect according to any one of the aspects from the 71st to the 80th, the perimetral edge (6) comprises an external flange (30) which lies on a plane and which is configured for receiving the closing film in engagement.
In an 82nd aspect according to the preceding aspect, the gripping portion (22) extends along a respective plane transverse to the lying plane of the flange (30).
In an 83rd aspect, according to the preceding aspect, the lying plane of the flange (30) and the extension plane of the gripping portion (22) are transversal to each other.
In an 84th aspect according to the 82nd or 83rd aspect, the lying plane of the flange (30) and the extension plane of the gripping portion (22) are incident to each other at the attachment portion (24).
In an 85h aspect according to any one of the aspects from the 81st to the 84th, the removable portion (21) extends along a main direction coplanar to the lying plane of the flange (30).
In an 86th aspect according to any one of the aspects from the 73rd to the 85th, the gripping portion (22) comprises a tab emerging from the perimetral edge (6).
In an 87th aspect according to the preceding aspect, the tab of the gripping portion (22) lies on a plane.
In an 88th aspect according to any one of the aspects from the 71st to the 87th, the removable portion (21) comprises a respective tab.
In an 89th aspect according to the preceding aspect, the tab of the removable portion (21) lies on a plane.
In a 90th aspect according to the 88th or 89th aspect, the tabs, respectively of the gripping portion (22) and of the removable portion (21) are angularly offset from each other.
In a 91st aspect according to any one of the aspects from the 73rd to the 90th, the gripping portion (22) and the removable portion (21) are inclined by an angle of between 5° and 135°, optionally between 20° and 95°, even more optionally between 30° and 90°.
In a 92nd aspect according to any one of the aspects from the 71st to the 91st, the removable portion is integrally joined to the perimetral edge (6) of the support (1) by at least one weakening portion (25) of the support (1), optionally said weakening portion (25) being configured for ensuring the separation of the removable portion (21) itself from the perimetral edge (6) of the support (1) during a step of opening the package (100) following the closed condition.
In a 93rd aspect according to any one of the aspects from the 71st to the 92nd, the removable portion (21) has a mechanical stiffness substantially equal to a mechanical stiffness of the perimetral edge (6) of the support (1).
In a 94th aspect according to any one of the aspects from the 71st to the 93rd, the base (2) of the support (1) comprises a bottom wall (8) and a lateral wall (7), said lateral wall (7) emerging, in height, from the bottom wall (8) transversally to this latter, and defining, cooperatively with said bottom wall (8), a containment seat intended to receive the product (P).
In a 95th aspect according to the preceding aspect, the flange (30) of the perimetral edge (6) emerges from the lateral wall (7) according to a direction exiting from the containment seat, said flange (30) being distanced from the bottom wall (8).
In a 96th aspect according to the 94th or 95th aspect, the gripping portion (22) is arranged at the side of the lateral wall (7).
In a 97th aspect according to any one of the aspects from the 94th to the 96th, the end portion (23) of the gripping portion (22) is spaced from the lateral wall (7) of the base (2).
In a 98th aspect according to any one of the aspects from the 71st to the 97th, the end portion (23) of the gripping portion (22) is spaced from the removable portion (21).
In a 99th aspect according to any one of the aspects from the 71st to the 98th, wherein the ratio between a distance of the end portion (23) from the lateral wall (7) and a distance of the same end portion (23) from the removable portion (21) is between 0.4 and 1.6, optionally between 0.8 and 1.2.
In a 100th aspect according to any one of the aspects from the 71st to the 99th, the support (1) comprises at least one angular portion (11), the removable portion (21) being located at the at least one angular portion (11).
In a 101st aspect according to the preceding aspect, the removable portion (21) defines at least part of said angular portion (11).
In a 102nd aspect according to the 100th or 101st aspect, the gripping portion (22) is arranged at said at least one angular portion (11).
In a 103rd aspect according to any one of the aspects from the 71st to the 102nd, the gripping portion (22) and the removable portion (21) are arranged at a same angular portion (11) of the support (1).
In a 104th aspect according to any one of the aspects from the 71st to the 103rd, the support (1) comprises a plurality of angular portions (11), wherein the removable portion (21) defines at least part of only one of said angular portions (11), wherein the gripping portion (22) is arranged at said angular portion defined at least in part by said removable portion (21).
In a 105th aspect according to any one of the aspects from the 71st to the 104th, the removable portion (21) has a substantially “L” or “C” or “U” or “V” shape having a concavity facing the base (2) of the support (1).
In a 106th aspect according to any one of the aspects from the 71st to the 105th, the removable portion (21) and at least part of the perimetral edge (6), at least in the closed condition of the package, delimiting an opening (12) defined in interposition between said removable portion (21) and at least part of the flange (30).
In a 107th aspect according to any one of the aspects from the 71st to the 106th, the support (1) is entirely made of plastic material, optionally obtained by means of a thermoforming process.
In a 108th aspect according to any one of aspects from the 71st to the 107th, the gripping portion (22) is entirely made of plastic material.
In a 109th aspect, a process is provided for making a support according to any one of the aspects from the 71st to the 108th, said process comprising the following steps:
In a 110th aspect according to the preceding aspect, wherein the sheet material has a flat configuration, the process comprises a thermoforming step of said sheet material so as to define the support (1) comprising the base (2), the perimetral edge (6), optionally the flange (30).
In a 111th aspect according to the preceding aspect, wherein the notching step is subsequent to the thermoforming step of the sheet material, the notching being made on the perimetral edge (6) of the support (1).
In a 112th aspect according to any one of the aspects from the 109th to the 111th, wherein the notching is configured for delimiting the removable portion (21) on the perimetral edge, which is integrally joined to the latter by means of a weakening portion (25).
Some embodiments and some aspects of the invention are described hereinafter with reference to the accompanying drawings, provided only for illustrative and, therefore, non-limiting purposes, in which:
Conventions
It should be noted that in the present detailed description, corresponding parts illustrated in the various figures are indicated by the same reference numerals. The figures may illustrate the object of the invention by representations that are not in scale; therefore, parts and components illustrated in the figures relating to the object of the invention may relate solely to schematic representations.
The terms upstream and downstream refer to a direction of advancement of a package—or of a support for making said package—along a predetermined path starting from a starting or forming station of a support for said package, through a packaging station and then up to a package unloading station.
Definitions
Product
The term product P means an article or a composite of articles of any kind. For example, the product may be of a foodstuff type and be in solid, liquid or gel form, i.e. in the form of two or more of the aforementioned aggregation states. In the food sector, the product may comprise: meat, fish, cheese, treated meats, prepared and frozen meals of various kinds.
Control Unit
The packaging apparatus described and claimed herein includes at least one control unit designed to control the operations performed by the apparatus. The control unit can clearly be only one or be formed by a plurality of different control units according to the design choices and the operational needs.
The term control unit means an electronic component which can comprise at least one of: a digital processor (for example comprising at least one selected from the group of: CPU, GPU, GPGPU), a memory (or memories), an analog circuit, or a combination of one or more digital processing units with one or more analog circuits. The control unit can be “configured” or “programmed” to perform some steps: this can be done in practice by any means that allows configuring or programming the control unit. For example, in the case of a control unit comprising one or more CPUs and one or more memories, one or more programs can be stored in appropriate memory banks connected to the CPU or to the CPUs; the program or programs contain instructions which, when executed by the CPU or the CPUs, program or configure the control unit to perform the operations described in relation to the control unit. Alternatively, if the control unit is or includes analog circuitry, then the control unit circuit may be designed to include circuitry configured, in use, for processing electrical signals so as to perform the steps related to control unit. The control unit may comprise one or more digital units, for example of the microprocessor type, or one or more analog units, or a suitable combination of digital and analog units; the control unit can be configured for coordinating all the actions necessary for executing an instruction and instruction sets.
Actuator
The term actuator means any device capable of causing movement on a body, for example on a command of the control unit (reception by the actuator of a command sent by the control unit). The actuator can be of an electric, pneumatic, mechanical (for example with a spring) type, or of another type.
Support
The term support means both a flat support and a tray comprising at least one base and at least one lateral wall emerging from the outer perimeter of the base and optionally a terminal flange emerging radially outwardly from an upper perimetral edge of the lateral wall. The outer flange can extend along a single prevailing development plane or can be shaped; in the case of a shaped outer flange, the latter may for example exhibit multiple portions extending along different prevailing development planes, particularly parallel but offset from each other; the portions of the shaped outer flange may be radially offset.
The support defines a top surface on which the product P can be placed and/or a volume inside which the product can be housed. The tray may comprise an upper edge portion emerging radially from a free edge of the lateral wall opposite the base: the upper edge portion emerges from the lateral wall in an outgoing direction relative to the tray volume.
The flat support can be of any shape, for example rectangular, rhomboidal, circular or elliptical; similarly, the tray with lateral wall can have a base of any shape, for example rectangular, rhomboidal, circular or elliptical. The support can be formed by means of a specific manufacturing process distinct from the packaging process or can be implemented in line with the packaging process.
The support can be made at least partly of paper material, optionally having at least 50% by weight, preferably at least 70% by weight, of organic material comprising one or more of cellulose, hemicellulose, lignin, lignin derivatives. The subject paper material extends between a first and a second prevailing development surface. The paper sheet material used for making the support may, in one embodiment variant, be covered by at least a part of the first and/or second prevailing development surface by means of a plastic coating, such as a food-grade film. If the coating is arranged so as to cover at least part of the first prevailing development surface, the same coating will define an inner surface of the support. Vice versa, if the coating is arranged on the second prevailing development surface, the same coating will define an outer surface of the support. The coating may also be heat-treated in such a way as to be able to act as an element for engaging and securing portions of the support as better described below. The coating may also be used to define a sort of barrier to water and/or humidity useful for preventing the weakening and loss of structurality of the support with consequent uncontrolled deformation of the paper material constituting the latter component. The coating can be applied to the paper material (as specified above on the inside and/or outside of the support) in the form of a so-called lacquer deposited from a solution or sprayed, the thickness whereof is generally comprised between 0.2 μm and 10 μm. Alternatively, the coating may comprise a plastic film, for example a polyethylene, which can be applied by means of a rolling process, on one or both sides (inner and/or outer side) of the paper material defining the support. In case the coating is applied by rolling, the values of the plastic film (coating) may, for example, range from 10 μm to 400 μm, in particular, from 20 μm to 200 μm, even more in particular, from 30 μm to 80 μm, of coating material (i.e., polyethylene). The plastic coating material may be selected, by way of example, from the following materials: PP, PE (HDPE, LDPE, MDPE, LLDPE), EVA, polyesters (including PET and PETg), PVdC.
The support may be alternatively made at least in part of a mono-layer or multilayer thermoplastic material. The support may be provided with gas barrier properties. As used herein, this term refers to a film or sheet of material that has an oxygen transmission rate of less than 200 cm3/(m2*day*bar), less than 150 cm3/(m2*day*bar), less than 100 cm3/(m2*day*bar) when measured in accordance with ASTM D-3985 at 23° C. and 0% relative humidity. Gas barrier materials suitable for single-layer thermoplastic containers are e.g. polyesters, polyamides, ethylene vinyl alcohol (EVOH), PVdC and the like.
The support may be made of a multilayer material comprising at least one of: one or more gas barrier layers, one or more heat-sealable layers (layers adapted to allow the welding of a plastic film to the support), one or more outer layers (for example polyamide or polypropylene or polyester).
The gas barrier polymers that can be used for the gas barrier layer are PVDC, EVOH, polyamides, polyesters and mixtures thereof. Generally, a PVDC barrier layer will contain plasticizers and/or stabilizers as known in the art. The thickness of the gas barrier layer will be set in order to provide the material of which the support is composed with an oxygen transmission rate at 23° C. and 0% relative humidity of, less than 50 cm3/(m2*day*atm), preferably less than 10 cm3/(m2*day*atm), when measured in accordance with ASTM D-3985.
The heat-sealable layer may be selected from polyolefins, such as ethylene homo- or copolymers, propylene homo- or copolymers, ethylene/vinylacetate copolymers, ionomers and homo- or co-polyesters, e.g. PETG, a glycol-modified polyethylene terephthalate.
A frangible layer that is easy to open can be positioned adjacent to the heat-sealable layer of the support to facilitate the opening of the final packaging. Blends of low-cohesion polymers which can be used as a frangible layer are for example those described in WO 99/54398.
Additional layers, such as adhesive layers, for example to make the gas barrier layer better adhere to the adjacent layers, may preferably be present in the multilayer material of the support and are selected based on the specific resins used for the gas barrier layer.
In the case of a multilayer structure, part of it can be formed as a foam. For example, the multilayer material used for forming the support can comprise (from the outermost layer to the layer of contact with the more internal foods) one or more structural layers, typically made of a material such as expanded polystyrene, expanded polyester or expanded polypropylene, or of cardboard, or sheet for example polypropylene, polystyrene, poly(vinyl chloride), polyester; a gas barrier layer and a heat-sealable layer.
The overall thickness of the support may typically be up to 5 mm. For example, the thickness may be between 0.04 mm and 3.00 mm, optionally between 0.05 mm and 1.50 mm, even more optionally between 0.6 mm and 1.00 mm; in one embodiment, the support comprises an overall thickness of between 0.06 and 0.4 mm.
The support may be made entirely of paper material (optionally coating in plastic film) or it may be entirely made of plastic material. Alternatively, the support may be at least partly made of paper material and at least partly of plastic material; in particular, the support is made internally of plastic material and externally covered at least partly in paper material.
The support can also be used to define so-called ready-meal packages; in this configuration, the supports are made so that they can be inserted in the oven for heating and/or cooking the food product placed in the package. In this embodiment (supports for ready-meal packages), the support can, for example, be made of paper material, in particular cardboard, covered with polyester or can be entirely made of a polyester resin. For example, supports suitable for ready-meal packages are made of PP, CPET, APET or APET/CPET, foamed or non-foamed materials. The support may further comprise a heat-sealable layer of a low melting material on the film. This heat-sealable layer can be co-extruded with a PET based layer (as described in patent applications no. EP-A-1, 529,797 and WO 2007/093495 A1) or it can be deposited on the base film by solvent deposition or by extrusion coating (for example described in documents U.S. Pat. No. 2,762,720 and EP-A-1, 252,008).
In a further embodiment, the support may be made at least partly of metal material, in particular aluminum. The support can also be made at least partly of aluminum and/or at least partly of paper material. In general, the support can be made in at least one of the following materials: metal, plastic, paper.
Film
A film made of plastic material, in particular polymeric material, is applied to the supports (flat supports or trays), so as to create a fluid-tight package housing the product. In order to make a vacuum pack, the film applied to the support is typically a flexible multilayer material comprising at least a first outer heat-sealable layer capable of welding to the inner surface of the support, optionally a gas barrier layer and a second, heat-resistant outer layer.
If it is desired to make a modified atmosphere package (MAP) or a package under natural atmosphere (non-modified atmosphere), the film applied with the support (film made of plastic, in particular polymeric material) may typically be single-layer or multilayer. In the case of a multilayer sheet, the film may comprise at least one of: one or more gas barrier layers, one or more heat-sealable layers (layers adapted to allow a plastic film to be welded to the support), one or more heat-resistant layers, one or more outer layers (for example polyamide or polypropylene or polyester).
For use in a skin-pack or VSP packaging process, plastic materials, especially polymers, should be easily formed as the film needs to be stretched and softened by contact with the heating plate before it is laid on the product and the support. The film must rest on the product conforming to its shape and possibly to the internal shape of the support.
The heat-sealable (for example outer) layer may comprise any polymer capable of welding to the inner surface of the support. Suitable polymers for the heat-sealable layer can be ethylene and ethylene copolymers, such as LDPE, ethylene/alpha-olefin copolymers, ethylene/acrylic acid copolymers, ethylene/vinyl acetate copolymers or ethylene/vinyl acetate copolymers, ionomers, co-polyesters, for example PETG. Preferred materials for the heat-sealable layer are LDPE, ethylene/alpha-olefin copolymers, e.g. LLDPE, ionomers, ethylene/vinyl acetate copolymers and mixtures thereof.
Depending on the product to be packaged, the film may comprise a gas barrier layer. The gas barrier layer typically comprises oxygen-impermeable resins such as PVDC, EVOH, polyamides and mixtures of EVOH and polyamides. Typically, the thickness of the gas barrier layer is set to provide the film with an oxygen transmission rate of 23° C. and 0% relative humidity of, less than 100 cm3/m2*m2*atm, preferably less than 50 cm3/(m2*day*atm), when measured in accordance with ASTM D-3985. Common polymers for the heat-resistant outer layer are, for example, ethylene homo- or copolymers, in particular HDPE, ethylene copolymers and cyclic olefins, such as ethylene/norbornene copolymers, propylene homo- or copolymers, ionomers, polyesters, polyamides.
The film in its multilayer form may further comprise other layers such as adhesive layers, filling layers and the like to provide the thickness necessary for the film and improve its mechanical properties, such as puncture resistance, abuse resistance, formability and the like. The film is obtainable by any suitable co-extrusion process, through a flat or circular extrusion head, optionally by co-extrusion or by hot blow molding.
Again for use in a skin-pack or VSP packaging process, the film is substantially non-oriented. Typically, the film, or only one or more of its layers, is cross-linked to improve, for example, the strength of the film and/or heat resistance when the film is brought into contact with the heating plate during the vacuum skin packaging process. Crosslinking can be achieved by using chemical additives or by subjecting the film layers to an energy-radiation treatment, such as high-energy electron beam treatment, to induce crosslinking between molecules of the irradiated material. Films suitable for this application may have a thickness in the range between 50 μm and 500 μm, optionally between 60 μm and 3000 μm, even more optionally between 65 μm and 100 μm.
For use in packaging processes of products under controlled atmosphere (MAP) or in a natural atmosphere (unmodified atmosphere), the film applied to the substrate (plastic film, in particular polymeric) is typically mono-layer or multilayer, having at least one heat-sealable layer, optionally capable of thermo-retracting under heat action. The applied film may further comprise at least one gas barrier layer and optionally an heat-resistant outer layer. In particular, the film can be obtained by co-extrusion and lamination processes. The film may have a symmetrical or asymmetrical structure and may be single-layer or multilayer. Multilayer films are composed of at least two layers, more frequently at least five layers, often at least seven layers.
The total thickness of the film can range from 30 μm to 500 μm, optionally from 40 μm to 300 μm, even more optionally from 50 μm to 200 μm; in one embodiment the film, has a thickness of between 65 μm and 100 μm.
The films may possibly be cross-linked. Crosslinking can be achieved by irradiation with high energy electrons at an appropriate dosage level as known in the art. The films described above can be heat-shrinkable or heat-curable. Heat-shrinkable films normally show a free shrinking value at 120° C. (value measured in accordance with ASTM D2732, in oil) in the range from 2% to 80%, normally from 5% to 60%, in particular from 10% to 40% in both longitudinal and transverse directions. Heat-curable films normally have a shrinkage value of less than 10% at 120° C., normally less than 5% both in the transverse and longitudinal direction (measured in accordance with the ASTM D2732 method, in oil). Films normally comprise at least one heat-sealable layer and an outer layer (the outermost) generally consisting of heat-resistant polymers or polyolefins. The welding layer typically comprises a heat-sealable polyolefin which in turn comprises a single polyolefin or a mixture of two or more polyolefins such as polyethylene or polypropylene or a mixture thereof. The welding layer may also be provided with anti-fogging properties through known techniques, for example by incorporation in its composition of anti-fogging additives or through a coating or a spraying of one or more anti-fogging additives that counteract the fogging on the surface of the welding layer. The welding layer may also comprise one or more plasticizers. The outermost layer may comprise polyesters, polyamides or polyolefins. In some structures, a mixture of polyamide and polyester can be used for the outermost layer. In some cases, the films include a gas barrier layer. Barrier films normally have an oxygen transmission rate, also called OTR (Oxygen Transmission Rate) below 200 cm3/(m2*day*atm) and more frequently below 80 cm3/(m2*day*atm) evaluated at 23° C. and 0% RH measured in accordance with the ASTM D-3985 method. The barrier layer is normally made of a thermoplastic resin selected from a saponified or hydrolyzed product of ethylene-vinyl acetate copolymer (EVOH), an amorphous polyamide and vinyl-vinylidene chloride and mixtures thereof. Some materials include an EVOH barrier layer, layered between two polyamide layers. In some packaging applications, films do not include any gas barrier layer. These films usually comprise one or more polyolefins as defined herein.
Non-gas barrier films normally have an OTR (evaluated at 23° C. and 0% RH in accordance with ASTM D-3985) of 100 cm3/(m2*day*atm) up to 10000 cm3/(m2*day*atm), more often up to 6000 cm3/(m2*day*atm).
Peculiar compositions based on polyester are those used for the films of the so-called ready-meals. For these films, the polyester resins of the film may constitute at least 50%, 60%, 70%, 80% and 90% by weight of the film. These films are normally used in combination with supports, especially trays, made from polyester. In the case of packages for fresh red meat, a double film may be used, comprising an oxygen permeable inner film and an oxygen impermeable outer film. The combination of these two films greatly prevents discoloration of the meat even in the most critical situation in the barrier packaging of fresh meat or when the packaged meat extends outside the cavity defined by the tray, or in which the product emerges from the upper perimetral edge of the lateral wall. These films are described for example in European patent applications EP1848635 and EP0690012.
The film may be single-layer. The typical composition of the single-layer films comprises the polyesters as defined herein and mixtures thereof or the polyolefins as defined herein and mixtures thereof.
In all the film layers described herein, the polymeric components may contain suitable amounts of additives normally included in such compositions.
Some of these additives are normally included in the outer layers or in one of the outer layers, while others are normally added to the inner layers. These additives include slipping or anti-blocking agents such as talc, waxes, silica and the like, or antioxidant agents, stabilizers, plasticizers, fillers, pigments and dyes, cross-linking inhibitors, cross-linking agents, UV absorbers, odor absorbers, oxygen absorbers, bactericides, antistatic agents, antifog agents or compositions and similar additives known to the man skilled in the art of packaging.
The films may have one or more holes adapted to allow the fluid communication between the inner volume of the package and the external environment, or, in the case of a food product, allow the packaged food to exchange gas with the outside; the perforation of the films can, for example, be performed by means of a laser beam or mechanical means, such as rollers provided with needles. The number of perforations applied and the size of the holes influence the permeability to the gases of the film itself.
Micro-perforated films are usually characterized by OTR values (evaluated at 23° C. and 0% RH in accordance with ASTM D-3985) of 2500 cm3/(m2*day*atm) up to 1000000 cm3/(m2*day*atm). Macro-perforated films are usually characterized by OTR values (evaluated at 23° C. and 0% RH in accordance with ASTM D-3985) higher than 1000000 cm3/(m2*day*atm).
Furthermore, the films described herein can be formulated to provide strong welds with the support or tray or peelable from the tray/support. As described above, the film may be of a multilayer type and have at least one easy to open frangible layer which can be positioned adjacent a heat-sealable layer to facilitate the opening of the final packaging: the frangible layer is adapted to allow easy removal of the same film from the support to which it is associated. This film is described for example in the PCT patent application no. WO 2017/153434 A1. A method of measuring the strength of a weld, herein referred to as a “welding force, is described in ASTM F-88-00. Acceptable welding force values to have a peelable weld are between 100 g/25 mm and 850 g/25 mm, 150 g/25 mm to 800 g/25 mm, 200 g/25 mm to 700 g/25 mm.
Material Specifications
The term paper material means paper or cardboard; in particular, the sheet material that can be used to make the support can have a weight of between 30 g/m2 and 600 g/m2, in particular between 40 g/m2 and 500 g/m2, even more particularly between 50 g/m2 and 250 g/m2.
PVDC is any vinylidene chloride copolymer in which a prevalent amount of the copolymer comprises vinylidene chloride and a lower amount of the copolymer comprises one or more unsaturated monomers copolymerizable therewith, typically vinyl chloride and alkyl acrylates or methacrylates (for example methyl acrylate or methacrylate) and mixtures thereof in different proportions.
The term EVOH includes saponified or hydrolyzed ethylene-vinyl acetate copolymers and refers to ethylene/vinyl alcohol copolymers having an ethylene co-monomer content preferably composed of a percentage of from about 28 mole % to about 48 mole %, more preferably from about 32 mole % and about 44 mole % of ethylene and even more preferably, and a saponification degree of at least 85%, preferably at least 90%.
The term polyamides is meant to indicate homo- and co- or ter-polymers. This term specifically includes aliphatic polyamides or co-polyamides, e.g. polyamide 6, polyamide 11, polyamide 12, polyamide 66, polyamide 69, polyamide 610, polyamide 612, copolyamide 6/9, copolyamide 6/10, copolyamide 6/12, copolyamide 6/66, copolyamide 6/69, aromatic and partly aromatic polyamides or copolyamides, such as polyamide 61, polyamide 6I/6T, polyamide MXD6, polyamide MXD6/MXDI, and mixtures thereof.
The term polyesters refers to polymers obtained from the polycondensation reaction of dicarboxylic acids with dihydroxylic alcohols. Suitable dicarboxylic acids are, for example, terephthalic acid, isophthalic acid, 2,6-naphthalene dicarboxylic acid and the like. Suitable dihydroxylic alcohols are for example ethylene glycol, diethylene glycol, 1,4-butanediol, 1,4-cyclohexanodimethanol and the like. Examples of useful polyesters include poly(ethylene terephthalate) and copolyesters obtained by reaction of one or more carboxylic acids with one or more dihydroxylic alcohols.
The term copolymer means a polymer derived from two or more types of monomers and includes terpolymers. Ethylene homo-polymers include high density polyethylene (HDPE) and low density polyethylene (LDPE). Ethylene copolymers include ethylene/alphaolefine copolymers and unsaturated ethylene/ester copolymers. The ethylene/alpha-olefin copolymers generally include copolymers of ethylene and one or more co-monomers selected from alpha-olefins having between 3 and 20 carbon atoms, such as 1-butene, 1-pentene, 1-hexene, 1-octene, 4-methyl-1-pentene and the like.
Ethylene/alpha-olefin copolymers generally have a density in the range of from about 0.86 g/cm3 to about 0.94 g/cm3. It is generally understood that the term linear low density polyethylene (LLDPE) includes that group of ethylene/alpha-olefin copolymers which fall in the density range of between about 0.915 g/cm3 and about 0.94 g/cm3 and in particular between about 0.915 g/cm3 and about 0.925 g/cm3. Sometimes, linear polyethylene in the density range between about 0.926 g/cm3 and about 0.94 g/cm3 is referred to as linear medium density polyethylene (LMDPE). Lower density ethylene/alpha-olefin copolymers may be referred to as very low density polyethylene (VLDPE) and ultra-low density polyethylene (ULDPE). Ethylene/alpha-olefin copolymers can be obtained with heterogeneous or homogeneous polymerization processes. Another useful ethylene copolymer is an unsaturated ethylene/ester copolymer, which is the ethylene copolymer and one or more unsaturated ester monomers. Useful unsaturated esters include vinyl esters of aliphatic carboxylic acids, in which esters have between 4 and 12 carbon atoms, such as vinyl acetate, and alkyl esters of acrylic or methacrylic acid, in which esters have between 4 and 12 carbon atoms. Ionomers are copolymers of an ethylene and an unsaturated mono-carboxylic acid having the carboxylic acid neutralized by a metal ion, such as zinc or, preferably, sodium. Useful propylene copolymers include propylene/ethylene copolymers, which are copolymers of propylene and ethylene having a percentage by weight content mostly of propylene and propylene/ethylene/butene ter-polymers, which are copolymers of propylene, ethylene and 1-butene.
Package
Reference numeral 100 indicates as a whole a package configured for containing at least one product P, for example of a food type.
As can be seen for example in
In the accompanying figures, a support 1 having a polygonal shape, in particular rectangular, is illustrated. However, the possibility of providing a support 1 having a square, rhomboidal, triangular, elliptical, circular, semicircular shape or a combination thereof is not excluded.
The support 1 is made of sheet material and comprises at least one base 2 representing the part of the support 1 suitable for receiving the product P directly; the support 1 further comprises at least one perimetral edge 6 which completely surrounds the base 2. The perimetral edge 6 represents the support portion 1 adapted to engage the film 10 for closing the package 100 and adapted to define—in cooperation with said film 10—the fluid-tight housing compartment 5 for containing the product P. The fluid-tight package 100 may then have a housing compartment 5 in which there is a lower pressure than the atmospheric pressure to define a vacuum package 100 (so-called “SKIN” type package). Alternatively, the fluid-tight package may have a housing compartment 5 in which a predetermined gas or gas mixture is present to define a modified atmosphere package 100 (so-called “MAP” type package). The package may also be normally sealed without a modified atmosphere or a pressure lower than he atmospheric within the housing compartment 5.
The perimetral edge 6 may comprise an external flange 30 extending all around the base 2 so as to define a closed outer perimeter within which the latter is contained: the flange 30 essentially defines an end surface of the perimetral edge 6.
The flange 30 may extend, in a condition of normal use of the package 100, along a substantially horizontal trajectory or plane. As a condition of normal use, a condition of normal presentation and use of the package 100 in which it is resting on the base 2 of the support 1 is intended. In the case of support 1 of the flat type, the flange 30 and the base 2 lie essentially on the same plane (condition not shown in the accompanying figures). In a variant embodiment, the flange 30 is spaced from the base and in particular is arranged at a height different from the base 2 such that the support 1 can essentially define a tray; the flange 30 may extend along a plane parallel to a lying plane of the base 2: in the case of a tray, the plane of the flange 30 is spaced from the plane of the base 2.
In greater detail, in the tray-shaped configuration of the support 1, the base 2 may comprise a bottom wall 8 and a lateral wall 7 emerging in height from the bottom wall 8 transversely to the latter (see, for example,
The lateral wall 7 is angularly offset with respect to the bottom wall 8; in particular, the lateral wall 7 and the bottom wall 8 define an angle, subtended between said walls, of between 90° and 160°, in greater detail between 90° and 150°, in even greater detail between 90° and 130°.
As can be seen in the accompanying figures, the lateral wall 7 defines an opposite free edge with respect to the bottom wall 8 and delimiting an upper opening of the support 1 (upper opening of the tray). In other words, the free edge represents an upper edge of the support 1 which defines the opening of the same support 1 through which the product P—for example the food product—is passed to be positioned in the housing compartment 1 and to be covered by the closing film 10 at the time of packaging.
The free edge of the lateral wall 7 has a shape according to the shape of an outer perimeter of the bottom wall 8. In fact, the accompanying figures show an embodiment of the support 1 in which the outer perimeter of the lateral wall 7 both have a rectangular shape.
As can be seen in the accompanying figures, the closing film 10 is engaged, optionally fluid-tight, at least partly with the flange 30. In particular, the closing film 10 is at least partly engaged with the flange 30 so that the housing compartment 5 is fluid-tight.
The closing film 10 extends in thickness between a first and a second surface 10a, 10b while the support 1 extends in thickness between a first and a second surface 1a, 1b: the second surface 10b of the closing film 10 contacts at least partially the first surface 1a of the support 1 (see, for example,
In fact, as specified above, the package 100 is configured for defining a closing condition in which the closing film 10, in cooperation with the support 1, inhibits access to the housing compartment 5 of the product P (see for example
In the condition illustrated in the accompanying figures in which the edge comprises at least a portion lying on a plane, the removable portion 21—in the closed condition—is coplanar with the portion 6a of the perimetral edge 6 from which it extends as a prolongation. In the embodiment illustrated in the accompanying figures in which the support 1 comprises the flange 30, the removable portion 21 is coplanar, at least in the closed condition of the package 100, to said flange 30.
The removable portion 21 is also engaged with the closing film 10 and is configured for being removed, during an opening step of the package 100, from the support 1 together with at least part of the closing film 10. In detail, the removable portion 21 is stably engaged to a closing film portion 10 such that during an open condition of the package, the removable portion 21 can be raised together with the closing film 10 with respect to the rest of the support 1 in a manner such as to be able to remove said film 10 from the package 100.
In one embodiment, the removable portion 21, at least in the closed condition of the package 100, exhibits a discontinuity with the portion 6a of the perimetral edge 6; in particular, said discontinuity is defined by a through cut which separates the removable portion 21 from the portion 6a of the perimetral edge 6 (see, for example,
In a further embodiment illustrated for example in
The support 1 further comprises a gripping portion 22 emerging from the perimetral edge 6 and extending, at least in the closed condition of the package 100, transversally to the removable portion 21. The gripping portion 22 is integrally joined to the perimetral edge 6 of the support 1, in particular integrally joined to the flange 30.
The gripping portion 22 comprises a tab extending in thickness between a first surface 22a extending without continuity to the first surface 1a of the support 1 and a second surface 22b extending seamlessly to the second surface 1b of the support 1 (see for example
In greater detail, the gripping portion 22 extends between an attachment portion 24 directly engaged to the perimetral edge 6, and an end portion 23 which, at least in the closed condition of the package 100, is distanced from the perimetral edge 6 and from the removable portion 21. In fact, the end portion 23 of the gripping portion 22, at least in the closed condition, is distanced from the closing film 10: the first surface 22a of the gripping portion 22, at least for the end portion 23, does not contact the closing film 10.
In further greater detail, the gripping portion 22 extends predominantly along a main development direction angularly offset with respect to the removable portion 21, at least in the closed condition of the package 100. In detail, the gripping portion 22 is, at least in the closed condition of the package 100, folded with respect to the perimetral edge 6 (in particular to the flange 30) to which it is directly joined; in particular, the gripping portion 22 is directly engaged to the portion 6a of the perimetral edge 6 from which the same extends as a prolongation and is folded with respect to the latter portion 6a of the perimetral edge 6.
In the condition illustrated in the accompanying figures, in which the edge 6 comprises the flange 30, the lying plane of the latter (flange 30) and the extension (lying) plane of the gripping portion 22—at least in the closed condition of the package 100—are transversal to each other, optionally incident at the attachment portion 24.
In an embodiment variant, the gripping portion 22 may have an arcuate or undulating shape; also in this condition, the main development trajectory of the gripping portion itself is equally transversal, in the closed condition of the package 100, to a main development direction of the removable portion 21, optionally transverse to the portion 6a of the perimetral edge 6.
The gripping portion 22 comprises a tab emerging from the perimetral edge 6 and, at least in the closed condition of the package 100, lying on a plane. Moreover, the removable portion 21 comprises a respective tab also extending along a plane at least in the closed condition of the package 100: the planes of the gripping portion 22 and of the removable portion 21 are—at least in the closed condition of the package—angularly staggered with each other. In general, the tab of the gripping portion 22 and of the removable portion 21, at least in the closed condition of the package 100, are angularly offset from each other. In detail, the gripping portion 22 and the removable portion 21, in the closed condition of the package 100, are inclined by an angle of between 5° and 135°, in particular between 20° and 95°, optionally between 30° and 90°.
In the configuration of the package 100 with support 1 of the tray type, the gripping portion 22 is arranged on the side of the lateral wall 7; in other words, the gripping portion 22 emerges substantially towards the bottom wall 8 so that it faces the lateral wall 7. As can be seen, for example, in
On a functional level, the gripping portion 22 is configured for being firmly gripped by a user during an opening step of the package 100 (see
From the point of view of the material, the removable portion 21 may have a mechanical stiffness greater than a mechanical stiffness of the closing film 10. In particular, the removable portion 21 may have a mechanical stiffness substantially identical to a mechanical stiffness of the perimetral edge 6 of the support 1; the mechanical stiffness of the removable portion 21 and of the closing film 10 is measured by traction and/or bending. In the case where the removable portion 21 and the closing film 10 are made of the same material, the removable portion 21 may have a thickness greater than the corresponding thickness of the closing film 10, so as to obtain said greater mechanical stiffness; in this condition, the removable portion 21 may for example have a thickness at least 1.5 times, in particular 3 times, greater than a thickness of the closing film 10. The greater mechanical stiffness of the removable portion 21 provides the user with a considerably more stable grip than in a case in which the grip occurred directly on a portion of the closing film 10. Moreover, the difference in mechanical stiffness between the removable portion 21 and the closing film 10 provides the user with a better tactile perception, facilitating the user in the step of locating the removable portion 21 during an opening step.
As visible, for example, in the accompanying figures, the support 1 may comprise at least one angular portion 11; for example, in the accompanying figures an embodiment of the support 1 is shown having a substantially rectangular shape, thus exhibiting four angular portions 11. In the tray-like support 1 configuration, the angular portions are defined on the bottom wall 8, on the lateral wall 7 and on the flange 30; each angular portion 11 essentially comprises a fitting. The removable portion 21 is defined at at least one angular portion 11 as illustrated for example in
The removable portion 21 comprises a tab having a substantially “L” or “C” or “U” or “V” shape having a concavity directed towards the base 2 and adapted to define at least a portion of the angular portion 11 as illustrated for example in the
As can be seen from the accompanying figures, the removable portion 21 and at least part of the perimetral edge 6, at least in the closed condition of the package, delimit an opening 12; in greater detail, the opening 12 is essentially interposed between the removable portion 21 and the flange 30. At least in the closed condition of the package 100, the film 10 is engaged to the flange 30 and to the removable portion 21 and placed to cover the entire opening 12 (
In greater detail, the gripping portion 22 extends starting from a stretch of an outer perimeter delimiting the opening 12, below and away from the removable portion 21 (see also
The bottom wall 8 and the lateral wall 7 may be made in one piece; as better described below, the bottom wall 8 and the lateral wall 7 are obtained by means of plastic deformation, in particular by thermoforming, of the same sheet material. The base 2, the lateral wall 7, the perimetral edge 6, the flange 30 and the gripping portion 22 form a single solid body made of plastic material. In the embodiment in which the removable portion 21 is joined to the edge 6 by the weakening portion 25, the removable portion 21 is then integrally joined to the base 2, lateral wall 7, perimetral edge 6, flange 30 and gripping portion 22.
Process of Making Said Package 100
Another object of the present invention is a process for making the package 100, according to any one of the appended claims and/or according to the description given above.
The process described below uses the apparatus 300 described and claimed below in one or more of the accompanying claims. It should also be noted that, according to a further aspect of the invention, the various method steps described below can be carried out by a control unit 311 (
The process contemplates providing a sheet material 200 along a predetermined advancement path A; such a step involves unwinding the sheet material 200 itself in a web configuration from a reel, such as for example schematized in
In the case in which packages with a tray-shaped support 1 are to be made, the process comprises a step of thermoforming the sheet material 200 such that said sheet material 200 defines a precursor body comprising a plurality of semifinished supports 1c; each semifinished support 1c comprising:
In fact, the base 2 and the perimetral edge 6 of each semifinished support 1a are respectively configured for defining, at the end of the process, the base 2 and the edge 6 of the support 1 of the finished package 100.
In particular, the thermoforming step is adapted to define the lateral wall 7, the bottom wall 8 and the flange 30 of the support 1.
The process comprises a notching step of the sheet material 200 in order to define on the same a first and second side-by-side semifinished portions 221, 222. The notch passes through the sheet material 200 and in particular defined at the edge 6 of each semifinished support 1c. As can be seen, for example, in
The first semifinished portion 221 of the support 1 a is configured for defining the removable portion 21 of a support 1 while the second semifinished portion 222 is folded with respect to the first semifinished portion 221 such that the second portion 222 of the semifinished support 1a can define the gripping portion 22 of the support 1; during the folding step of the second semifinished portion 222, the opening 12 interposed between the removable portion 21 and the base 2 is also obtained. The notching step may be carried out in such a way that the removable portion 21 is completely separated from the base (
The step of making a notch on the sheet material 200 to define at least part of the second semifinished portion 222 and the folding step thereof for defining the gripping portion 22 are combined in a single punching step of the sheet material 200.
In
The process further provides for positioning at least one product P on the base 2 of the sheet material 200 (
Only following the positioning of the product P and following the folding step of the second semifinished portion 222 for defining said gripping portion 22, the process comprises a step of constraining a closing film 201 to at least one portion of the sheet material 200 so that the product P is positioned inside a housing compartment 5 defined by the closing film 201 constrained to said sheet material 200.
In particular, the closing film 201 is constrained at least to the edge 6 of each semifinished support 1c of the precursor body.
The step of constraining the film 201 takes place by means of heat-sealing (see
The process may further comprise a step—after that of positioning the product P on the base 2 and before that of constraining the closing film 201—of removing at least part of the air from the housing compartment 5 in order to define inside the latter a pressure less than the atmospheric pressure to make skin-type vacuum packages. Alternatively, the process can provide for the removal of at least part of the air from the housing compartment 5 and the insertion inside the latter of a predetermined type of gas to make a modified atmosphere package.
The film 201 may also be in the form of a continuous film and be unwound from a reel as shown in
A further step of the manufacturing process, subsequent to the step of constraining a closing film 201 to the edge 6 of the sheet material 200, provides for the through cut of the sheet 200 and of the closing film 201 which through cut, in cooperation with the notch made on the sheet material 200 is adapted to delimit the removable portion 21 and in particular to define said package 100.
In greater detail, the through-cutting step comprises cutting the precursor body and, at the same time, the closing film constrained on said precursor body so as to define individual packages 100. In fact, the through cut allows the separation of the semifinished supports 1c of the sheet material 200 to define individual supports 1 on which the film 10 defined by a portion of the continuous closing film 201 is fluid-tightly constrained. The through-cutting steps are schematically illustrated in
Alternatively, the process may include the use of supports 1, or trays, preformed, made for example on a forming line separate from the packaging line.
Each support 1 carrying the product P is then sent to a packaging station where a closing film is welded to the support 1 in such a way that the product P is closed fluid-tightly between the support and the film.
The processes shown in
Apparatus for Making Said Package
Another object of the present invention is an apparatus 300 for making packages 100 according to one or more of the appended claims and/or according to the description given above. In particular, the apparatus 300 is configured to perform the process claimed and/or described above used for making said package 100.
The apparatus 300, as schematically illustrated in
The various operating stations of the apparatus 300 are described below, following an order of sequence of the processing steps.
The apparatus 300 comprises at least one frame 320, shown in
The apparatus 300 further comprises a first supplying assembly 301 shown in
The movement of the sheet material 200 along a predetermined advancement path A of the sheet material 200 is ensured by the presence of a conveyor 302, shown in
Downstream of the first supplying group 301 of the sheet material 200, the apparatus 300 may comprise at least one thermoforming station 308, shown in
Subsequent to the thermoforming station 308 with respect to the advancement path A of the sheet material 200, the apparatus 300 comprises a notching station 305, shown in
The apparatus 300 further comprises a folding station 306 of the sheet material 200 configured for folding the second semifinished portion 22 transversely to the first semifinished portion 221 so as to define the gripping portion 22. The notching station 305 and the folding station 306 are combined in a single station in which a punching operation of the sheet material 200 is carried out. The punch is configured for defining a rest position in which the punch itself is spaced from the sheet 200 and a working position in which the punch is placed towards the sheet material itself, in particular in which the punch follows a downward movement towards the sheet material 200 defining a through notch and continuing its travel in such a way as to fold a portion of the sheet material 200 to define the gripping portion 22.
The apparatus 300 further comprises a positioning station 304, shown in
Subsequent to the positioning station 304 with respect to the advancement path A of the sheet material 200, the apparatus 300 comprises a second supplying assembly 303 shown in
Downstream of the second supplying assembly 303 with respect to the advancement path A of the sheet material 200, the apparatus 300 comprises a packaging station 307, shown in
The packaging station 307 may be provided with a suction system configured for removing air from the inside of the packaging station 307 itself so as to define a pressure lower than atmospheric pressure. In a further embodiment, the packaging station 307 is configured for removing air from the housing compartment 5 when the closing film 201 is fluid-tightly engaged to the sheet material 200. Optionally, the packaging station 307 may be provided with a blowing system configured for injecting gas into the packaging station 307 in order to obtain a modified atmosphere environment. The packaging station 307 optionally includes a heater of the closing film 201 so as to facilitate the correct distribution of the closing film 201 around the product P.
Downstream of the packaging station 307 with respect to the advancement path A of the sheet material 200, the apparatus 300 comprises a pre-cutting station 309, shown in
Downstream of the pre-cutting station 309 with respect to the advancement path A of the sheet material 200, the apparatus 300 comprises at least one cutting station 310, shown in
The packaging apparatus 300 comprises at least one control unit 311 connected to the conveyor 302, to the second supplying assembly 303, to the packaging station 307, to the first notching station 305, and to the cutting station 310. The control unit 311 is optionally connected to the positioning station 304, to the pre-cutting station 309 and/or to the cutting station 310. Optionally, said control unit 311 is also connected to the first supplying assembly 301.
The control unit 311 is configured for controlling the conveyor 302 to allow movement of the sheet material 200 along the operating path at a predetermined speed, for controlling the supplying assembly 303 adapted to supply the closing film 201, for controlling the packaging station 307 so as to allow engagement of the closing film 201—or closing film portion 201a—on the sheet material 200, for controlling the pre-cutting station 309 for defining one or more notches on the closing film, for controlling the cutting station 310 for the formation of the packages 100.
The control unit 311 is therefore configured for synchronizing the performance of the operations carried out by the single operating stations described above and arranged along the production line. Optionally, the control unit 311 is configured for receiving an input signal representative of the correct positioning of the sheet material 200 and/or of the closing film 201 at one or more of said operating stations.
The control unit 311 is further configured for synchronizing the operations of the notching station 305 as a function of at least one parameter representing the relative position between the lower tool and the upper tool 307a, 307b of the packaging station 307, and/or of a parameter representative of an active condition of the upper tool 307a in which the same heats the film portion 201a in engagement on the same tool.
The apparatus 300 comprises only said supplying station, a conveyor 302 configured for moving the finished supports 1 from the supplying station to the packaging station 307, said packaging station 307, a system for feeding a closing film in the form of a continuous web or discrete film portions and, optionally, a continuous closing film cutting station.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102017000148865 | Dec 2017 | IT | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/IB2018/060262 | 12/18/2018 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2019/123255 | 6/27/2019 | WO | A |
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| Number | Date | Country | |
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| 20200331684 A1 | Oct 2020 | US |
