device for sealing and cutting a film in a packaging apparatus, packaging apparatus, and sealing and

专利摘要:
DEVICE FOR SEALING AND CUTTING IN A PACKAGING APPLIANCE, A PACKAGING PROCESS AND A PACKAGING APPLIANCE. A device for sealing and cutting a film in a packaging device is provided. In addition, a packaging apparatus comprising a sealing and cutting device and a sealing and cutting process using the device is provided. The device comprises the first and the second member, one or both of which are movable in relation to each other. One of the members comprises an elongated blade and one of the members comprises a cutting means, wherein the cutting means are positioned in a plurality of positions with respect to the respective member. The process comprises the steps of creating a first seal on a tubular film, thereby creating a semi-sealed package, creating a second seal on the semi-sealed package, thereby creating a sealed package and creating a substantially transversal cut in the tubular film, thereby separating the (semi) sealed package from a subsequent part of the tubular film. The process also comprises the step of creating an incision in a section of the first or second seal, the incision defining a predetermined zone of (...).
公开号:BR102014031961B1
申请号:R102014031961-1
申请日:2014-12-19
公开日:2020-08-25
发明作者:Massimo Alquati
申请人:Cryovac, Inc.；
IPC主号:

专利说明:

[0001] [0001] The present invention relates to a packaging process and a packaging apparatus. The packaging process includes moving a packaged product through a sealing station, where the packaging is sealed, and the sealing is provided by an incision that facilitates easy rupture of the packaging before use. The invention also relates to a device or tool for cutting and sealing a film in a packaging apparatus. Background Technique
[0002] [0002] A packaging device can be used to pack a food product. The product can be an unpackaged product or a product preloaded in a tray. A plastic film tube is fed continuously by a bag / packaging, filling and sealant apparatus. The film and the product are joined together, for example, the product is deposited on a film or the film is wrapped around the product. In some instances, the unpackaged product is powered by a penetration belt. A tube is created around the product by sealing the opposite longitudinal ends of the film. Alternatively, the product is placed in a tube and the front end of the package is sealed. Then the tube is sealed at its rear end (at the upstream point) of the package and is cut from a packaging tube that moves continuously.
[0003] [0003] The tube can be supplied as a tube, or be formed from two films longitudinally veiled at two longitudinal ends, or from a single film folded and veiled along its longitudinal ends.
[0004] [0004] Sealing bars can be used to seal the packaging, where a lower bar and an upper bar are moved with respect to each other, with the objective of coming into contact with each other, crushing the packaging material between them, and providing one or more stamps. The sealing bars also typically form an adjacent seal, which comprises the opposite end of the next package, thus providing a semi-sealed package (e.g. having an open end) and a sealed package during a single packaging step.
[0005] [0005] The seals are typically regions that extend vertically from the packaging material that have been processed to provide a seal between the inside of the packaging and the environment. In some cases, it is desirable to provide a package that can be easily opened by a user before using the packaged product. For this purpose, the sealing at one end of the packaged product can be provided with a pre-cut incision or section, which provides a predefined rupture zone, ensuring a controlled rupture of the packaging film during manual interaction with the user, thus facilitating the easy opening of the packaging and the removal of the product contained therein.
[0006] [0006] The position of the predefined burst zone can be adjusted according to the packaged product, the film used, the use of the product after opening, and a number of other factors. For example, a predefined rupture zone can be positioned substantially in the middle of a transverse seal, or close to one or more ends of the package.
[0007] [0007] The sealing and rupture zones are created by a series of packaging bars that include a blade to cut the packaging between the seals of two subsequently packaged products and a knife to create a predefined rupture zone or pre section -cut. The pre-cut section is designed to leave the seal intact, while providing a predetermined break time in which the packaging film is designed to break in a controlled manner in manual interaction.
[0008] [0008] A packaging device is generally used for a number of different products with regard to the type of product, size, weight, composition, etc. The problem is to provide different types of packaging with respect to the respective rupture zones, either substantially in the middle of a seal, or moved towards one end of the product. In some cases, use of the product requires breaking the seal while leaving the package substantially intact for further processing (e.g., heating). In other cases, using the product requires breaking the seal and breaking the entire package to expose the entire contents of the package.
[0009] [0009] The way to break the seal in the predefined rupture zone depends on a number of factors, for example, type and composition of the packaging film, the packaged product, etc. An additional factor includes the size of the predefined burst zone. Providing a predefined burst zone greater or lesser influences the bursting process. Another additional factor includes the amount of air trapped in the packaging material near and around the predefined burst zone. The predefined rupture zone can include air pockets, separately and / or substantially sealed from the environment in order to provide a gripping area. The amount of air, and consequently the shape and composition of the grip area, influences the rupture process.
[0010] [00010] Gas can get stuck in the packaging in the space between the product and the film, after sealing both ends. Sometimes it is desirable to deflate the packaging to reduce the volume of the packaging. In addition, evacuation of gas from the package can improve the appearance of the package after heat shrinkage and can also reduce the possibility of product deterioration due to exposure to oxygen or other gas. For example, some foods like cheese can oxidize or mold over a period of time if a proper atmosphere is not kept in the package.
[0011] [00011] WO 2013/055848 describes a packaging article that includes a multilayer film that shrinks with heat, having a heat seal that extends the length of the packaging article along the longitudinal ends of the film, with a heat seal extending over the width of the packaging article and a heat seal extending over the width of the packaging article and providing a top for the internal volume. The packaging article also comprises a skirt between the heat seal along the width of the article and the lower end of the article. The skirt has tear initiators which are cut through the skirt, with one of the tear initiators having an inner end and an outer end. Both inner edges are closer to the first two heat seals than the outer edges, and the outer edges are closer to the lower edges than the inner edges. The tear initiators are positioned in relation to the first heat seal in such a way that an overlapping straight line extends along the inner and outer ends of each scratch initiator intersecting the overlapping straight line that extends over the ends of the first heat seal and a less included angle of 25 degrees to 55 degrees, with the inner end of both the first and the second tear initiator ending at a location that is 3 to 30 millimeters from the first heat seal and 3 to 50 millimeters from the second seal of heat. The heat shrinking film exhibits an Elmendorf tear resistance of 0.7N to 2N after shrinkage.
[0012] [00012] U.S. 5,673,534 describes an open-and-close loop that includes a detachable open-and-close loop having a back formed by a series of elongated and spaced seals and a closed loop. Apparatus for forming the open-and-close loop with the bag includes the first and second sealing claws with internal fasteners to hold the mesh material. The first sealing claw carries cutting and drilling knives and a cooler block that directs the cooled air through the knives to prevent the knife temperature from reaching the melting temperature of the mesh material. Each sealing jaw contains a heating block with complementary sealing surfaces to form various seals including the seals that form at the rear of the open-and-close loop. U.S. 5,284,002 describes a storage bag and a method and apparatus for forming the storage bag. The storage bag contains an open-and-close loop formed as an integral marginal part of the bag, in addition to the end of the bag. The marginal portion includes overlapping layers of the bag material that form an elongated structure along the axis with the first and second ends. A molten closure is formed on the marginal part parallel to the axis and on the part of the marginal part spaced from one end of the axis. This structure defines a back and open loop that wraps around an open bag, thus closing the bag in a positive way. U.S. 5,169,696 describes a transversely tearable film and bags made of it. The transversely tearable laminate comprises a low density linear sticky laminated polyethylene film oriented in the machine direction on at least one side for a sealing film, the sealing film having an Elmendorf resistance in the machine direction of at least 2g per micron. None of these documents describes how open-and-close ties or tearable parts of the film can be modified to suit different applications.
[0013] [00013] US 4,650,079 describes an easy-to-open synthetic resin bag, which includes a bag body consisting of a laminated film formed by laminating several layers of synthetic resin film, a tear rope attached to a part of the surface inside the bag body, which corresponds to its opening, and a flap formed at one end of the tear rope. Pulling the tear rope allows a side surface of the bag to be opened by a tear, thus allowing the bag to be opened. Also disclosed is a bag-making apparatus capable of automatically joining the tear rope to the part of the inner surface of the bag body, corresponding to its opening, at the moment when the bag body is being formed, using a laminated film of the bag. type mentioned above. The document does not describe how the packaging material or tear strings are or can be configured for different applications.
[0014] [00014] US 6,343,876 describes a packaging machine, in which below a side sealing mechanism, a mechanism that forms notches and opens seals is arranged, below which a cutting perforation mechanism is arranged to form perforations in a longitudinally sealed part in the center of the left and right parallel packaging bags. Below the cutting punching mechanism, there is a cutting mechanism that laterally cuts sealed parts of the vertically connected packaging bags and delivers separate packaging bags. WO0164516 describes a filling and packaging machine capable of sealing packaged substances as liquid, powdery or viscous substances, by sealing a packaging film and three or four lateral or longitudinal sides thereof, comprising a cutting mechanism having a cutting blade. cut to cut ear parts, forming cut waste by the vertical sealing parts of the continuously fed packaging bags and a suction mechanism, having a door to suck and collect the ear parts, forming the ear residues provided on the side just of the cutting, where the cut waste from the packaging bags can be excluded satisfactorily. U.S. 4,981,374 describes a machine for automatically filling plastic bags with liquid or particulate material, which moves a continuous network of such bags through a series of serially positioned workstations. The machine can be manually adjusted to handle bags of different widths. Additional adjustment is also provided via stepper motors.
[0015] [00015] The purpose of the present invention is to provide a packaging process in which the sealing of the packaged product is provided with a predefined rupture zone, in which the size and / or position of the predefined rupture zone can be easily adjusted, depending on the number of factors, including product properties such as size, composition and type. Another objective of the present invention is to provide a packaging apparatus adapted to form a seal that has an adjustable size and / or position for a predefined rupture zone. In particular, it is an object of the invention to provide a packaging apparatus capable of carrying out the packaging process of the invention. Furthermore, it is an object of this invention to provide a device for cutting and sealing a film in the above apparatus or packaging process. Summary of Invention
[0016] [00016] According to the invention, in a first aspect, a device is provided for sealing and cutting a film in a packaging apparatus, comprising a first member and a second member, wherein the first member is movable with respect to the second member, or the second member is mobile with respect to the first member, or both the first and the second member are mobile with respect to each other. One of the first and second members comprises an elongated blade and one of the first and second members comprises a cutting means, wherein the cutting means are positioned in a plurality of positions with respect to the respective member.
[0017] [00017] In a second aspect according to the first aspect, the device has a first configuration in which the first and second members are spaced from each other, and a second configuration in which the first and second members are substantially in contact with one another with the other. Optionally, the first and second members comprise the first and second working surfaces, and the first and second working surfaces are substantially in contact with each other, when the first and second members are in the second configuration.
[0018] [00018] In a 3rd aspect, according to the 2nd aspect, one of said first members comprising the cutting means further comprises a support for the cutting means.
[0019] [00019] In a 4th aspect according to the third aspect, the support is configured to maintain the cutting means releasably.
[0020] [00020] In a 5th aspect, according to one of aspects 3 or 4, the support is movably coupled to the respective member, so that the support is movable in a parallel way to the longitudinal extension of the elongated blade and positioned with respect to to its respective member, thus positioning the cutting medium in any one of a plurality of positions.
[0021] [00021] In a 6th aspect, according to the fifth aspect, one of the said first and second members comprising the cutting means, further comprising the support elements disposed at the respective first and second opposite ends, in which the support is movable between a first limit position in which the support supports the support element located at the first end of the respective member and a second end position in which the support supports the support element located at the second end of the respective member.
[0022] [00022] In a 7th aspect, according to one of aspects 5 or 6, one of said first and second members, comprising the cutting means, which further comprise the first means of movement configured to move the support in any one a plurality of positions.
[0023] [00023] In an 8th aspect, according to one of aspects 5, 6 or 7, the plurality of positions comprises a number of discrete positions.
[0024] [00024] In a 9th aspect, according to any of the preceding aspects, one of the said first and second members comprising the cutting means is configured to receive, in the support, any one of a plurality of interchangeable cutting means, wherein each of the plurality of interchangeable cutting means has a different size, shape and / or shape than the other interchangeable cutting means, and where the cutting means are removably coupled to the respective member so that any of the interchangeable cutting means can be coupled to the support of the respective member.
[0025] [00025] In a 10th aspect, according to any of the preceding aspects, one of said first and second members that does not comprise the cutting means, comprising a corresponding seat to receive at least partially the cutting means.
[0026] [00026] In an 11th aspect, according to the 10th aspect, one of the referred first and second members that comprise the settlement, further comprise a seat support configured to delimit the settlement. The seat support is movably coupled to its respective member so that the seat support is movable parallel to the longitudinal extension of the elongated blade, and can be positioned in a plurality of different positions with respect to its respective member, thus allowing to align the seat. seating to the cutting means, so that when the device is in the second configuration, the seat is configured to receive the cutting medium.
[0027] [00027] In a 12th aspect, according to the 11th aspect, one of said first and second members comprising the seating comprises support elements arranged at the first and second opposite ends thereof. The seat support is movable between a first limit position in which the seat support supports with the support element located at the first end of said first and second members comprising the seat and a second limit position in which the seat support supports the support element located at the second end of said first and second members comprising the seat.
[0028] [00028] In a 13th aspect, according to any of aspects 7 to 12, one of said first and second members, comprising the cutting means, which further comprise the second means of movement configured to move the seat support in any of a plurality of positions.
[0029] [00029] In a 14th aspect, according to the 13th aspect, the device further comprises a control unit connected to a first or second means of movement. The control unit is configured to control the first and second means of movement so that the current position of the cutting medium and / or the holder with respect to the respective member is aligned with the current position of the seat and / or the seat with respect to its respective member.
[0030] [00030] In a 15th aspect, according to any of aspects 7 to 14, a first member comprises a first actuator configured to act on the first means of movement in order to position the cutting means. Optionally, the first means of movement is operationally coupled to the support, so that the first means of movement is configured to position the cutting means by moving the support. Also optionally, the first actuator is an electric motor configured to rotate the first means of movement around a longitudinal axis thereof.
[0031] [00031] In a 16th aspect, according to any of aspects 13 to 15, a second member comprises a second actuator configured to act according to the means of movement in order to position the seat. Optionally, the second means of movement is operationally coupled to the support, so that the second means of movement is configured to position the cutting means by moving the seat support. Also optionally, the second actuator is an electric motor configured to rotate the second means of movement about a longitudinal axis thereof.
[0032] [00032] In a 17th aspect in accordance with the 16th aspect, the first means of movement comprises a first threaded control rod, axially fixed to a first member, so that the first threaded control rod can be threaded around of a longitudinal axis of the same without executing a translation movement. The first control rod is also rotatably engaged with the seat support or support, thus being configured to move the support to the seat support between and within a plurality of positions under the rotation of the first threaded control rod.
[0033] [00033] In an 18th aspect in accordance with any of the preceding aspects, the second means of movement comprises a second threaded control rod, axially fixed to a second member, so that the second threaded control rod can be threaded in around a longitudinal axis of the same without executing a translation movement. The second control rod is also rotatably engaged with the seat support or support, thus being configured to move the support for the seat support between and within the respective plurality of positions under the rotation of the second threaded control rod.
[0034] [00034] A 19th aspect according to the 18th aspect, the control unit is configured to synchronize the movement of the first and second actuation means, so that the cutting means is positional opposite the seat.
[0035] [00035] In a 20th aspect, according to any of aspects 7 to 16, the first and second means of movement comprises one between a set of push rod and a hydraulic actuator or an operable linear motor coupled to a linear rack. The first and / or second means of movement is operationally coupled to the control unit, and the control unit is configured to control the first and / or second means of movement.
[0036] [00036] In a 21st aspect according to any of aspects 7 to 16, the first and / or second means of movement comprises a lock / unlock mechanism configured to lock the current position of the seat support in one of a plurality of discrete locking positions along the first and / or second member, respectively.
[0037] [00037] In a 22nd aspect, according to the 21st aspect, the lock / unlock mechanism is configured to be manually adjustable.
[0038] [00038] In a 23rd aspect, according to any of the preceding aspects, the first member comprises a first rail configured to receive either the support or the seat support. The first track is shaped like a continuous cavity that extends along the first member.
[0039] [00039] In a 24th aspect according to the 23rd aspect, the support or the seat support occupies at least partially the first rail, thus defining one or more regions, adjacent to the support or seat support.
[0040] [00040] In a 25th aspect according to the 24th aspect, the first member comprises at least one coverage, configured to cover one or more regions. Optionally, the cover comprises at least one roll loaded by a first member corresponding to one or more regions and configured to adapt to the size of one or more regions when releasing or retracting a rolled cover. Also optionally, the at least one roll is rotationally coupled to the support or seat, and one end of the rolled-up cover is coupled to the support element.
[0041] [00041] In a 26th aspect, according to any of the preceding aspects, the second member comprises a second rail configured to receive either the support or the seat support. The second track is shaped like a continuous cavity that extends along the second member.
[0042] [00042] In a 27th aspect according to the 26th aspect, the support or the seat support occupies at least partially the first rail, thus defining one or more regions, adjacent to the support or seat support (323).
[0043] [00043] In a 28th aspect according to the 27th aspect, the second member comprises at least one cover, configured to cover one or more regions. Optionally, the cover comprises at least one roll loaded by the second member corresponding to one or more regions and configured to adapt to the size of one or more regions when releasing or retracting a rolled cover. Also optionally, the at least one roll is rotationally coupled to the support or seat, and one end of the rolled-up cover is coupled to the support element.
[0044] [00044] In a 29th aspect according to any of the preceding aspects, the elongated blade is configured to cut the film. Optionally, the elongated blade is configured to cut the film substantially perpendicular to its direction of movement.
[0045] [00045] In a 30 ° aspect according to any of the preceding aspects, the cutting means are configured to provide the film with an incision, and are mounted in an adjustable way on its respective member, so that the incision can be provided in a predetermined angle. Optionally, the angle comprises between 30 ° and 60 ° in relation to the longitudinal extension of the respective member.
[0046] [00046] In the 31st aspect, according to any of the previous aspects, the members are arranged in relation to each other so that the first work surface and the second work surface are positioned in parallel and facing each other.
[0047] [00047] According to the 32nd aspect of the invention, a packaging apparatus is provided, comprising a control unit, a loading station configured to position a tubular film around the product to be packed, and a sealing station attached the control unit. The control unit is configured to control the sealing station to create one or more seals on the tubular film. In addition, the apparatus comprises an exit station and a means for moving products from the charging station to and through the sealing station and to the exit station. The sealing station comprises a device for sealing and cutting according to any aspect.
[0048] [00048] In a 33rd aspect according to the 32nd aspect, the apparatus still comprises an evacuation means and the control unit is configured to control the sealing station to create the first seal on the tubular film, thus forming the first end sealed and creating a semi-sealed package containing the product to be packed. The semi-sealed package has a second open end. The evacuation means are coupled to the control unit and the control unit is configured to expel the gases present within the semi-sealed package. The moving means are configured to move the semi-sealed package, the moving means being coupled to the control unit, the control unit being configured to control the moving means to move the semi-sealed package. The control unit is further configured to control the sealing station to create a second seal on the tubular film, thereby sealing the second open end, forming a second sealed end away from the first sealed end, and creating a sealed package containing the product to be be packed.
[0049] [00049] In accordance with the 34th aspect of the invention, a process is provided for sealing and cutting in a packaging apparatus which optionally comprises a device of any one of aspects 1 to 32 or the apparatus of aspect 33. The process comprises the steps of creating a first seal on a tubular film, thereby creating a semi-sealed package, creating a second seal on the semi-sealed package, thereby creating a sealed package and creating a substantially transverse cut in the tubular film, thereby separating , the semi-sealed or sealed packaging of a subsequent part of the tubular film. The process of creating the first and second seal comprises an incision in a section of the first and second seal, the incision defining a predetermined break zone in a tubular film of a sealed package.
[0050] [00050] In a 35th aspect, according to the 34th aspect, the process further comprises the modification of a position and / or an orientation of a cutting medium, in order to configure a length, a position, and / or an orientation of the incision in the first seal of the sealed package, thereby facilitating the breaking of the second seal and / or the breakage of the film along the predetermined break zone of the sealed package by pulling the film on both sides of the predetermined break zone; and / or
[0051] [00051] In 36 ° aspect, according to any of aspects 34 and 35, the steps of creating a first seal, creating the second seal, and cutting the tubular film are carried out at substantially the same time.
[0052] [00052] In a 37 ° aspect, according to any of the aspects 34 to 36, the process further comprises the steps of positioning a product on a film; and sealing the film along a respective longitudinal edge to obtain the product placed within a part of the tubular film.
[0053] [00053] The advantages of the cutting and sealing device, the packaging apparatus comprising the device, and the packaging process include a seal that can be formed in a package, in which a predefined rupture zone has a size and / or position adjustable. The individual properties of the seal and / or the predefined rupture zone can be easily modified depending on a number of factors, including type, size, shape, weight, composition, shelf life or storage, etc. of the product to be packed. The individual properties of the seal and / or the predefined rupture zone can still be easily modified in a production environment and do not require extensive modifications to the packaging apparatus. In particular, the assembly and disassembly of components and / or replacement due to desirable modifications can be minimized or avoided entirely. Brief Description of Drawings
[0054] [00054] Figure 1A shows a first embodiment of a packaging apparatus according to the present invention;
[0055] [00055] Figure 1B shows a second embodiment of a packaging apparatus according to the present invention;
[0056] [00056] Figure 2 shows a cross-sectional view of a first embodiment of the sealing and cutting members 31 and 32 according to the present invention;
[0057] [00057] Figure 3 shows a bottom-up view of the first embodiment of the upper sealing and cutting members 31 according to the present invention, together with the MI-MI plane shown in FIG. 2;
[0058] [00058] Figure 4 shows a top-down view of the first embodiment of the lower sealing and cutting members 32 according to the present invention, together with the plane IV-IV shown in FIG. 2;
[0059] [00059] Figure 5 shows a bottom-up view of the second embodiment of the upper sealing and cutting members 31 according to the present invention, corresponding to the plane III-III shown in FIG. 2, regarding the first modality;
[0060] [00060] Figure 6 shows a cross-sectional view of the second embodiment of the sealing and cutting members 31 and 32 according to the present invention, along the plane corresponding to the plane VI-VI shown in FIG. 2, regarding the first modality;
[0061] [00061] Figure 7A shows a prominent view of the first example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention;
[0062] [00062] Figure 7B shows a prominent view of a second example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention;
[0063] [00063] Figure 8A shows a prominent view of the third example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention;
[0064] [00064] Figure 8B shows a highlighted view of a fourth example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention;
[0065] [00065] Figure 8C shows a highlighted view of the fifth example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention; Detailed Description
[0066] [00066] Figures 1A and 1B show a first embodiment of a packaging apparatus according to the present invention; The following description concerns both modalities, unless FIG. 1A or FIG. 1B. In FIGs. 1A and 1B, identical elements have the same reference numbers. In general, apparatus 1 comprises a charging station (not shown), a sealing station 3, an evacuation means 13, and a movement means 30.
[0067] [00067] With respect to both the first and the second modality shown in FIGs. 1A and 1B, the moving means 30 are configured to move the product 20, located within the film 21 of the loading station and through the sealing station 3, and along the means for evacuation 13.
[0068] [00068] Generally, FIG. 1A is referenced, as specific elements the modality shown in FIG. 1B are described with specific reference to the latter.
[0069] [00069] With respect to FIG. 1A, while the product 20 is being moved, the evacuation means 13 expel air or gas containing an inner tubular film 21 and around the product 20 of the semi-sealed package 22 containing the product 20. The expulsion of the gas from the inside of the package it can be reached by a single pass, while a semi-packed product passes under an air curtain and the gas inside the semi-packed package is expelled from the seared end to the open end of the semi-sealed package.
[0070] [00070] The product to be packaged 20 can assume different states (20a, 20b, 20c) of packaging. States 20a, 20b, 20c denote product 20 in different packaging stages. For example, state 20a denotes a product 20 positioned within a tubular film 21, state 20b denotes semi-packaged product 20, and state 20c denotes a packaged product 20.
[0071] [00071] In state 20a, film 21 is positioned around product 20 or product 20 is positioned in a tubular film 21. Alternatively, in state 20a, product 20 is positioned on film 21, which is subsequently folded and sealed at its longitudinal ends, in order to form a tubular film 21. This can be done at the loading station.
[0072] [00072] The sealing station 3 comprises an upper sealing and cutting member 31 and a sealing and cutting member 32 configured to seal and cut the package. The sealing and cutting members 31 and 32 are configured to create a first seal on the film 21, thus creating a semi-sealed package 22, containing the product 20 in state 20b. Product 20 in state 20b is located within film 21 and the semi-sealed package 22 comprises a sealed end and an open end. The open end can be located opposite the open end.
[0073] [00073] The sealing and cutting members 31 and 32 are configured to create a second seal on the film 21, thus creating a sealed package 23. The product 20c in state 20b is located within the film 21 and the semi-sealed package 23 comprises a first sealed end and a second open end. The first and second sealed end can be located opposite.
[0074] [00074] The sealing and cutting members 31 and 32 can be configured to create both seals at once. For example, the sealing and cutting members 31 and 32 can create a second seal of a first product, and a first seal of a second product (upstream) substantially simultaneously, so that subsequently the first product is contained in a sealed package and a second product is contained in a semi-sealed package.
[0075] [00075] With respect to FIG. 1B, the sealing and cutting members 31 and 32 are configured to create a first seal on the film 21, thus creating a semi-sealed package 22, containing the product 20 in the state 20b. Product 20 in state 20b is located within film 21 and the semi-sealed package 22 comprises a sealed end and an open end. The open end can be located opposite the open end. In contrast to the embodiment shown in FIG. 1A, the sealing and cutting members 31 and 32 cut the film 21 simultaneously or subsequently if a second seal is immediately created. For example, the sealing and cutting members 31 and 32 need to be configured to cut the film 21, while creating the first seal in a subsequent semi-sealed package 22, as shown in FIG. 1B, a semi-sealed package 22 in state 20d is separated from a subsequent semi-sealed package 22 in state 20b. Therefore, in contrast to the modality shown in FIG. 1A, the moving means 30 moves the semi-sealed packages 22 (and the unsealed packages 23) towards the sealing and vacuum stations 35.
[0076] [00076] With respect to FIGS. 1A and 1B, for sealing and / or cutting, the sealing and cutting members 31 and 32 are brought from a first configuration, in which the members 31 and 32 are spaced from each other, in a second configuration, in which the members 31 and 32 are substantially in contact with each other. Within the scope of this document, two elements are understood to be substantially in contact with each other as two elements being in close proximity to each other, possibly separated only by one or more layers of film (eg film 21), so that the film can be interposed between the two elements entirely, or in part (eg completely or partially covering the contact surface or surfaces).
[0077] [00077] To facilitate the sealing and / or cutting of film 21, the sealing and cutting members 31 and 32 are arranged so that film 21 is interposed between members 31 and 32. Members 31 and 32 can have active surfaces or functional elements that are configured to face film 21 and each other, such that film 21 is, in the second configuration of members 31 and 32, substantially in contact with both functional surfaces. In addition, while no film 21 is interposed between members 31 and 32, members 31 and 32 are substantially in contact with each other, where contact can be made through the active or functional surfaces of both members 31 and 32.
[0078] [00078] During cutting and / or sealing, film holders 311, 316, 321 and 326 are configured to hold film 21, such that their position with respect to members 31 and 32 is fixed. Sealing bars 312, 322, 314 and / or 324 are configured for the purpose of sealing or otherwise connecting two or more layers of film 21. In one example, the sealing of film 21 is achieved by the heat treatment of the film film 21 through sealing bars 312 and / or 314. Cutting bar 315 is configured to create a cross-section or perpendicular to film 21. In one example, the cutting bar is made up of a blade that extends along the member 31, where the corresponding cutting bar 325 of member 32 comprises a seat 325a configured to receive the blade in contact between members 31 and 32.
[0079] [00079] Sealing and members of the court 31 and 32 may comprise one or more sealing bars 312, 314, 322 and 324 (for example, see Figures 2, 3 and 4). The sealing and cutting members 31 and 32 can additionally be configured to form a transverse seal on the package. A transverse seal denotes a seal oriented substantially transversely to a longitudinal extent of the film 21 and the direction of movement of the products. In case the package is provided with a roll of film 21, the sealing and cutting members 31 and 32 can form a transverse seal along the film tube 21, substantially perpendicular to the length of the film 21.
[0080] [00080] In the first embodiment shown in FIG. 1A, the moving means 30 are configured to create a relative movement between the product 20 and the outlet 16. For example, the moving means 30 are configured to move the product 20 through states 20a, 20b and 20c, such that product 20 is moved from the charging station towards and through the sealing station 3 and towards and through the air curtain created under outlet 16. When product 20 is in state 20c (ie, product 20 is contained in sealed package 23), the inside of sealed package 23 is isolated from the outside of the package. The exit belt can have a plurality of holes distributed in it, through which hot (or cold) air can be injected to increase or intensify the expulsion of air around the product 20. This air injection is especially advantageous if the product 20 is irregularly shaped and / or is not supported by the tray.
[0081] [00081] The evacuation means 13 may comprise a gas blower connected to an outlet and configured to supply a flow of gas to and / or through an outlet. For example, the outlet can be configured to direct the gas flow supplied by the gas blower through a semi-sealed package 22 while product 20 moves along state 20a, state 20b, state 20c.
[0082] [00082] The gas fan can be configured to provide a substantially continuous gas flow over time. For example, the gas fan can provide a constant flow of gas. The gas blower can additionally be configured to provide
[0083] [00083] In a second embodiment, shown in FIG. 1B, the moving means 30 are similarly configured to move the products along the packaging apparatus, the sealing and cutting members 31 and 32 towards the sealing and vacuum station 35. Here, there is no need for the use of an air curtain because of the use of a separate vacuum and sealing station 35, which serves to subsequently vacuum and seal the semi-sealed package 23 in state 20d. The moving means may comprise one or more conveyor belts. In particular, the moving means 30 may comprise a conveyor belt, for example, an exit belt.
[0084] [00084] With respect to both the first and the second embodiment shown in FIGs. 1A and 1B, the packaging device 1 further comprises a control unit 50. The control unit is connected (connections are not shown for the sake of clarity) to one or more components of the packaging device 1, including the charging station, the sealing station 3, the sealing and cutting members 31 and 32, the moving means 30, the evacuation means 13, and a flush 34. Flush 34 can be provided to flush the interior of the packaging film 21 with a gas inert or other gas or gas mixture.
[0085] [00085] In the case of the second embodiment shown in FIG. 1B, the control unit 50 is additionally connected to a vacuum and sealing station 35, where semi-packaged products in state 20d are vacuum-sealed and sealed. In the case of the first embodiment shown in FIG. 1A, the control unit 50 is additionally connected to a hot air or shrink tunnel 33, where the filament 21 of the packaged products 20 in state 20c is shrunk after being sealed. It is noted that the sealing and vacuum station 35 can comprise any means for vacuum closing known in the art.
[0086] [00086] With regard to both modalities, again, for reasons of clarity, FIGS. 1A and 1B do not show the individual connection lines between the control unit 50 and other components. It is understood that the packaging apparatus 1 may comprise common connection means for connecting the control unit 50 to other components, for example, electrical, optical, or other connections and / or guides.
[0087] [00087] The control unit 50 can be configured to command the transport of the products 20 along a predefined path, eg by controlling a motor comprising a means of movement 30 according to a step-by-step movement or according to a movement continuous. The control unit can also control the actuators of the different components, as described below, for example, to create cross-sectional seals in tubular films.
[0088] [00088] The control unit may comprise a digital processor (CPU) with a memory (or memories), an analog type circuit, or a combination of one or more digital processing units with one or more analog processing circuits. In the present description, and in the claims, it is indicated that the control unit is "configured" or "programmed" to perform certain steps. This can be achieved, in practice, by any means that allows programming or configuration of the control unit. For example, in the case of a control unit comprising one or more CPUs, one or more programs are stored in the appropriate memory. The program or programs contain instructions, which, when executed by the control unit, cause the control unit to perform the steps described and / or claimed in relation to the control unit. Alternatively, if the control unit is of an analog type, then the control unit circuit is designed to include a circuit configured, in use, to process electrical signals, such as performing the control unit steps disclosed in this document.
[0089] [00089] The control unit 50 can be connected to the evacuation means 13 and be configured to send and / or receive control signals to / from the evacuation means 13. The control unit 50 can also be configured to control the evacuation means. evacuation 13 to provide a constant or variable gas flow to the outlet. For this purpose, the control unit can be configured to control energy by supplying a gas fan comprising the evacuation means 13 and / or to control one or more valves by controlling the flow of gas towards the outlet.
[0090] [00090] The control unit 50 can be configured to control the moving medium 30. For example, the control unit 50 can be configured to increase and decrease an operating speed of the moving medium 30. The control unit 50 can be additionally configured to control the operating speed of the moving means 30, depending on the position of the products 20 with respect to different components of the packaging apparatus 1 (eg, in a first embodiment, with respect to outlet 16 and / or the air curtain).
[0091] [00091] The control unit 50 can additionally or alternatively be configured to control the sealing and cutting members 31 and 32. The control unit 50 can additionally be configured to control the sealing and cutting members 31 and 32, depending on the position of products 20, with respect to the means for evacuation and / or the sealing and cutting members 31 and 32. For example, the control unit 50 can be configured to activate the sealing and cutting members 31 and 32, depending on the position of products 20 and / or tubular film 21, with respect to the outlet and / or the sealing and cutting members 31 and 32.
[0092] [00092] In particular, in another aspect, the control unit 50 can be configured to control one or more components, depending on the signals sent to and / or received from other components. For example, the control unit 50 can be configured to control the activation of one or more components, depending on the position of the products 20 and / or tubular film 21, with respect to other components of the packaging apparatus 1. In this way, the control unit 50 can activate, for example, the sealing and cutting members 31 and 32, when a product 20 is in state 20a and product 20 is in state 20b (or state 20d), such that between the two products 20 the first and second stamps are created on the film 21, respectively.
[0093] [00093] In the first embodiment shown in FIG. 1A, when the air inside the semi-sealed package 22 has been expelled, the sealing and cutting members 31 and 32 can create the second seal at the open end of the semi-sealed package 22, thus creating a sealed package 23 containing the product 20. Sealing and cutting members 31 and 32 can, during the same operation, create the first sealed end for the packaging of the subsequent product 20, which is in state 20a, located within the tubular film 21, in the amount of the now sealed packaging 23, as well creating a semi-sealed package 22 for the subsequent product 20.
[0094] [00094] In a second embodiment, shown in FIG. 1B, the sealing and cutting members 31 and 32 do not create a second seal on the open end of the semi-sealed package 22, thus leaving the semi-sealed package 22 in the 20d state, ie, semi-sealed and containing the product 20. Members of sealing and cutting 31 and 32 can, during the same operation, create the first sealed end for the packaging of the subsequent product 20, which is in the state 20a, located within the tubular film 21, in the amount of the previous semi-sealed package 22 in the state 20d, and cut the semi-sealed package 22 in the 20d state from the semi-sealed package 22 in the 20b state, thus separating the two semi-sealed packages 22 and sealed the package 22 in the 20b state in one operation.
[0095] [00095] With respect to both the first and the second modality shown in FIGs. 1A and 1B, the moving means 30 can comprise one or more conveyor belts 30. The one or more conveyor belts are configured to transport products 20 in states 20a, 20b, and 20c (or 20d), for example, as packaging 22 and 23, along a path predefined by the packaging apparatus 1. For example, the packaging apparatus comprises at least two conveyor belts 30, as shown in FIG. 1A and 1B. A first conveyor belt 30 is configured to transport product 20 and / or film 21 upstream of the cutting and sealing members 31 and 32. A second conveyor belt 30 is configured to transport product 20 and / or packages 22 and / or 23 downstream of the sealing and cutting members 31 and 32.
[0096] [00096] The sealing and cutting members 31 and 32 can additionally be configured to separate the semi-sealed packages 22 from the sealed packages 23, at the moment when they form the first and second seal (in the case of FIG. 1A), or for separating semi-sealed packages 22 in state 20b from semi-sealed packages 22 in state 20d, at the time they form the second seal (in the case of FIG. 1B). As shown in FIGs. 1A and 1B, the sealing station 3 includes sealing and cutting members 31 and 32 and the separation of packages 22 and / or 23 is carried out substantially simultaneously with the sealing of packages 22 and / or 23.
[0097] [00097] In the first embodiment shown in FIG. 1A, the packaging apparatus 1 may comprise a separate cutter (not shown), in which case the sealing and cutting members 31 and 32 are configured to create a connection zone in an area where subsequent packaged products 23 are connected to each other others by means of film 21, while a separate cutter is configured to cut the packaging material, to separate the packaged products. For example, the separate cutter can cut the film tube 21, once the package 23 has been sealed. The separate cutter can be positioned adjacent to the cut and seal members 31 and 32. In particular, the separate cutter can be arranged close to the cut and seal members 31 and 32, such that the cut and seal members 31 and 32 seal the single open entrance of a package 22 (after gas has been expelled from the package), and / or seal the opposite end of a subsequent package 23, and / or provide a predefined rupture zone, while the cutter 32 separates of the two packages 22, substantially simultaneously or subsequently. Alternatively, the separate cutter can be positioned further downstream to separate the packages 22 after they have been completely sealed. The separate cutter may comprise two parts above and below the conveyor belts 30.
[0098] [00098] Figure 2 shows a cross-sectional view of a first embodiment of the sealing and cutting members 31 and 32 according to the present invention. The sealing and cutting members 31 and 32 of the sealing station 3 comprise the corresponding upper sealing and cutting member 31 and corresponding sealing and lower cutting member 32. The sealing and cutting members 31 and 32 are arranged opposite each other and are fixed to the actuation means 310 (not shown), such that either one or both members 31 and / or 32 can be moved in the with respect to each other in at least one first position, where members 31 and 32 are in a spaced configuration to at least a second position, where members 31 and 32 are substantially in contact with each other.
[0099] [00099] For reasons of clarity, the top sealing and cutting member 31 is also referred to as member 31, and the sealing and cutting member 32 is also referred to as member 32. The size and / or arrangement of individual members of the members 31 and / or 32 are not shown to scale and can be adapted to individual needs. For example, cutting and / or sealing bars can be larger or smaller, depending on the type of film material 21.
[0100] [000100] The member 31 comprises a first film support 311, a first sealing bar 312, a support knife 313, a second sealing bar 314, a cutting bar 315, and a second film support 316. Preferably , the first film support 311, the first sealing bar 312, the knife holder 313, the second sealing bar 314, the cutting bar 315, with the second film support 316 are arranged within the member 31, in that order . The member 32 comprises a first film support 321, a first sealing bar 322, a knife seat 323, a second sealing bar 324, a cutting bar 325, and a second film support 326, arranged in a mutually opposite manner to the corresponding elements of the member 31, such that, for example, the first film support 321 of the member 32 is arranged opposite to the first film support 311 of the member 31. Additionally, the first sealing bar 322 of the member 32 the first sealing bar 312 of the member 31 is arranged opposite.
[0101] [000101] The film supports 311 and 316 of the member 31 are configured to interact with the corresponding counterparts, namely the film supports 321 and 326 of the member 32, such that the members 31 and 32 are placed substantially in contact with each other the other, the film 21 (not shown) of the products to be packed are brought into contact and crushed between the film supports 311, 321, 316 and 326, and thus substantially immobilizing with respect to members 31 and 32. This action it serves to fix the film 21 in relation to the members 31 and 32, to facilitate, for example, the precise cutting and sealing of the film.
[0102] [000102] Similarly, the sealing bars 312 and 314 of the member 31 are configured to interact with the corresponding counterparts, specifically the sealing bars 322 and 324 of the member 32, such that when the members 31 and 32 are placed substantially in contact with each other, the film 21 (not shown) of the products to be packaged is brought into contact and crushed between the sealing bars 312 and 314, 322, and 324, thus facilitating the sealing of two adjacent layers of film 21. Sealing can be achieved, for example, by subjecting the film in the areas affected by the sealing bars 312, 314, 322 and 324 to heat treatment. And in this embodiment, the sealing bars 312, 314, 322, and 324 can be heated, for example, electrically, to a temperature sufficient to be sealingly bonded (eg, weld) or otherwise connect the two layers of film 21 with each other.
[0103] [000103] Similarly, the cutting bar 315 of the member 31 is configured to interact with its corresponding counterpart, specifically the cutting bar 325 of the member 32, such that when the members 31 and 32 are placed substantially in contact with each other, the film 21 (not shown) of the products to be packaged is brought into contact and cut by the cutting bars 315 and 325, thus facilitating the cutting of the film 21 and thus separating, for example, the semi product -packaged product packaged. Cutting can be achieved, for example, by placing cutting bars 315 and 325 substantially in contact, in which both bars act on each other in a similar manner to the blades of a pair of scissors. In alternative embodiments, the cutter bar 325 may additionally or alternatively comprise a seat 325a corresponding to a cutter bar 315, such that when contacting the cutter bar 315 with the seat 325a of the cutter bar 325, the film 21 is cut.
[0104] [000104] Figure 3 shows a bottom-up view of the first embodiment of the upper sealing and cutting members 31 according to the present invention, together with the plane III-III shown in FIG. 2. The film supports 311 and 316, as well as the sealing and cutting bars 312, 314, and 315 are elongated in shape and extend substantially parallel to each other, in a direction substantially perpendicular to the direction of movement of the products 20, thus facilitating the supply of the film, with the mentioned seals developing in a direction substantially transversal to the movement of the protrusion 20. Members 31 and 32 can be shaped and / or arranged differently if it is desired to change the shape, position and / or orientation of cuts and / or seals provided by members 31 and 32.
[0105] [000105] A knife holder 313 is positioned between the sealing bars 312 and 314 and movably coupled to a member 31 such that knife holder 313 is movable along a direction substantially parallel to the longitudinal extension of the member 31, from a first limit position located at the first end of a member 31 to a second limit position located at the second end opposite the member 31. The first and second limit positions are the most peripheral positions that knife holder 313 can assume in the respective direction when moving along member 31. In addition, knife holder 313 can be reasonably fixed in a plurality of intermediate positions, between and including the first and second end positions course. In this way, the knife holder 31 can be moved laterally in a suitable position to provide the packaging film 21 with a cut defining a predefined rupture zone in the seal region created by the members 31 and 32.
[0106] [000106] The knife holder 313 is moved by the lateral movement means (not shown), which are configured to transmit lateral movement to the knife holder 313. Here, lateral movement refers to a direction of movement substantially lateral to the direction of movement 30a of products 20, if members 31 and 32 are arranged substantially perpendicular to the direction of movement 30a. The lateral movement means transmit movement to the knife holder 313 substantially parallel to and in the direction of the longitudinal extension of the sealing and cutting bars 312, 314 and 315.
[0107] [000107] Means of lateral movement may comprise any means of mechanical, electrical, hydraulic, pneumatic actuation, or any other means of common actuation. For example, lateral movement means may comprise a threaded control rod that extends along the length of the member 31 that can be actuated by an electric motor. By rotating the threaded control rod, and due to the engagement of knife holder 313 with the control rod, knife holder 313 can be moved substantially continuously in virtually any position between and including the first and second end positions of course. Other means of actuation may include electric stepper motors, hydraulic actuators, pneumatic actuators, magnetic actuators, and / or combinations thereof. In some embodiments, knife holder 313 can also be adjusted manually, for example, through the common locking / unlocking mechanism, which makes it easy to unblock knife holder 313 so that it can be moved laterally, by manually moving the knife holder 313 to another position along the member 31, and fixing the knife holder 313 in the new position by locking it in relation to the member 31.
[0108] [000108] Regions 313b extending laterally from knife holder 313, are covered by the adjustable cover means (not shown). The adjustable cover means adapts to the current position of the knife holder 313 and covers the regions 313b in a plane that substantially corresponds to a plane of a contact surface of the knife holder 313, the contact surface being configured to contact the corresponding contact surface of knife seat 323 of member 32, when members 31 and 32 are substantially in contact with each other.
[0109] [000109] Knife holder 313 comprises a knife 313a that can be arranged at an angle to the cutting bar 315. In some instances, the angle of knife 313a is about 45 ° to the cutting bar 315 (and , therefore, in relation to the longitudinal extension of the limb 31). In other embodiments, the angle can be about 30 ° or 60 °, substantially any desired angle. In some embodiments, the knife angle 313a can be adjusted to an angle in the range of 0 ° (eg substantially parallel to the member 31) to 180 ° (again, substantially parallel to the member 31), including an angle of 90 ° (eg substantially perpendicular to member 31).
[0110] [000110] The knife 313a serves to supply the film 21 with an incision in a region distanced from the product 20 by a first seal provided by a sealing bar 312, such that the incision does not comprise the sealing of the product 20. The incision is of the size and positioned in such a way that it provides a predetermined rupture zone in the packaging film 23. Examples of predefined rupture zones and additional details are provided in relation to FIGs. 7 and 8 below.
[0111] [000111] The knife holder 313 can optionally have a sealing bar 312a. Sealing bars 312a (preferably in combination with sealing bars 322a, as shown in FIG. 4) can be employed to provide a controlled surrounding region for incisions made by knife 313a. By selectively sealing regions adjacent to incisions made by knife 313a, the subsequent rupture process can be influenced, in particular the particular way in which the rupture emerges and develops along the film material 21, and starting at the incision made by knife 313a .
[0112] [000112] Figure 4 shows a top-down view of the first embodiment of the lower sealing and cutting members 32 according to the present invention, together with the plane IV-IV shown in FIG. 2. As described above, the film supports 321 and 326, as well as the sealing and cutting bars 322, 324, and 325 of the member 32, are the respective counterparts for the film supports 311 and 316, as well as the film bars. sealing and cutting 312, 314 and 315 of member 31. Members 31 and 32 are actuated by means known to be at least mobile within a spaced configuration, which allows movement of products 20 within and across a region between members 31 and 32 and a closed configuration in which the members 31 and 32 are substantially in contact with each other, crushing and holding the film 21, in order to cut and seal it.
[0113] [000113] The knife seat 323 is arranged substantially opposite the knife holder 313 and is acted in a manner that corresponds to the movements of the knife holder 313, such that when the position of the knife holder 313 is modified, the position of knife seat 323 is modified in a corresponding manner, with the aim of ensuring that in contact between members 31 and 32, knife holder 313 can substantially come into contact with knife seat 323, in a coincident configuration (eg the contact surfaces of knife holder 313 and knife seat 323 substantially covering each other) Knife seat 323 further comprises a knife seat 323a configured to receive knife 313a upon contact between members 31 and 32, as well affecting the positioning of an incision in film 21, as described above. The position, orientation, shape and shape of knife 313a and seat 323a are configured to provide precise positioning of knife 313a, with respect to seat 323a, in order to create a precise cut and position of the incision.
[0114] [000114] The knife seat 323 can be moved in the same way and corresponding to the movements of the knife holder 313, as described above. The actuation means that transmit the movement to the knife holder 313 can be the same as the transmission corresponding to the movement of the knife seat 323. In some embodiments, separate actuation means are provided for each knife holder 313 and knife seat 323. In these embodiments In these cases, the actuating means can be connected to the control unit 50, with the aim of being controlled in a corresponding manner, ensuring the proper positioning of both knife holders 313 and knife seat 323, in relation to each other. In the case of annual adjustment of knife holder 313 and / or knife seat 323, appropriate mechanics or mechanisms can be provided in order to ensure proper placement for both knife holder 313 and knife seat 323 with respect to one to the other.
[0115] [000115] The regions 323b extending laterally from the knife seat 323 are covered by adjustable cover means (not shown) in a manner similar or identical to that described with respect to the regions 313b above. The adjustable cover means adapts the present position of the knife seat 323 and the cover region 323b on a plane that substantially corresponds to a plane of the contact surface of the knife seat 323, the contact surface being configured to contact the surface being configured to contact the corresponding contact surface of knife holder 313 of member 31, where members 31 and 32 are substantially in contact with each other.
[0116] [000116] Similar to seal bar 312a, as shown in FIG. 3 and described above, knife seat 323 can optionally have seal bars 322a, as shown in FIG. 4. Sealing bars 322a operate in a similar manner to and in combination with sealing bars 312a, as described above. The sealing bars 312a and 322a are shown in FIGs. 3, 4 and 5 in a configuration substantially perpendicular to the longitudinal extension of the members 31 and 32, respectively. However, it is noted that the sealing bars 312a and 322a can have a different shape, orientation, size, and / or position, in order to provide the surrounding region with an incision made by knife 313a with a sealed section of a shape , orientation, size, and / or specific position, so that the desired configuration for the incision, rupture zone, and surrounding part of the package can be reached (see also FIGS. 7A, 7B, 8A, 8B, and 8C).
[0117] [000117] Figure 5 shows a bottom-up view of the second embodiment of the upper sealing and cutting members 31 according to the present invention, corresponding to the plane III-III shown in FIG. 2, with respect to the first modality. In the present embodiment, the member 31 is provided with a threaded control rod 317, rotationally coupled to the bearing 31a of the member 31. The coupling of the control rod 317 with the bearings 31a allows a control rotation movement 317 around its axis longitudinal, where the threaded surface of the control rod 317 is not engaged with any part of the bearings 31a and / or member 31, so that the rotation of the control rod 317 does not transmit any other movement to the control rod 317, except that of rotation.
[0118] [000118] The knife holder 313, however, is slidably coupled to the member 31, so that the knife holder 313 can be moved along the member 31, between the bearings 31a and still comprise a coupling element engaged with the threaded surface of the control rod 317, so that the rotation of the control rod 317 transmits a precise and controlled movement of the knife holder 313 along the member 31. The bearings 31a can additionally serve as supporting elements, defining the first and second limit position for the knife holder 313 when reaching the corresponding end of the member 31 and supporting any of the bearings 31a.
[0119] [000119] The rotation of the control rod 317 can be performed in any common way, as described above. If necessary, the actuating means transmitting the rotation to the control rod 317 can be connected to the control unit 50 in order to control the rotation rod 317 and thus control the movement and the position of the knife holder 313 along of member 31. In an alternative embodiment, similar to the second embodiment shown in FIG. 5, the control rod 317 can be fixed to the member 31 in an immobile manner. In this case, an actuator (eg, an electric motor) may comprise a knife holder 313 and be engaged with the threaded surface of the control rod 317, so that activation of the actuator transmits movement to the knife holder 313 in a similar manner to the above description, with respect to the second embodiment shown in FIG. 5.
[0120] [000120] As already indicated, other actuation means can be applied here in order to effect the desired movement and / or adjust the position of the knife holder 313, for example, pneumatic, hydraulic, electric, and / or other means. In a pneumatic system, for example, a pneumatic piston / cylinder mechanism can be coupled to the knife holder 313 and move it along the member 31.
[0121] [000121] Figure 6 shows a cross-sectional view of the second embodiment of the sealing and cutting members 31 and 32 according to the present invention, along the plane corresponding to the plane VI-VI shown in FIG. 2, with respect to the first modality.
[0122] [000122] The regions 313b extending laterally from the knife holder 313 and the regions 323b extending laterally from the knife seat 323 are respectively covered by the cover means 318a and 328a. FIG. 6 shows an example of a covering means 318a and 328a, comprising metal bands attached on the outer sides of members 31 and 32 to bearings 31a and 32a, respectively. The scrolling means 318b, 328b, 318c and 328c are rotationally coupled to the corresponding sides of the knife holder 313 and to the knife seat 323, respectively. Adjustable cover means 318a and 328a adapt to the current position of knife holder 313 and knife seat 323, respectively, and cover regions 313b and 323b in a plane that substantially corresponds to a plane of a contact surface of the knife holder 313 and knife seat 323, the contact surface being configured to contact the corresponding contact surface of knife seat 323 of member 32, when members 31 and 32 are substantially in contact with each other.
[0123] [000123] As can be seen from FIG. 6, once movement of the knife holder 313 to the right has started, the rolling means 318c will roll a corresponding amount of metal band while the rolling means 318b will roll a substantially equal amount. Similarly, once the knife seat movement 323 to the right has started, the scroll means 328c will roll a corresponding amount of metal band while the scroll means 328b will roll a substantially equal amount. It is noted that the scrolling means 318b, 318c, 328b and 328c can alternatively be rotationally coupled to the bearings 31a and 32a, respectively, while the ends of the metal bands are attached to the knife holder 313 and the knife seat 323, respectively . In that case, the mechanism would operate in substantially the same manner as described above, except for the unwinding and rolling which occurs in the rotating means coupled rotationally to bearings 31a and 32a.
[0124] [000124] As indicated above, the covering means 318a and 318b can be a different shape and employ a different mechanism without deviating from the main principle of providing coverage for regions 313b and 323b, in which their size depends on the position present of knife holder 313 and knife seat 323. For example, telescopic cover means can be employed, adapting the position of knife holder 313 and knife seat 323, through the sliding movement of the nested cover elements or merged. Other examples include bending elements, displacement elements, elastic elements and / or combinations thereof.
[0125] [000125] Figure 7A shows a highlighted view of the first example of incision 214 and a predefined rupture zone 216, as created with a packaging apparatus, according to the present invention.
[0126] [000126] The package 32 of the product 20 is composed of the film 21 and comprises a main part 220 and a sealing part 218. The main part 218 comprises a predefined rupture zone 216 that extends towards and, after activation, within the main part 220. A transverse seal 217 extends between the sealing part 218 and the main part 220, sealing the contents of pact 23 from the environment. The base of the rupture zone 216 is defined by the incision 214 provided in the sealing part 218. The sealed (e.g. welded) sections 215 further define the rupture zones 216 and influence the rupture process, directing the rupture. Here, the sealed sections 215 extend in a diagonal orientation with respect to an upper edge of the package 23, thus narrowing the region, along which a rupture starting at the incision 214 can develop. The air pockets 212 provide a gripping zone that extends substantially along the sealed portion 218.
[0127] [000127] Figure 7A shows a prominent view of a second example of a predefined rupture zone 214, as created with a packaging apparatus, in accordance with the present invention.
[0128] [000128] This second example shows a predefined rupture zone 216 and additional elements corresponding to those shown, for example, in FIG. 7A, as described above. However, in the example of FIG. 7B, the sealed sections 215 extend in a substantially perpendicular orientation with respect to the upper edge of the package 23. The orientation, positioning, and / or position of the sealed sections 215 with respect to, for example, the incision 214 can be adjusted for the purpose to modify the properties of the gripping zone, the break zone 216. In some instances, a larger or less gripping zone may be desirable, as well as a more or less constricted region along which the break can develop in the rupture 216.
[0129] [000129] Figure 8A shows a highlighted view of the third example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention.
[0130] [000130] A third example shows a predefined rupture zone 216 and additional elements corresponding to those shown, for example, in FIG. 7A, as described above. However, in the example of FIG. 8A, the predefined rupture zone 216 extends closely and parallel to the edge of the package 23.
[0131] [000131] Figure 8B shows a highlighted view of a fourth example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention.
[0132] [000132] A fourth example shows a predefined rupture zone 216 and additional elements corresponding to those shown, for example, in FIG. 7A, as described above. However, in the example of FIG. 8B, an incision 214 and predefined rupture zone 216 extend diagonally with respect to the edge of the package 23. In this way, for example, a pact 23 can be opened in a way that extends from the edge to the center.
[0133] [000133] Figure 8C shows a highlighted view of the fifth example of a predefined rupture zone 214, as created with a packaging apparatus, according to the present invention.
[0134] [000134] A fifth example shows a predefined rupture zone 216 and additional elements corresponding to those shown, for example, in FIG. 7A, as described above. However, in the example of FIG. 8C, incision 214 has an arcuate shape, starting substantially parallel to the top edge of the package 23 and ending parallel to the side edge of the package 23 (thus covering a segment of about a quarter of a circular shape). In addition, a rupture zone predefined 216 extends substantially parallel with respect to the lateral edge of the package 23. In this way, for example, a package 23 can be opened in a way that allows the removal and / or rupture of a substantially lateral part of the package 23.
[0135] [000135] With respect to the examples shown in FIGs. 7a, 7B, 8A, 8B and 8C, it is noted that other configurations for incision 214, sealed sections 215, rupture zones 216 (as well as other elements shown in these figures) are possible, depending, for example, on the type of product to be packed, the size of the package, the material of the film 21 used in the package 23, and other factors.
[0136] [000136] The packaging apparatus 1 may comprise an HFFS machine. The HFFS machine may comprise a conveyor belt 30 for supporting and transporting the packages 22, and a horizontal direction.
[0137] [000137] Product 20 may be in a packaging. The package 22 loses its seal when the gas is expelled from the package. The package may comprise a film 21. For example, product 20 can be packed or partially packed in film 21. Film 21 extends around product 20. Gas is trapped with product 20 by film 21.
[0138] [000138] Product 20 can be arranged on a surface. The surface can be extend substantially in the horizontal direction. The surface can comprise an upper surface and a conveyor belt 30. The conveyor belt 30 can be a continuous conveyor belt 30. For example, the conveyor belt 30 can be suspended between at least two rollers. The conveyor belt 30 can transport the product 20 in a horizontal direction.
[0139] [000139] Product 20 can be arranged on a tray. The tray supports the product 20. The tray can comprise walls that extend substantially vertically from the base of the tray to a height greater than the vertical dimension of the product 20. Alternatively, the height of the tray can be less than or equal to product height 20. The packaging extends around the tray. The tray can comprise a material selected from a list consisting of polystyrene, aluminum, or any other thermoplastic material such as PET, or cardboard. The tray can be rigid, solid or foamed, and can be any color or shape.
[0140] [000140] The package may comprise a multi-layer film 21. The film 21 may comprise polyolefin. The film 21 can be a fully coextruded shrink film 21. The package 23 provides a gas barrier between the inside of the package 23 and the outside of the package. In this sense, the environment inside the package 23 is isolated from the environment outside the package. This helps to preserve food products 20 and prevent contamination. This can be advantageous in relation to food hygiene. The packaging 23 can provide a barrier to aromas or gases. This can be particularly useful when a product 20 is a food product 20. Package 23 can be resistant to abuse.
[0141] [000141] The packaging can be transparent or translucent. This allows the customer to see product 20 through the packaging. For example, the packaging can comprise a transparent film 21. The packaging film can be anti-fog. This guarantees a high consumer appeal. The packaging film may be printable. This allows labels to be printed directly on the packaging.
[0142] [000142] The package can be formed from a roll of film 21. The tubular film 21 can be formed by forming a tube from a roll of film 21. The packaging apparatus 1 can comprise a former configured to form a 21 film roll in a tube. The former can form a tube forming a longitudinal seal along the longitudinal edges of the film roll 21. The tube may be formed from two webs of film 21. In this case, the former forms two longitudinal seals along the opposite sides of the film. two rolls of film 21.
[0143] [000143] The packaging apparatus 1 can comprise a discharge 34. The discharge 34 is configured to discharge gas through a film tube 21, which forms the package. The gas discharge prevents the pipe from collapsing. The gas discharge helps to maintain the distance between the product 20 in a tray and the film 21. This helps to improve the hygienic appearance of the film 21, because the film 21 remains untouched by the product 20. The discharge 34 releases gas longitudinally through the pipe. The gas used for the discharge can comprise about 70% and 30% of carbon dioxide or another adequately modified atmosphere.
[0144] [000144] Additionally, the gas discharge allows the product 20 to be packaged in a modified atmosphere. The gas can help preserve the product 20, extending its useful life. The desirable amount of gas in the sealed package 23 depends on the type of product 20 and the size of the required service life.
[0145] [000145] The amount of gas that remains in the packaging 22 after the expulsion process may depend on the type of air curtain configuration. The air curtain can be operated at higher pressures and / or volumes in order to expel more gas from the package. The air curtain can be configured by modifying the type, number and arrangement of one or more nozzles. The nozzles can be slit, circular, elliptical, or any suitable type. The controller 50 can be configured to control the flow rate of the gas flow provided by the outlet 16, the pressure and / or volume of the gas flow, thereby controlling the amount of gas to be expelled.
[0146] [000146] The packaging apparatus 1 can comprise a shrinking machine configured to shrink the film 21. The shrinking machine can be, for example, a shrink tunnel 33, or a hot air tunnel 33. The sealed package 23 is shrunk in a shrinking machine. The shrinking process may involve heating a sealed package. The package 23 can be heated to a temperature within a range of about 130 ° C to about 150 ° C.
[0147] [000147] Before the sealed package 23 is shrunk, there may be unwanted gases trapped in the sealed package 23, together with the product 20. Additionally, the sealed package 23 may comprise undesirable "dog ears", where the dog's ear is the portion of the package that extends out of product 20 (for example, because product 20 is not a regular rectangular prism) After the shrinking process, dog ears and gas content are reduced. This gives the sealed package 23 a more aesthetic appearance. In the case of cheese, the cheese can consume any residual gas that remains inside the sealed package 23 after the shrinking step.
[0148] [000148] Product 20 can be a food product 20. For example, product 20 can comprise meat, cheese, pizza, ready meals, poultry or fish. The product 20 can be substantially dry, as in the case of cheese. For some products, such as cheese, there is no need for a cheese support tray. Alternatively, product 20 can be wetted. In this case, it is particularly desirable for the product 20 to be arranged on a tray.
[0149] [000149] The packaging process of the invention can be employed to pack food products 20 which should have a shelf life of about six days to about 14 days, for example.
[0150] [000150] It is desirable for the packaging apparatus 1 to comprise a horizontal sealing and filling machine. However, the packaging apparatus 1 may comprise other types of sealing and form filling machines, such as a vertical sealing and filling machine (VFFS). In a sealing and form filling machine, the package 22 moves along a packaging device 1, in a vertical direction during the packaging process.
[0151] [000151] On a VFFS machine, the package can be sealed once to form a lower end of the sealed package. The product 20 is then fed into an open package on one side. The upper end of the package 22 is then sealed to form a sealed package 23. Prior to the step of sealing the upper end of the package, the process comprises the step of expelling gas from the package.
[0152] [000152] Although the invention has been described in connection with what is currently considered the most practical and preferred modalities, it is understood that the invention should not be limited to the disclosed modalities, but, on the contrary, it is intended to cover various modifications and equivalent arrangements that are within the spirit and scope of the added claims.

权利要求:
Claims (22)
[0001]
Device for sealing and cutting a film (21) in a packaging device (1), characterized by the fact that it comprises: a first member (31); a second member (32); on what: the first member (31) is movable in relation to the second member (32), or the second member (32) is movable in relation to the first member (32), or both the first (31) and the second (32) member are mobile in relation to each other; and where: one of the first (31) and the second (32) member comprises an elongated blade (315); one of the first (31) and the second (32) member comprises a cutting means (313a), the one of said first and second members (31, 32) comprising the cutting means (313a) further comprising a support (313) for the cutting means (313a); wherein the cutting means (313a) are positioned in a plurality of positions with respect to the respective member (31, 32) and where the support (313) is movably coupled to the respective member (31, 32) so that the support (313) is movable parallel to a longitudinal extension of the elongated blade (315) and positionable with respect to the respective member (31, 32), in order to position the cutting means (313a) in any of the plurality of positions.
[0002]
Device according to claim 1, characterized in that the device has a first configuration, in which the first (31) and the second (32) member are separated from each other, and a second configuration, in which the first (31) and the second (32) member are substantially in contact with each other; wherein the first (31) and the second (32) members comprise the first (31b) and the second (32b) work surface respectively, and where the first (31b) and the second (32b) work surface are substantially in contact with each other, when the first (31) and the second (32) members are in the second configuration.
[0003]
Device according to claim 1 or 2, characterized in that the support (313) for the cutting means is configured to maintain the cutting means (313a) removably.
[0004]
Device according to any one of claims 1 to 3, characterized by the fact that one of the first and second members (31, 32) comprises the cutting means (313a) further comprising the support elements (31a, 32a) disposed at the first and second opposite ends of them, wherein the support (313) is movable between a first limit position in which the support (313) supports the support element ( 31a, 32a) located at the first end of the respective member (31, 32) and a second limit position in which the support (313) supports the support element (31a, 32a) located at the second end of the respective member (31 , 32).
[0005]
Device according to claim 4, characterized by the fact that one of the first and second members (31, 32) comprises the cutting means (313a) also comprising the first means of movement (317) configured to move the support (313) in any of the plurality of positions, wherein the plurality of positions comprises a number of discrete positions.
[0006]
Device according to any one of claims 1 to 5, characterized in that one of the first and second members (31, 32) comprising the cutting means (313a) is configured to receive, in the support (313), any one a plurality of interchangeable cutting means (313a), each of the plurality of interchangeable cutting means having a different size, shape and / or shape than the other interchangeable cutting means, and where the cutting means (313a ) are removably coupled to the respective member (31, 32) so that any of the interchangeable cutting means can be coupled to the support (313) of the respective member (31,32).
[0007]
Device according to any one of claims 1 to 6, characterized in that one of the first and second members (31, 32) which is devoid of the cutting means (313a) comprises a corresponding seat (323a) to receive, at least less partially, the cutting means (313a); and wherein one of the first and second members (31, 32) comprising the seat (323a) further comprises a seat support (323) configured to delimit the seat (323a), wherein the seat support is (323) coupled movably to the respective member (31, 32) so that the seat support (323) is movable parallel to a longitudinal extension of the elongated blade (315) and can be positioned in a plurality of different positions in relation to the respective member ( 31, 32), allowing the seat (323a) to be aligned with the cutting means (313a), so that when the device is in the second configuration, the seat (323a) is configured to receive the cutting means (313a); wherein one of the first and second members (31, 32) comprising the seat (323a) comprises support elements (31a, 32a) arranged at the first and the second end, where the seat support (323) is movable between a first end position in which the seat support (323) supports with the support element (31a, 32a) located at the first end of the one between the first and second members (31, 32) comprising the seat (323a) and a second limit position in which the seat support (323) supports the support element (31a, 32a) located at the second end of the one between the first and second members (31,32) comprising the seat (323a).
[0008]
Device according to claim 7, characterized by the fact that one of the first and second members (31, 32) comprising the seat (323a) still comprises the second means of movement (327) configured to move the seat support (323) in any of the plurality of positions.
[0009]
Device, according to any of the claims 7 to 8, characterized by the fact that the device still comprises a control unit (50) connected to the first (317) and / or the second means of movement (327), the control unit being configured to control the first (317) and the second means of movement (327) so that the current position of the cutting means (313a) and / or the support (313) in relation to the respective member (31, 32) is aligned with the current position of the seat (323a) and / or the seat support (323) in relation to the other respective member (31,32).
[0010]
Device according to any one of claims 7 to 9, characterized in that the first member (31) comprises a first driver (317a) configured to act according to the first means of movement (317), in order to position the cutting means (313a), in which the first moving means (317) are operationally coupled to the support (313) so that the first moving means (317) are configured to position the cutting means (313a), moving the support (313), where, optionally, the first driver (317a) is an electric motor configured to rotate the first means of movement (317) on a respective longitudinal axis; and / or wherein the second member (32) comprises the second driver (327a) configured to act according to the second means of movement (327), in order to position the seat (323a), in which the second means of movement (327) they are operationally coupled to the seat support (323) so that the second movement means (327) are configured to position the seat (323a), moving the seat support (323) where, optionally, the second driver (327a) is an electric motor configured to rotate the second movement means (327) on a respective longitudinal axis.
[0011]
Device according to any one of claims 7 to 10, characterized in that the first means of movement (317) comprises a first threaded control rod, axially fixed to the first member (31), so that the first threaded control can be rotated on a respective longitudinal axis without executing a translation movement, in which the first threaded control rod is also rotatably coupled to the support (313) or seat support (323), thus being configured to move the support (313) or the seat support (323) between and in a plurality of positions by rotating the first threaded control rod; and / or wherein the second means of movement (327) comprises: a second threaded control rod, axially fixed to the second member (32), so that the second threaded control rod can be rotated on a longitudinal axis thereof without executing a translation movement, in which the second threaded control rod is still rotatably coupled to the support (313) or seat support (323), thereby being configured to move the support (313) or the seat support (323) between and within the respective plurality of positions by rotating the second rod threaded control; optionally wherein the control unit (50) is configured to synchronize movement of the first and second actuators, so that the cutting means (313a) are positioned in opposition to the seat support (323).
[0012]
Device according to any one of claims 7 to 11, characterized in that the first (317) and / or the second means of movement (327) comprise one of: - a rod assembly and a pneumatic actuator, or hydraulic; - a linear motor operationally coupled to a linear rack; on what: the first (317) and / or the second (327) means of movement is operationally coupled to the control unit (50), and the control unit (50) is configured to control the first (317) and / or the second ( 327) means of movement; wherein the first (317) and / or the second (327) moving means comprises a locking / unlocking mechanism, configured to lock a current position of the support (313) and the seat support (323) in one of a plurality discrete locking positions along a length of the first (31) and / or the second (32) member, respectively; optionally, where the lock / unlock mechanism is configured to be manually adjustable.
[0013]
Device according to any one of claims 7 to 12, characterized in that the first member (31) comprises a first rail (31c) configured to receive both the support (313), or the seat support (323), wherein the first rail (31c) is shaped like a continuous cavity, extending along a length of the first member (31), and where the support (313) or the seat support (323) occupies at least less partially, the first rail (31c) thereby defining one or more regions (313b) adjacent to the support (313) or the seat support (323); wherein the first member (31) comprises at least one cover (318a), configured to cover one or more regions (313b), where the cover (318a) comprises at least one pulley (318b, 318c) carried by the first member ( 31) in correspondence to one or more regions (313b) and configured to adapt to a size of one or more regions (313b) releasing or retracting a rolled cover, optionally in which at least one pulley (318b, 318c) is rotatably coupled to the support (313) or the seat support (323), and one end of the rolled-up cover is coupled to the support element (31a).
[0014]
Device according to any one of claims 7 to 13, characterized in that the second member (32) comprises a second rail (32c) configured to receive both the support (313), or the seat support (323), wherein the second rail (32c) is shaped like a continuous cavity, extending along a length of the second member (32), and still where the support (313) or the seat support (323) occupies, at least partially, second rail (32c) thereby defining one or more regions (323b) adjacent to the support (313) or the seat support (323); wherein the second member (32) comprises at least one cover (328a), configured to cover one or more regions (323b), where the cover (328a) comprises at least one pulley (328b, 328c) carried by the second member ( 32) in correspondence to one or more regions (323b) and configured to adapt to a size of one or more regions (323b) releasing or retracting a rolled cover, optionally in which at least one pulley (328b, 328c) is rotatably coupled to the support (313) or the seat support (323), and one end of the rolled-up cover is coupled to the support element (32a).
[0015]
Device according to any one of claims 1 to 14, characterized in that the elongated blade (315) is configured to cut the film (21) substantially perpendicular to a direction of movement (30a), and wherein the cutting means (313a) are configured to provide the film (21) with an incision, and are adjustable to the respective member (31, 32) so that the incision can be provided at a predetermined angle, optionally in the which the angle is comprised between 30 ° and 60 ° in relation to a longitudinal extension of the respective member (31,32).
[0016]
Device, according to any of the claims 1 to 15, characterized in that the first member (31) and / or the second member (32) comprise one or more sealing bars (312, 314, 322 and 324) configured to form a substantially oriented seal across a longitudinal length of film (21).
[0017]
Device, according to any of the claims 1 to 16, characterized in that the first member (31) comprises a first film holder (311), a first sealing bar (312), a knife holder (313), a second sealing bar (314) ), a cutting bar (315) and a second film holder (316), and / or wherein the second member (32) comprises a first film holder (321), a first sealing bar (322), a knife seat (323), a second sealing bar (324), a cutting bar (325) and a second film holder (326); wherein the first and second film holders (311 and 316) of the first member (31) are configured to interact with the first and second film holders (321 and 326) of the second member (32), so that when the first and the second member (31 and 32) is brought into substantially contact with each other, the film (21) is brought into contact and squeezed between the film holders (311, 316, 321 and 326) and is thus substantially immobilized in relation to the first and second members (31 and 32); and / or wherein the first and second sealing bars (312 and 314) of the first member (31) are configured to interact with the first and second sealing bars (322 and 324) of the second member (32), so that when the first and second members (31 and 32) are placed substantially in contact with each other, the film (21) is brought into contact and squeezed between the sealing bars (312 and 314, 322 and 324), thus facilitating the sealing of two adjacent layers of film (21).
[0018]
Device according to claim 17, characterized by the fact that the cutting bar (315) of the first member (31) is configured to interact with the cutting bar (325) of the second member (32), so that when the first and second members (31 and 32) are brought into substantially contact with each other, the film (21) is brought into contact and cut by the cutting bars (315 and 325), thereby facilitating the cutting of the film ( 21).
[0019]
Packaging apparatus (1) characterized by the fact that it comprises: a control unit (50); a charging station configured to position a tubular film around a product (20) to be packaged; a sealing station (3) coupled to the control unit (50), the control unit being configured to control the sealing station to create one or more seals on the tubular film; an exit station; a means for moving the products from the loading station to and through the sealing station and to the exit station; wherein the sealing station comprises a device for sealing and cutting according to any one of claims 1 to 18.
[0020]
Packaging apparatus according to claim 19, characterized by the fact that it still comprises: evacuation means (13); on what the control unit is configured to control the sealing station to create a first seal on the tubular film, thereby forming a first sealed end and creating a semi-sealed package containing the product to be packaged, the semi-sealed package having a second open end; the evacuation means are coupled to the control unit, the control unit is configured to expel the gases present within the semi-sealed package; the moving means are configured to move the semi-sealed package, the moving means being coupled to the control unit, the control unit being configured to control the moving means to move the semi-sealed package; wherein the control unit is further configured to control the sealing station to create a second seal on the tubular film, thereby sealing the second open end, forming a second sealed end away from the first sealed end, and creating a sealed package containing the product to be packed.
[0021]
Sealing and cutting process using the device as defined in any of claims 1 to 18 or a sealing and cutting process using the device as defined in claim 19 or 20, characterized by the fact that the process comprises the steps of: create a first seal on a tubular film (21), thus creating the semi-sealed package (22); and optionally creating a second seal (218) on the semi-sealed package to thereby create a sealed package (23); and creating a substantially transverse cut in the tubular film (21) to thereby separate the semi-sealed package or the sealed package from a subsequent part of the tubular film (21); wherein the step of creating the first seal or the step of creating the second seal (218) comprises creating an incision (214) in a section of the first or second seal (218), the incision (214) defining a zone predetermined breakage (216) in the tubular film (21) of the sealed package (23).
[0022]
Process according to claim 21, characterized in that the process further comprises the modification of a position and / or an orientation of a cutting means (313a), in order to configure a length, a position, and / or an orientation of the incision (214) in the first seal of the sealed package (23) thus facilitating the breaking of the second seal (218) and / or the rupture of the film (21) along the predetermined break zone (216) of the sealed package pulling the film (21) to separate on both sides of the predetermined break zone (216); and / or wherein the steps of creating the first seal, creating the second seal (218), and cutting the tubular film (21) are carried out at substantially the same time; and / or where the process further comprises the steps of positioning a product (20) on the film (21); and sealing the film (21) along a longitudinal edge thereof to obtain the product (20) placed within a part of the tubular film (21).

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同族专利:

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公开号 | 公开日

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BR102014031961A2|2015-10-06|

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US10577142B2|2020-03-03|

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NZ703121A|2017-10-27|

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EP2886268A1|2015-06-24|

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EP2886268B1|2017-02-15|

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AU2014268746A1|2015-07-09|

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US20150175288A1|2015-06-25|

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AU2014268746B2|2018-12-13|

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法律状态:
2015-10-06| B03A| Publication of an application: publication of a patent application or of a certificate of addition of invention|

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2018-02-27| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

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2018-03-27| B15K| Others concerning applications: alteration of classification|Ipc: B65B 59/02 (2006.01), B26D 7/26 (2006.01), B65B 9/ |

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2018-05-15| B15K| Others concerning applications: alteration of classification|Ipc: B29C 65/18 (2006.01), B29C 65/74 (2006.01), B65B 5 |

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2020-02-18| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

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2020-07-14| B09A| Decision: intention to grant|

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2020-08-25| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 19/12/2014, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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EP13199224.0|2013-12-20|

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EP13199224.0A|EP2886268B1|2013-12-20|2013-12-20|Device for sealing and cutting in a packaging apparatus, a packaging process and a packaging apparatus|

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