EA042826B1 - MULTILAYER FLEXIBLE PACKAGING MATERIAL FOR MANUFACTURING VOLUMETRIC WRAPS AND METHOD OF ITS MANUFACTURING - Google Patents

Description

The invention relates to a multilayer material for the manufacture of individual volumetric wrappers and can be used for the production of easily opened volumetric wrappers, for example, for confectionery products, in particular for caramel lollipops. The invention also relates to a method for the production of a multilayer flexible packaging material for the manufacture of bulk wrappers.

As a rule, confectionery products, in particular sweets and chocolate, are wrapped individually in rectangular wrappers of the required size and shape with a pre-printed. In this case, in the case when the wrapped product (candy) has, for example, the shape of a parallelepiped, it is placed in the center of the reverse side of the rectangular wrapper, i.e. the side that does not have a seal. Then the product is wrapped, bending the longitudinal sides of the wrapper along the surfaces of the product, bending around it, and wrapping is completed either by making oblique folds of the wrapper along the lower and upper edges or by twisting the free sections of the wrapper from the side of the lower and upper edges. If the wrapped product has a shape other than a parallelepiped, which is typical, in particular, for caramel, it is necessary to pack it in a wrapper in a different way.

So, at present, a large number of sweets produced by various manufacturers are known, in particular, candy caramel, including on a stick, in various individual packaging, usually made in the form of a wrapper made of food material, such as foil, parchment, wax paper, acquiring a three-dimensional candy shape. , transparent or opaque polymer film material, etc. In the context of this description, the term candy includes all possible types of candy, including caramel and hard candies (candy candy), and for simplicity will be used in the description as candy (caramel) to refer to packaged products having a suitable three-dimensional shape, preferably spherical or ellipsoidal. , and which, by definition, can be classified as candy.

The choice of material for an individual wrapper is carried out, among other things, based on the tasks that it must perform - to protect the candy (caramel) from pollution and the negative effects of water vapor in the surrounding air, and also to create an attractive appearance. Caramel, in particular, as a very hygroscopic product, must be packaged under special conditions. Traditionally, for its individual packaging, one (label or foil), two or three wrappers are used. If there are two wrappers, the lower (inner) one is called a wrap, and the upper (outer) one is called a label. Foil can be used instead of a wrap. In the case of three wrappers, this is a label with foil and a liner. The label, foil or backing must not stick to the surface of the caramel, and the colors on the labels must not transfer to the surface of the caramel [1].

There are various types of caramel wrapping: with double-sided twisting of the ends of the label; in a corner, lock, sock, tail - the label covers four sides of the product, and is folded along the ends in the form of corners (locks); in one-sided twisting - the label covers the lollipop caramel on a stick from all sides and its ends are twisted; in a sachet (bow) - the label covers the product from all sides with a fold on one of the sides and a one-sided twist; in a tube (twisted with a parcel) - caramel in the form of round or square tablets is collected in piles and wrapped in wrapping material and the ends are twisted at the ends [2].

Usually, the type of wrapping is chosen based on the shape, size, type of caramel. At the same time, manufacturers, when choosing the wrapping form and structure (the number of layers and the material from which they are made), pay special attention to the reliability of protecting the confectionery product from external influences, the manufacturability of the packaging process, as well as the aesthetic perception by the consumer of the image printed on the label (for a more active product promotion). At the same time, to fulfill all the requirements for individual packaging - a wrapper, as a rule, a two- or three-layer wrapper is used, in which each of the layers performs its specific function. Individual wrap layers made from film materials are usually obtained from films rolled into rolls immediately before candy packaging by cutting the roll into individual plates of a given shape and size.

Thus, a packaging wrapper is known, obtained from a film that can be stored rolled up in the longitudinal direction into a roll and cut across into separate plates, sealed by bending around the product (candy) [3]. The film has on each plate along each of its transverse edges a strip of an adhesive layer of cold gluing, and one of the strips is on the front side, and the second - on the reverse side of the plate. Said strips provide, through their mutual overlapping, the final sealing of the plate during the last folding operations, and the adhesion between said strips is controlled and sufficient to keep the wrapper in the embedded state, but not sufficient to prevent the film from unwinding from the roll in cases where mutual contact occurs. between the strip on the front side and the strip on the reverse side while the film is in the roll. Such a wrapper, in principle, solves the problems of reliability and even tightness of the package, but this complicates the removal of the package, since this requires efforts to break the package.

Also known is a candy wrapper made of a transparent material with a stylized image [4]. Sweets are wrapped in such a wrapper by connecting the side and end sides of the wrapper. The wrapper is made of two layers - inner and outer. On the inner side of the outer and/or inner layers there are fragments of the image, painted in at least one color, and which are made in shape and size corresponding to the fragments of the stylized image of the wrapper. The strength of the connection of the end sides of the wrapper is made less than the strength of the connection of its side side, with the possibility of opening the wrapper from its end side by compressing the wrapper and extracting the candy body from the end side, holding the outer surface of the wrapper. However, this wrapper design is not suitable for wrapping caramel on a stick.

Known packaging for food products, mainly lollipops, made in the form of a container of polymeric material with a lid, interconnected to form a closed, sealed cavity [5]. At the same time, a part of the closed hermetic cavity has a base on which the packaged caramel is located, and a side surface associated with it, covering the said packaged caramel along its outer contour, and it is connected by a channel with another part of the closed hermetic cavity, made in the form of a recess located at the periphery of the package, oriented orthogonally to said channel and symmetrically about its longitudinal axis. This package is sealed and easy to open. However, taking into account the material from which it is made, it has a high cost and, as a result, a rather limited use, rather, as a souvenir option.

For the manufacture of caramel wrappers, various food-grade polymer films are still more widely used. Thus, for packaging food products such as sweets, chocolate, sweets, sugar or caramel, chewing gum, lollipops, a film with a thickness of 10 to 60 microns is known, containing three layers, of which two contain at least one polyester obtained by terephthalic condensation. acid with ethylene glycol and a diol having at least three carbon atoms, and one of the layers contains at least one polyolefin and is in the middle, while the sum of the weight of the layers containing the complex polyester is at least 20 wt.% of the film weight , while the film contains at least one anti-blocking agent and/or slip agent and has a symmetry plane that is parallel to it and relates to the geometry and composition of the film [6]. The described film is suitable for wrapping, i. it retains the shape it was given when wrapping the candy, with a slight tendency to return to its original flat film shape. The film is also easy to cut, because for individual wrapping of candy, including caramel on a stick, the original film, supplied in rolls, must be cut into individual wrappers of a given shape and size. However, before and after mechanical cutting, the film should remain highly flat and should not tend to self-roll. However, in the patent in question, the composition of the film layers is quite strictly defined, which suggests that when the layers are replaced, the film will no longer exhibit the positive properties mentioned above. In addition, when wrapping a candy, in particular caramel on a stick, with a wrapper from this film, the issue of simplifying the extraction of the contents (candy) from the wrapper is not solved.

The analysis of the prior art showed that the known solutions of wrappers, in particular wrappers for caramel on a stick, solve the problems of manufacturability of the process of wrapping caramel in a wrapper, as well as preserving the quality of caramel in a wrapper. At the same time, taking into account the requirements for the tightness of the packaging of caramel, as well as the features of the three-dimensional shape of the wrapper, which it acquires when wrapping the caramel, the process of removing the wrapper becomes problematic, especially if we take into account the age of the main consumers of such caramel, which determines the insufficient force applied when rupture of the package or insufficient finger dexterity when unrolling the wrapper. In particular, this is relevant for caramel on a stick.

From the prior art, technical solutions for wrappers for food products, including confectionery products, in particular sweets, are known, in which elements are provided that simplify the opening of the package.

Thus, a package is known that contains the first and second layers connected to each other, made with an embedded weakened area in the part of the first layer and exposed outside the package, and with an embedded weakened area in the part of the second layer located inside the package [7]. At the same time, said built-in weakened areas are located so that breaking the first layer in its built-in weakened area ensures that the first layer acts on the second layer to break the second layer in the built-in weakened area in order to open the package. Said package comprises end walls and one or more side walls extending between the end walls, with an embedded weakened area of the first layer made in the side wall and an embedded weakened area of the second layer made in the end wall. Elements that simplify the opening, in this case, are weakened areas. However, such packaging is quite laborious to manufacture, because requires separate manufacture of each of the layers, execution in each of the layers of weakened areas consistent with each other and zonal connection of individual layers.

A wrapper is also known, in which the closure at one end is formed by twisting the freedoms

- 2 042826 end of the wrapper, while the opposite end is closed so that it can be easily opened by squeezing the product out of the wrapper in the direction of the specified end [8]. In this case, said end closure can be formed by folding the free end of the wrapper from this end with the formation of two corners located opposite each other and laying these corners overlapping on the surface of the end. The patent in question states that such a wrapper is most suitable for wrapping sweets, in particular caramel, in the shape of a parallelepiped. The use of such a wrapper for packaging caramel on a stick, having the shape of a sphere or ellipsoid, is problematic.

Most of the packaging materials discussed above and others known from the prior art are best suited for wrapping sweets, including caramel, which are in the shape of a parallelepiped. At the same time, for wrapping sweets, in particular caramel, having a spherical or ellipsoidal shape, the packaging material must have additional properties, in particular, elasticity, in order to repeat the shape (spherical or ellipsoidal) of the wrapped candy on as large a surface area as possible, i.e. form a volume wrap. At the same time, despite the high elasticity of the packaging material, the wrapper made from it should provide the possibility of its easy opening/tearing.

Based on the results of the analysis of the prior art, taking into account the above remarks, and also due to the significant differences between the proposed multilayer flexible packaging material for the manufacture of volumetric wrappers from those previously known, the applicant did not choose a technical solution that could be used as a prototype. The prototype is also not selected for the proposed method for the production of multilayer flexible packaging material for the manufacture of volumetric wrappers.

The objective of the invention is to create a multilayer flexible packaging material for the manufacture of three-dimensional wrappers, as well as a method for the production of such material, which ensured the production of three-dimensional wrappers that meet the requirements for an individual wrapper for sweets, including caramel, in particular, having a preferably spherical or ellipsoid shape of caramel on a stick. A multilayer flexible packaging material should make it possible to manufacture from it a plurality of individual wrappers that meet all the requirements of regulatory documents in terms of their characteristics and, in addition, would simplify the process of packing a candy, in particular caramel on a stick, having a spherical or ellipsoidal shape, into an easily opened container. an individual volumetric wrapper, practically in one technological operation.

At the same time, the term easily opened wrapper within the framework of the claimed invention means the possibility of opening (tearing) the wrapper when performing manipulations with hands or even fingers with little effort (for example, the fingers of one hand are placed in the area of one part of the wrapper, and the fingers of the second hand - in the area of the second part wrappers (a continuous tear boundary is located between the fingers) and a slight turn of the hands in opposite directions violate the integrity of the wrapper along the continuous tear boundary, i.e. tear the wrapper into two parts).

The problem is solved, and the claimed technical results are achieved by a multilayer flexible packaging material for the manufacture of volumetric wrappers, made in the form of a laminate and containing inextricably linked at least two layers - inner and outer in relation to the volumetric wrapper, layers, each of which is made in the form of a film selected from the group consisting of at least polyethylene terephthalate film, polypropylene film, including biaxially oriented polypropylene film and non-oriented polypropylene film, polyethylene film, including oriented polyethylene film, in particular polyethylene film with orientation of macromolecules in the machine direction of processing (known in this field techniques like MDO-film), and an image of individual wrappers applied to one of these films. At the same time, the boundaries of the regions of a plurality of individual wrappers on the packaging material are determined by photomarks, and in the area of each individual wrapper, in the outer layer, a perforation is made, which defines a continuous border of the rupture of the bulk wrapper, located in a given sectional plane of the bulk wrapper.

As mentioned above, when packing sweets, in particular caramel on a stick, having a spherical or ellipsoidal shape, a three-dimensional wrapper is formed from an essentially flat rectangular blank by distributing it over the surface of the candy into an individual wrapper. Thus, the individual wrapper acquires a three-dimensional shape, basically corresponding to the shape of the candy. Like any three-dimensional figure, its shape is determined, among other things, by the shape of the main sections (transverse, longitudinal, etc.). And if for sweets, which are mainly in the shape of a parallelepiped, it is possible to form a three-dimensional wrapper, basically, without folds, creases, etc. elements that ensure a tight fit of the wrapper to the candy, which makes it possible to almost unambiguously determine the shape (as a rule, it is a straight line) and the location of the line made on a flat blank of the wrapper, which will form a conditionally closed contour of a certain section plane on the volumetric wrapper (for example, the contour of the weakening line for further gap), then when wrapping sweets of a spherical or ellipsoidal shape, this is not always determined simply and unambiguously. In addition, taking into account the changing from the minimum to the maximum and again to the minimum value

- 3 042826 To determine the cross-sectional size of a spherical or ellipsoid candy, it is necessary to correctly select the location of the line of weakening to break the wrapper so that its parts can be easily removed from the spherical or ellipsoid candy. Theoretically, the most optimal is the rupture of the volumetric wrapper along the section of the maximum size, therefore, on a flat wrapper blank, it is necessary to define a line (straight, curved, broken line), which will determine the conditionally closed contour of the sectional plane of the maximum size. At the same time, in the case of packaging material in the form of films, it is optimal when all the marks of the boundaries of the regions and other elements of individual wrappers, as well as the image of individual wrappers, are applied to the web of the packaging material (on individual layers of the web of a multilayer material) before it is rolled up and delivered. to the place of packaging (or production of individual wrappers).

The implementation of the inventive multilayer flexible packaging material for the manufacture of volumetric wrappers in the form of a multilayer laminate also easily solves the problem of the need to use different materials to give the package the required properties, which provide, for example, protection of the candy (caramel) from pollution and the negative effects of water vapor from the surrounding air, exclude the possibility sticking of the wrapper in the candy, the possibility of forming a volumetric wrapper that tightly fits the candy (caramel) over the maximum area of its surface, etc. The set of necessary properties is provided by selecting the material of the layers and the order in which they follow. Also, the correct selection of the material of the layers according to their properties provides the main technical result - easy opening of the package, since in order to maintain the tightness of the wrapper, perforation is made only in the outer layer, then when opening the wrapper, the material / s of the underlying layer / s should be easily torn along the contour defined by the perforation contour in the outer layer.

Thus, the claimed multilayer flexible packaging material for the manufacture of volumetric wrappers is most suitable for the manufacture of individual volumetric wrappers, primarily sweets (caramels) of a spherical or ellipsoidal shape, including sweets (caramels) on a stick.

In various alternative preferred forms of implementation, the inventive multilayer flexible packaging material for the manufacture of bulk wrappers can be made in the form of a web with the possibility of placing on it at least two regions of individual wrappers in the longitudinal direction and at least two regions of individual wrappers in the transverse direction, or in the form strip with the possibility of placing on it at least two areas of individual wrappers in the longitudinal direction and one area of a separate wrapper in the transverse direction.

In the preferred embodiments of the inventive multilayer flexible packaging material for the manufacture of volumetric wrappers, despite the spherical or ellipsoidal shape of the packaged candy (caramel), the region of a separate wrapper has a rectangular shape, while the perforation is made in the form of a line selected from the group including at least , a longitudinally oriented straight line, a transversely oriented straight line, and a circle. This allows the material to be used over the entire area (no waste).

In various alternative preferred forms of implementation of the inventive multilayer flexible packaging material for the manufacture of three-dimensional wrappers, the tear boundary can be made in the form of a line or in the form of a strip (which is defined, for example, by two parallel lines).

In the preferred embodiments of the claimed multilayer flexible packaging material for the manufacture of three-dimensional wrappers, the image of individual wrappers contains alphanumeric and figurative elements and is multicolored.

Also, in the preferred embodiments of the inventive multilayer flexible packaging material for the manufacture of volumetric wrappers, a tongue, preferably a tongue with a valve, can additionally be located in the areas of individual wrappers in the perforation zone. Due to the presence of such a tongue, to open (break) the wrapper, it is enough to slightly pull it with the fingers of only one hand.

The problem is also solved, and the claimed technical results are achieved by the claimed method for the production of the above-described multilayer flexible packaging material for the manufacture of three-dimensional wrappers, including the application of photomarks and images of individual wrappers on a layer of one film with the formation of areas of individual wrappers, lamination of films and perforation in the areas of individual wrappers in the form of a line of a given shape in the outer layer of the film in relation to the bulk wrapper.

As it will be clear to specialists in this field of technology, the proposed method is high-tech, since it includes a limited number of stages and technological operations, and the same type of technological stages (for example, applying photomarks and images of individual wrappers on one of the layers) are performed simultaneously at one stage.

In preferred embodiments, the films can be laminated by a method selected from the group consisting of at least standard solventless lamination over the entire area and standard solventless lamination in combination with selective solvent lamination of certain areas.

- 4 042826

The perforation is preferably in the form of a line selected from the group consisting of at least a longitudinally oriented straight line, a transversely oriented straight line and a circle. The shape of the line is determined based on the three-dimensional shape of the candy (caramel) and, accordingly, the three-dimensional label, as well as the location of the target section plane of the three-dimensional wrapper.

The perforation is preferably performed by a method selected from the group consisting of laser incision and mechanical incision. In this case, specialists in the art will be able to select devices suitable for performing this operation and set their operating modes, providing a depth of notches corresponding to the thickness of the outer layer.

In the general case, the production of a multilayer flexible packaging material for the manufacture of bulk wrappers can be completed at the stage of winding the manufactured web of material into a roll with further delivery of the rolls to the production of sweets (caramel) for cutting into individual individual wrappers.

At the same time, immediately after the fabrication of the web of multilayer flexible packaging material for the production of bulk wrappers, the material is additionally cut into strips with at least two separate wrapper regions in the longitudinal direction and one separate wrapper region in the transverse direction placed on each strip using photo marks. In this case, strips of material wound into narrower rolls are sent to the production of sweets (caramel).

It is also possible to implement the proposed method, in which the material is additionally cut into separate wrappers using photo marks. In this case, the production of sweets (caramel) is already sent to individual blanks of wrappers, packed in any suitable way.

In addition, in a number of preferred forms of implementation of the proposed method, in addition, in the areas of individual wrappers in the perforation zone, a tongue is made, preferably a tongue with a valve.

The above and other advantages and benefits of the claimed multilayer flexible packaging material for the manufacture of volumetric wrappers and the method of its production will be discussed in more detail below on some preferred, but not limiting forms of implementation with reference to the positions of the figures of the drawings, which are schematically presented:

fig. 1 - a web of multilayer flexible packaging material (conditionally, without applied images of individual wrappers) with markings into separate wrappers in one of the implementation forms;

fig. 2 - a separate wrapper (flat), highlighted in Fig. 1, on an enlarged scale;

fig. 3 is a fragment of a section along the line A-A of the wrapper according to FIG. 2 on an enlarged scale;

fig. 4 - a separate wrapper in a different form of implementation;

fig. 5 - a separate wrapper in another form of implementation;

fig. 6 is a diagram of breaking an individual wrapper in one of the implementation forms;

fig. 7 is a diagram of breaking an individual wrapper in another form of implementation;

fig. 8 is a diagram of breaking an individual wrapper in yet another form of implementation.

In FIG. 1 is a schematic representation of a multilayer flexible packaging material in the form of a web 1 for the manufacture of separate (individual) three-dimensional wrappers 2, in FIG. 2 - a separate flat wrapper 2, and in Fig 3 - a sectional fragment along the line A-A of the wrapper on an enlarged scale. On the canvas 1 are placed many areas of the individual wrappers 2 and in the longitudinal direction and in the transverse direction. A person skilled in the art will also understand that the material can also be made in the form of a strip with the possibility of placing on it a plurality of areas of individual wraps in the longitudinal direction and one area of a separate wrapper in the transverse direction. This form of implementation, due to its obviousness, will not be considered in detail within the framework of this description.

The multilayer flexible packaging material is made in the form of a laminate and contains inextricably linked, in the presented form of implementation, three layers - inner 3, outer 4 and intermediate 5, as well as applied to one of these films (in the presented form of implementation - to the outer film 4) image 6 separate wrappers 2. As mentioned above, the position of the outer and inner layers is determined in the composition of the bulk wrapper in which the candy (caramel) is packed.

Each of the layers (inner 3, outer 4 and intermediate 5) is made in the form of a film, which can be a film of polyethylene terephthalate, polypropylene film, including biaxially oriented polypropylene film and non-oriented polypropylene film, polyethylene film, including oriented polyethylene film, in particular polyethylene film with the orientation of macromolecules in the machine direction of processing, as well as other suitable polymer films applicable in the food industry, the properties of which ensure compliance with all requirements for the packaging of sweets (caramel) and allow them to be included in a multilayer laminate.

The area of a separate individual flat wrapper 2 in the presented form of implementation has a rectangular shape. The boundaries (in Fig. 1 are conventionally indicated by single dashed lines located both in the longitudinal and transverse directions of the web 1, but in fact, absent on the web 1) of the areas of the plurality of individual wrappers 2 on the web 1 are defined by photo marks - 5 042826 mi 7. In area of each individual wrapper 2, in the outer layer 4 perforation 8 is made (in Fig. 1 it is indicated by a double dashed line 8), the trajectory of which defines a continuous border 9 (see Fig.

6) rupture of the bulk wrapper 2, located in a given plane 10 (see Fig. 6) of the section of the bulk wrapper 2. In the presented form of implementation, the perforation 8 is made in the form of a transversely oriented straight line.

In FIG. 4 and 5 are schematic representations of individual wrappers 11, 12, respectively, in other possible but non-limiting implementation forms. Wrappers 11, 12 have a laminate structure similar to wrapper 2 (may differ in the number of layers). At the same time, in their outer layer 13,14, respectively, a perforation 15, 16, respectively, is made, the trajectory of which defines a continuous border 9 (see Fig. 6, 7), a border 17 (see Fig. 8), respectively, of a gap in the volume wrappers 11,12, located in a given plane 10 (see Fig. 6), 18 (see Fig. 8) sections of the three-dimensional wrapper 11, 12, respectively. In the implementation form of FIG. 4, the perforation 15 is in the form of a transversely oriented straight line, while in the embodiment of FIG. 5, the perforations 16 are made in the form of concentric circles, which define a tear boundary in the form of a strip 19 bounded by two concentric circles. In the implementation form of FIG. 4, in the areas of the individual wrappers 11 in the perforation zone 15, which defines a continuous tear boundary 9 in the form of a straight line, a tongue 20 with a flap is additionally located.

Separate wrappers 2, 12 (in Fig. 2, 3 and 5 respectively) are schematically depicted with the image 6, 21, respectively, which can be made in the form of alphanumeric and figurative elements and can be made multicolor.

In FIG. 6-8 show some possible schemes for breaking an individual volumetric wrapper to extract candy (caramel). The reference numbers given in these drawings have been mentioned above in the description of FIG. 1-5 drawings.

Further, the claimed multilayer flexible packaging material for the manufacture of bulk wraps, as well as the claimed method for the production of a multilayer flexible packaging material for the manufacture of bulk wraps, will be illustrated by examples of some possible, but non-limiting forms of implementation.

Examples

Example 1. Volumetric wrapper with a perforation in the form of a straight line.

Multi-layer flexible packaging material for the manufacture of bulk wraps is made from biaxially oriented polypropylene (BOPP) film as the inner layer 3 (twist) and polyethylene terephthalate (PET) film as the outer layer 4. The image of 6 separate wrappers was simultaneously applied to the PET film of the outer layer 3 and photo marks 7 defining the areas of individual wrappers 2. Next, the layers of BOPP and PET films were laminated by standard solventless lamination over the entire area to obtain a web 1 of a multilayer flexible packaging material, which is conditionally (using photo marks 7) divided into many areas of individual individual wrappers 2 in both longitudinal and transverse directions.

Perforation 8 in the form of a transversely oriented straight line was applied by mechanical notching/dashed mechanical notching to the depth of the outer layer 4. In this case, the inner layer 3 remains intact. If necessary, according to the photo marks 7, the web 1 was cut into a plurality of strips and/or a plurality of separate individual wrappers 2.

When packing a candy (caramel) of a spherical shape on a stick, a separate individual wrapper 2 (due to the properties of the packaging material) acquired a three-dimensional shape corresponding to the shape of the candy (caramel), with uniform folds in the lower part. The free ends of the wrapper in the lower part (in the zone of the stick) were twisted. At the same time, sections with a BOPP film (inner layer 3) were welded, and a heat-resistant PET film (outer layer 4) prevented sweets (caramel) from dead sealing. After the candy (caramel) was packed, the perforation 8 formed a continuous border 9 of the wrapper break in the form of a line lying in a given plane 10 of the wrapper section.

To extract the candy (caramel) from the bulk wrapper 2, it was enough to apply a slight force with the fingers of two hands in the direction of the arrows in Fig. 6, due to which the integrity of the inner layer 3 in the perforation zone 8 was violated, and the bulk wrapper 2 was easily torn along the continuous tear boundary 9, which provided easy access to the candy (caramel).

Example 2: A voluminous wrapper with a straight line perforation and a flap tongue.

A multilayer flexible packaging material for the manufacture of bulk wraps is produced from biaxially oriented polypropylene film (BOPP) as the inner layer 3 (twist) and biaxially oriented polypropylene film (BOPP) as the outer layer 4. An image 6 was simultaneously applied to the BOPP film of the outer layer 3 individual wrappers and photo marks 7 defining the areas of individual wrappers 11. Next, the layers of both BOPP films were laminated by standard solvent-free lamination over the entire area to obtain web 1 of a multilayer flexible packaging material, which is conditionally (using photo marks 7) divided into many areas of individual individual wrappers 1 in both longitudinal and transverse directions.

Perforation 15 in the form of a transversely oriented straight line was applied by laser incision to the depth of the outer layer 4. In this case, the inner layer 3 remained intact.

Next, tabs 20 with a flap were produced by selective lamination (in the zone of tab 20 with a flap corresponding to the perforation zone 15) of the duplex of BOPP films obtained above with thicker PET films with a thickness of 23 μm or oriented PP films with a thickness of 30 μm, followed by cutting into blocks of a given width (preferably no more than 450 mm) and mechanical cutting of a thicker film layer while maintaining the integrity of the duplex. In this case, the flash remains on the rolling pin, and the tongue 20 with the valve remains on the duplex and together with it is wound into a roll.

If necessary, according to the photo marks 7, the web 1 was cut into a plurality of strips and/or a plurality of separate individual wrappers 11.

When packing a candy (caramel) of a spherical shape on a stick, a separate individual wrapper 11 (due to the properties of the packaging material) acquired a three-dimensional shape corresponding to the shape of a candy (caramel), with uniform folds in the lower part. The free ends of the wrapper in the lower part (in the zone of the stick) were twisted. At the same time, areas with a BOPP film. After the candy (caramel) was packed, the perforation 15 formed a continuous border 9 of the wrapper break in the form of a line lying in the predetermined plane 10 of the wrapper section.

To extract the candy (caramel) from the voluminous wrapper 11, it was enough to pull the tongue 20 with a valve with a slight effort with the fingers in the direction of the arrows in Fig. 7, due to which the integrity of the inner layer 3 in the perforation zone 15 was violated, and the bulk wrapper 11 was easily torn along the continuous tear boundary 9, which provided easy access to the candy (caramel).

Example 3. Volumetric wrapper with perforations in the form of circles and a continuous break border in the form of a strip.

A multilayer flexible packaging material for the manufacture of bulk wraps is made from a biaxially oriented polypropylene film (BOPP) as an inner layer 3 (twist) and a biaxially oriented polypropylene film (BOPP) as an outer layer 4. An image 21 was simultaneously applied to the BOPP film of the outer layer 3 individual wrappers and photo marks 7 defining the areas of individual wrappers 12. Next, the layers of both BOPP films were laminated by standard solvent-free lamination over the entire area to obtain web 1 of a multilayer flexible packaging material, which is conditionally (using photo marks 7) divided into many areas of individual individual wrappers 12 in both longitudinal and transverse directions.

Perforation 16 in the form of two concentric circles was applied by laser incision to the depth of the outer layer 4. The inner layer 3 remains intact. If necessary, according to the photo marks 7, the web 1 was cut into a plurality of strips and/or a plurality of separate individual wrappers 2.

When packing a candy (caramel) of a spherical shape on a stick, a separate individual wrapper 12 (due to the properties of the packaging material) acquired a three-dimensional shape corresponding to the shape of the candy (caramel), with uniform folds in the lower part. The free ends of the wrapper in the lower part (in the zone of the stick) were twisted. At the same time, sections with a BOPP film were welded. After the candy (caramel) was packed, the perforation 16 formed a continuous border 17 of the wrapper rupture in the form of a strip 19 (see Fig. 8), conventionally lying in a given plane 18 of the cross section of the wrapper 12.

To extract the candy (caramel) from the bulk wrapper 2, it was enough to apply a slight force with the fingers of two hands in the direction of the arrows in Fig. 8, due to which the integrity of the inner layer 3 in the perforation zone 16 was violated, and the bulk wrapper 12 was easily torn along the continuous border 17 of the gap in the form of a strip 19, which provided easy access to the candy (caramel).

It should be noted that the exemplary forms of implementation of a multilayer flexible packaging material for the manufacture of three-dimensional wrappers and the method of its production do not exclude other possible forms of implementation, such as choosing the number of laminate layers, the material of the laminate layers, the shape and methods of perforation, etc. the conditions defined in the independent claims. Bulk packs similar to those described in Examples 1-3 can be made using any combination of those listed in the claims or other suitable and known to those skilled in the art film materials as laminate layers.

Information sources.

1. GOST 6477-88. Caramel. General specifications.

2. Wrapping, packaging and packaging of caramel. Internet resource Helpix. Org. [Electronic resource] - April 29, 2019 - Access mode: https://helpiks.org/6-56429.html.

3. EA Patent No. 002578 B1, publ. 06/27/2002

4. Application EA No. 201791619 A1, publ. 01/31/2019

5. Patent RU No. 65025 U1, publ. July 27, 2007

6. Patent RU No. 2213665 C2, publ. October 10, 2003

7. Application PCT/IB201/054091, publication WO 2013/024412 A3, publ. February 21, 2013

8. GB Patent No. 644210, publ. 10/04/1950

-

Claims (14)

CLAIM 1. Multilayer flexible packaging material for the manufacture of bulk wrappers for spherical or ellipsoidal sweets, made in the form of a laminate and containing at least two inextricably linked - inner (3, 13) and outer (4, 14) in relation to the bulk wrapper layer, each of which is made in the form of a film selected from the group including at least a polyethylene terephthalate film, a polypropylene film, including a biaxially oriented polypropylene film and a non-oriented polypropylene film, a polyethylene film, including an oriented polyethylene film, in particular a macromolecule-oriented polyethylene film in the machine direction of processing, and an image (6, 21) of individual wrappers applied to one of the indicated films, moreover, the boundaries of the areas of a plurality of individual wrappers (2, 11, 12) on the material are determined by photo marks (7), while in the area of \u200b\u200beach individual wrapper ( 2, 11, 12), in the outer layer (4, 14) a perforation (8, 15, 16) is made, which defines the boundary (9, 17) of the rupture of the bulk wrap, located in the plane (10, 18) of the section of the maximum size of the bulk wrap . 2. The material according to claim 1, characterized in that it is made in the form of a web (1) with the possibility of placing on it at least two regions of individual wrappers (2, 11, 12) in the longitudinal direction and at least two regions of individual wrappers ( 2, 11, 12) in the transverse direction. 3. The material according to claim 1, characterized in that it is made in the form of a strip with the possibility of placing on it at least two regions of individual wrappers (2, 11, 12) in the longitudinal direction and one region of a separate wrapper (2, 11, 12) in the transverse direction. 4. The material according to claim 1, characterized in that the area of a separate wrapper (2, 11, 12) has a rectangular shape, while the perforation is made in the form of a line selected from the group including at least a longitudinally oriented straight line, a transversely oriented straight line (8, 15) and circle (16). 5. Material according to claim 1, characterized in that the boundary of the gap (9) is made in the form of a line (9). 6. Material according to claim 1, characterized in that the boundary of the gap (17) is made in the form of a strip. 7. Material according to claim 1, characterized in that the image (6, 21) of the individual wrappers (2, 11, 12) contains alphanumeric and figurative elements and is multicolored. 8. A method for the production of a multilayer flexible packaging material for the manufacture of volumetric wrappers for sweets of a spherical or ellipsoidal shape according to any one of claims 1-7, including applying photo marks (7) and images (6, 21) of individual wrappers (2, 11, 12) on a layer of one film with the formation of areas of individual wrappers (2, 11, 12), lamination of films and perforation (8, 15, 16) in the areas of individual wrappers (2, 11, 16) in the outer layer (4, 14 ) film in the form of a line of a given shape, which defines a continuous boundary (9, 17) of the rupture of the bulk wrapper, located in the plane (10, 18) of the section of the maximum size of the bulk wrapper. 9. The method according to claim 8, characterized in that the lamination of the films is performed by a method selected from the group including at least standard solventless lamination over the entire area and standard solventless lamination in combination with selective solvent lamination of certain areas. 10. The method according to claim 8, characterized in that the perforation is performed in the form of a line selected from the group including at least a longitudinally oriented straight line, a transversely oriented straight line (8, 15) and a circle (16). 11. Method according to claim 8, characterized in that the perforation (8, 15, 16) is performed by a method selected from the group consisting of laser incision and mechanical incision. 12. The method according to claim 8, characterized in that the material is additionally cut into strips with placement on each strip of at least two regions of individual wrappers (2, 11, 12) in the longitudinal direction and one region of a separate wrapper (2, 11, 12) in the transverse direction using photo marks (7). 13. The method according to claim 8, characterized in that the material is additionally cut into separate wrappers using photo marks (7). 14. A method according to any one of claims 8 to 13, characterized in that additionally, at least in part of the areas of the individual wrappers (2, 11, 12) in the perforation zone (15), a tongue (20), preferably a tongue with a valve, is made. -