RU2503599C2 - Folding container-dispenser for increasing of shelf life of product - Google Patents

Abstract

FIELD: packaging industry.

SUBSTANCE: useful model relates to folding packages for products of not solid consistency. A distinctive feature of the claimed solution is the lateral surface of the triangular sections, on which inner surface the segment lines of intermediate folds are applied according to formation of a plurality of triangular segment faces in the process of folding.

EFFECT: above mentioned enables to improve the efficiency of folding the package for the purpose of virtually complete extraction of the contents.

12 cl, 13 dwg

Description

The invention relates to the storage, transportation and use of folding packaging for products of non-solid consistency (liquid, semi-liquid, viscous, jelly-like, pasty, etc.) of both food and non-food production.

Currently, for storage and transportation of food products of non-solid consistency, Tetra Pak (Tetra Pak) multilayer cardboard packaging, Danone plastic packaging (Danone) and Heinz glass packaging (Heinz) are most widely used. Such packages are characterized by good consumer properties in terms of stiffness, tightness and safety of the product, however, they have a drawback that is a direct consequence of the above positive qualities, namely the absence or low creasing of the walls, which does not allow for simple folding of the package for the complete extraction of contents, especially in the case of the use of viscous (pasty) products, such as sour cream, yogurt, ketchup, mayonnaise, etc., contributes to their loss.

Partially, the folding problem is solved in the design of folding packaging according to the patent of the Russian Federation No. 69038 for a utility model. The body of the known packaging is made in the form of a direct prism, and the side faces of the body are equipped with horizontal lines of inflection in the form of scoring parallel to the base, and inclined lines of inflection in the form of scoring at an angle to the horizontal lines, while the angle between the inclined lines at the point of intersection with the horizontal lines equal to 90 °. The known packaging solves the problem of its force crushing in empty form for disposal, however, this design does not allow smoothly and without great effort to change the internal volume of the container with any compression, because the folding process leads to high stresses and uncontrolled deformation of the edges and faces, leading essentially to their crushing and, as a result, uncontrolled splashing of the contents. With that said, mathematically, such a package (container) can be called bendable (folding) only if its spatial shape under load changes so that all its faces do not change their dimensions during folding, and bending (folding) is carried out mainly due to changes in dihedral angles between the faces, however, this principle is not implemented in the presented and other well-known schemes for folding packages. Another disadvantage of the known designs is the lack of self-fixation in any of the folding phases, which leads either to involuntary crushing of the contents due to residual elastic deformation of the package or to suction of air and dangerous microflora, thereby reducing the shelf life of the product.

Given these shortcomings of the existing designs of folding packaging (containers), the authors of the claimed invention set the task to create a folding packaging (container), the design of which meets increasing consumer requirements in terms of economy of use and improving the quality of storage of product packaged in packaging. The technical result achieved in solving the problem is to increase the shelf life of the product with the packaging opened, increase the efficiency of folding the package (container) for the purpose of almost completely extracting the contents, and also to simplify the folding process that allows you to fold the container with one hand with full control dosage of the product, ensuring self-fixation of the packaging in any phase of folding and, as a result, eliminating the possibility of unintentional splashing of contents or a hazardous air suction microflora.

To achieve the result, a method for increasing the shelf life of the product is proposed, which includes using a folding dispensing container for such storage, in which at least a part of the side surface is segmented, while the intermediate positions of the container are fixed in positions as the dosed extraction of such product is controlled. corresponding to a decrease in volume after each extraction.

To achieve the set result, it is also proposed in a folding dispenser container containing a bottom, an upper part made with the possibility of emptying the contents of the container, and a side surface with the main fold lines applied to it, the main fold lines to form at least one triangular section , on the inner surface of which segment lines of intermediate folds are applied from the conditions of formation in the process of folding of a plurality of triangular segment faces.

Preferred, but not required embodiments of the dispensing container involve applying segmented lines of intermediate folds concentrically and / or in parallel, with constant and / or variable pitch, in the form of a mesh, at least curved, with kinks or bifurcations at the ends. Similarly, the basic fold lines can also be drawn, at least in curves or with kinks. In addition, the container's variants of execution assume its execution in the form of a tetrahedron, two adjacent faces of which are separated by the main fold lines in half through opposite vertices and a common bending side rib, with many concentric segmented lines of intermediate bends plotted on the bending side of the bending side rib onto adjacent faces, converging at the respective ends of the bending side rib with the formation of segmented faces; or execution in the form of a tetrahedron, two adjacent faces of which through opposite vertices and a common bending lateral rib are divided in half by the main fold lines, while from the side of the bending of the bending lateral rib many adjacent concentric segmented lines of intermediate bends are drawn at the far end of the main fold line with the formation of segment faces, and from the side of the bend of the bending side rib to the adjacent faces on this side, many parallel segment lines are applied th intermediate folds parallel bisectors formed by the bend of the ends of the lateral edges to form a segmental faces; or execution in the form of a prism or a truncated pyramid, the side faces of which are separated by horizontal main fold lines, while from the side of the bend of each bend side rib onto adjacent faces there are a lot of concentric segment lines of intermediate bends that converge at the corresponding ends of the bend side rib with the formation of segment faces; or in the form of a prism or a truncated pyramid, the side faces of which are separated by horizontal main fold lines, while on the side of the deflection of the bending side ribs on the adjacent faces, a lot of horizontal parallel segment lines of intermediate folds are applied, and from the side of the bending of the side rib on the faces adjacent to it from this side a plurality of oblique parallel segment lines of intermediate folds are applied to form segment faces. In the case of a container made of cardboard or a similar material, the main fold lines and / or segment lines of the intermediate folds are made in the form of scoring.

The following terms used to characterize the claimed solution mean:

lateral surface - the surface on all sides of the container;

main fold lines - all fold lines of the container except segment lines of the intermediate fold, including, if the container is parallelepiped, prism or tetrahedron, their side ribs;

face - a surface limited by the basic bend lines;

segment lines of intermediate folds - lines dividing a section bounded by main fold lines into segments;

segmentation - division of a face by segmented lines of intermediate folds into segments;

segment - a facet element obtained by its segmentation, in which at least one side is limited by a segment line of the intermediate fold;

concentric segment lines of the intermediate folds — segment lines extending from one center, for example, the end of a side rib;

parallel segment lines of intermediate folds - segment lines parallel to each other;

self-locking - locking in different phases of folding;

deflection and deflection of the bending side rib - occurs in the middle of the side rib at the inflection point, intersected by the main fold lines;

dihedral angle - the angle between two faces emanating from one main fold line;

block - a set of elements sufficient for folding the container, the blocks can be superstructured and mated relative to each other, allowing to realize the function of folding the container of almost any shape and overall dimensions;

folding of the container - a process in which the internal volume of the container tends to zero;

the formation of new faces in the folding process - the appearance on the side surface under the influence of an external load of faces and their edges along various bending lines not shown before compression.

The claimed design is illustrated by a schematic representation of specific embodiments of the container in assembled and folded forms (figa, 1b, 1c and 3) and the scans of such options (Fig.2 and 4, respectively), as well as examples of scans of other private options for such an embodiment in Fig. .5-13.

Anticipating the description, we note that the claimed solution provides a large number of applicable embodiments, taking into account a wide variety of specific conditions for the use of the container for filling a particular product. The specific embodiments discussed below are only an illustration of the specific options for creating and using the claimed container and are not limited to the scope of this application.

The possibility of implementing the claimed method and achieving the set result, we consider the example of a container, for example, for dairy products, made in the form of a regular prism with a base in the form of a square (figure 1). For ease of understanding, a container is displayed whose side surface contains one complete block, i.e. in fact, the height of the container is equal to the width of such a block, and the container itself is made in the form of a cube. This limitation when describing the claimed design should be considered solely conditional, since from further explanations it will be obvious that the principle of use of the container does not depend on its height. The container contains the main fold line 1, dividing the corresponding part of the side (face) horizontally into two parts. In the presented image, such a line divides the side into two equal parts based on the implementation of the container in the form of a cube, however, it is obvious that the ratio obtained by dividing the parts depends on the geometric shape of the container. For example, in the case of a truncated pyramid, it is obvious that the ratio obtained by dividing the parts will be unequal.

On two opposite lateral sides (faces) of the container, through the diagonal main lines of the fold 2 and 3, as well as sections of the main line 1 and the corresponding side ribs, triangular sections are formed, on the inner surface of which a lot of segment lines of intermediate folds 2 'and 3' are applied, in the displayed variant, in the form of concentric fold lines, forming during the folding process a lot of triangular segment faces. In a mathematically ideal embodiment, the number of such triangular segment faces tends to infinity, while the practical embodiment allows to limit the number of triangular segments based on the thickness and physical properties of the container material. The effectiveness of the folding process of the package in the claimed design is due to the fact that the equality of the segments NK = OC (figure 2) before folding the cube and in any phase of folding is preserved:

NK = OC = CC '+ C'O, where point C' moves along the segment of the OS and is the point of its fracture.

Thus, the triangular segments, as they are folded, essentially “cover” the approaching side surfaces with horizontal inflection lines AB and CD. Note that the implemented folding option in the position of each subsequent folded triangular segment essentially ensures the container self-fixes in this position, which eliminates arbitrary “springing” up-down movements and promotes the possibility of folding the container when pressing on the sides with fingers of only one hand, and also provides controlled compression of the container and, as a result, accurate dosing of the product without the danger of it splashing out or reverse suction of air from a dangerous microphone laura.

The embodiment shown in FIGS. 3 and 4 is characterized by the execution of the intermediate fold segment lines parallel, forming a plurality of triangular segments in the form of right-angled triangles. To increase the optimization of the folding process, the presented variant is characterized by the presence on adjacent faces, free of triangular segments, of an additional set of horizontal segment lines of intermediate folds 4, conjugated on the corresponding side edges with a corresponding set of parallel lines of intermediate fold. The presence of an additional set of parallel segmented lines of the intermediate fold 4 increases the smoothness of folding and fixing in any phase of folding, and not just in segmented positions. In addition, this smoothness of the side surface can be used for design purposes.

Obviously, the execution of the side surface of the container in the form of several complete blocks, i.e. in the case where the actual height of the container is a multiple of the number of blocks, for example, when the container is parallelepiped-shaped, it does not prevent the container from folding completely, since the above-described execution of each of the blocks allows them to be folded sequentially and, finally, to completely fold the entire container along the block interface lines .

Summing up, we say that when using various materials and wall thicknesses of the container, the claimed device allows eliminating harmful stresses and strains in them during folding by performing optimal segmentation of faces with a multitude of intermediate bending segment lines. The geometric shape of a non-loaded container can be very different: rectangular, oblique, pyramidal, with a different ratio of lengths, widths and heights, and also have a rounded side surface and / or smooth transitions between faces, etc.

Claims (12)

1. A folding dispenser container comprising a bottom, an upper part capable of emptying the contents of the container, and a side surface with main fold lines applied thereon, characterized in that the main fold lines form at least one triangular section onto the inner the surface of which a plurality of segmented lines of intermediate folds is applied from the condition for the formation of a plurality of triangular segmented faces during folding, the aforementioned set of segmented lines of intermediate folds opryazheno with a plurality of parallel lines of intermediate bends. 2. The container according to claim 1, characterized in that the segment lines of the intermediate folds are applied concentrically and / or in parallel. 3. The container according to claim 1, characterized in that the segment lines of the intermediate folds are applied with a constant and / or variable pitch. 4. The container according to claim 1, characterized in that the segment lines of the intermediate folds are applied in the form of a grid. 5. The container according to claim 1, characterized in that the segment lines of the intermediate folds are applied at least by curves, with kinks or bifurcations at the ends. 6. The container according to claim 1, characterized in that the main fold lines are plotted at least in curves or with kinks. 7. The container according to claim 2, characterized in that it is made in the form of a prism, containing a bottom, an upper part made with the possibility of emptying the contents of the container, and a side surface with the main fold lines deposited on it, forming at least one triangular a section on the inner surface of which a plurality of concentric and / or parallel segment lines of intermediate folds are applied from the condition of formation of a plurality of triangular segment faces during folding, while on adjacent faces of the prism, dnye from triangular segments additionally applied a plurality of segment lines of folds intermediate conjugate at the respective side edges of the said respective concentric with and / or parallel to the segment lines of intermediate bends. 8. The container according to claim 2, characterized in that it is made in the form of a tetrahedron, two adjacent faces of which are separated by the main fold lines in half through opposite vertices and a common bending side rib, with a lot of concentric applied to the bending side of the bending side rib on adjacent faces segment lines of intermediate folds converging at the respective ends of the bending side rib to form segment faces. 9. The container according to claim 2, characterized in that it is made in the form of a tetrahedron, two adjacent faces of which are separated by the main fold lines in half through opposite vertices and a common bending side rib, with a lot of concentric from the side of the bending of the bending side rib to adjacent faces segment lines of intermediate folds converging at the far end of the main fold line with the formation of segment faces, and from the side of the bend of the bending side rib to the sides adjacent to it from this side ETS parallel line segments intermediate folds parallel bisectors formed by the bend of the ends of the lateral edges to form the segmental faces. 10. The container according to claim 2, characterized in that it is made in the form of a prism or a truncated pyramid, the side faces of which are separated by horizontal main fold lines, while from the side of the bend of each bending side rib on adjacent faces there are a lot of concentric segment lines of intermediate folds, converging at the respective ends of the bending side rib with the formation of segmented faces. 11. The container according to claim 2, characterized in that it is made in the form of a prism or a truncated pyramid, the side faces of which are separated by horizontal main fold lines, while from the side of the deflection of the bending side ribs on adjacent faces there are many horizontal parallel segmented lines of intermediate folds, and from the side of the curvature of the side rib, on the faces adjacent to it from this side, a plurality of inclined parallel segment lines of intermediate folds are applied with the formation of segment faces. 12. The container according to any one of claims 1 to 11, characterized in that it is made of cardboard or a similar material, while the main fold lines and / or segment lines of the intermediate folds are made in the form of creases.

Images