CONTAINER

Abstract

The invention relates to the field of manufacturing packaging primarily for food products and products that contain or exude grease and moisture. A container consists of a lid and a receptacle that widens towards the top and is made of a paper and cellulose construction material, said receptacle having a rectangular upper flange formed during the production thereof for the purpose of retaining the lid, said flange being continuous about the entire perimeter of the receptacle and being fixed at an angle to the horizontal by means of upper flaps of the lateral walls being overlapped and fastened to one another in adjoining corner parts of the flange. The technical result consists in increasing the rigidity of the entire structure, as well as obviating the need to manually bend the flaps during assembly and to set the necessary angle of incline to the horizontal or to monitor the correct positioning of the upper flaps when reclosing the lid.

Claims

1. A container consisting of the lid and the receptacle that widens towards the top and is made of a paper and cellulose forming material, said receptacle having a rectangular upper flange formed during the production thereof for the purpose of retaining the lid, said flange being continuous about the entire perimeter of the receptacle and being fixed at an angle to the horizontal by means of upper flaps of the lateral walls being overlapped and fastened to one another in adjoining corner parts of the flange.

2. Container of claim 1, characterized in that the container is made of paper and cellulose forming material with a protective coating.

3. Container of claim 2, characterized in that an internal partition is provided inside the receptacle, made of the same material as the receptacle.

4. Container of claim 2, characterized in that inside the container there are internal partitions in the amount of more than one, made of the same material as the container.

Description

DESCRIPTION OF THE MANUFACTURING METHOD

[0014] The manufacturing process of the container base consists of several stages.

[0015] At the first stage, printing and embossing can be applied to paper and cellulose material in order to obtain the necessary artistic finish of the formed container and apply various markings. A protective coating is also applied to the paper and cellulose material to grease-proof and ensure hydrophobic properties of the material surface. The protective layer can be applied both before and after printing and embossing.

[0016] At the second stage, a blank is cut-out. Also, simultaneously with the die-cutting, the necessary creasing channels are formed, perforation lines and grooving channels can also be formed.

[0017] At the third stage, the base of the container is formed. Lateral triangular flaps are formed, fastened by thermal soldering or with an adhesive compound. The upper flaps are folded out and fastened to each other in the corner parts of the container base, forming the upper flange of the receptacle continuous along the rectangular perimeter and fixed at an angle to the horizontal plane.

[0018] Also, for the purposes of dividing the internal volume of the container into sections, it is necessary to design the layout of the blank so that, when cutting, an internal partition is formed. Further on, at the stage of forming the base of the container, the internal partition is formed, as a rule, by thermal soldering with a punch of a special shape and a matrix with a preset shape of the partition.

[0019] It should be noted that the mutually fastened upper flaps forming a continuous rectangular flange should be designed so as to be elongated towards the mating upper flap of the adjacent side face relative to the size of the faces on which they are located. This is done to enable reliable fastening of the upper flaps with mutual overlap, with thermal soldering or with an adhesive composition. This method of fastening results in an upper flange that has one layer of shape-giving material over the bigger length of the container side, and a double layer at the place of fastening and overlap of adjacent upper flaps forming such continuous flange.

[0020] It should be noted that for greater reliability of the fastening and even greater rigidity of the rectangular flange, the number of layers of the forming material may be more than one or two, if an additional fold of the upper flap is provided when forming a continuous flange.

[0021] It should be noted that the lateral triangular flaps can be attached both from the inside and from the outside of the container.

[0022] The lid is produced independent of the previous stages. The lid can be manufactured in various ways.

[0023] The main methods of the lid manufacturing may be [0024] in the case a polymer lid, the method of vacuum thermoforming or injection molding can be used; [0025] in the case of a lid made of paper and cellulose material, same as for the manufacture of the base, the method of die-cutting and further assembly using an adhesive composition or thermal molding may be used. In this case, protective coatings can be applied to the paper and cellulose material of the lid, as well as to the base material of the container, to give the product the necessary grease-proof and hydrophobic properties.

[0026] Then, during the use of the container and the lid, the lid, which has fixation locks on the upper flange of the receptacle, easily mates with the receptacle on the upper flange, which is initially rigidly fixed during the manufacture of the receptacle, fastened in the corner mating parts, having a fixed angle of inclination to the horizontal plane preset at manufacture, which is comparable to the angle of inclination of the lower mating part of the lid. At the same time, considering that the formation of the upper flange and its rigid fixation in a strictly specified position is carried out during the production of the container, the lid fitting is performed without the preparatory operations on the receptacle, without checking the correct position of the upper flaps of the container and can be performed by an unprepared inexperienced consumer. It should be noted that the rectangular upper flange of the container, by avoiding the unnecessary mobility of individual flaps, which are glued in its corner parts, fixed in one preset position, which provides additional rigidity to the entire structure due to corner fastening at an angle to the horizontal plane, allows opening and re-closing the lid repeatedly.

[0027] Thus, the technical result is achieved due to the initial formation of the upper flange of the receptacle at an angle to the horizontal plane, due to the mutual fastening of the fold-out upper flaps of the receptacle at the 90 degree angle in the adjoining corner parts, fixing the correct position of the flange, so that the flange is continuous along the perimeter, and is formed with a preset angle of inclination to the horizontal plane along the entire perimeter of the container immediately during its production, which, in addition to ease of operation, increases the speed of both initial closing and subsequent re-closing, significantly increases the rigidity of the entire structure, especially with the lid removed. The resulting positive technical, mechanical and operational characteristics significantly impact the economic performance of the application during wide use in food product turnover, by reducing the time of container assembly, as well as ease of operation, both for manufacturers and distributors of food products, and for the end user.

[0028] An additional feature is that the protective layer can be made of a compound based on biodegradable polymer materials.

[0029] The proposed invention is explained by drawings, where: [0030] 1container base, or a receptacle; [0031] 2lid; [0032] 3upper flange; [0033] 4corner parts of the flange; [0034] 5triangular flaps; [0035] 6upper flaps; [0036] 7internal partition.

[0037] FIG. 1 shows a general view of a receptacle having a rectangular base, widening towards the upper part, without a fitted lid, with an upper flange 3 formed immediately during manufacture, continuous in its corner parts 4, having an angle to the horizontal plane preset immediately during its manufacture, which is unable to change due to the absence of mobility, due to the overlapping of the individual upper flaps 6.

[0038] Also shown, are lateral triangular flaps attached during the production of the base of the container to the inner compartment of the container from the side of the short side faces.

[0039] FIG. 2 shows the sectional view of the side walls of the container in the middle of the side wall and on the corner part of the container. The essence of the invention is shown, which consists in the angle T of inclination of the upper flange relative to the horizontal plane, which is preset during the manufacture of the base of the container, in the range from 20 to 90 degrees, in a single value along the entire perimeter of the flange, and fastening the flange in its corner parts by overlapping and fastening the individual upper flaps together.

[0040] Thus, immediately during the manufacture of the base of the container, a rigid upper flange without gaps along the receptacle perimeter, with a preset angle of inclination to the horizontal plane, if formed, which does not have the mobility of individual upper flaps unnecessary for effective and fast fastening of the lid.

[0041] FIG. 3 shows two versions of a transparent flat lid that is fitted to the receptacle and locks located at the bottom of the lid and positioned so that when the lid is tightly closed, they are fixed under the flange of the receptacle. The lid is made of a transparent polymer material and is fitted to the receptacle without the need to bend the upper flaps or check their position before fitting, since the upper flaps are initially fastened together during the manufacture of the receptacle, forming an upper flange with a preset angle to the horizontal plane corresponding to the geometry of the lower part of the lid.

[0042] FIG. 4 also shows two versions of a tall transparent lid, connected to the receptacle and locks located at the lower part of the lid and positioned so that when the lid is tightly closed, they are fixed under the flange of the receptacle. The lid is made of a transparent polymer material and fits without the need to bend the upper flaps of the receptacle or check their position before fitting, since the upper flaps are initially fastened together during the manufacture of the base of the container, forming an upper flange with a preset angle to the horizontal plane corresponding to the geometry of the lower part of the lid.

[0043] FIG. 5 shows versions of the geometry of the elements of the upper flaps of the base of the container that ensure overlap and their mutual fastening at an angle to the horizontal plane to form a continuous upper flange, also formed at an angle to the horizontal plane, in the range from 20 to 90 degrees.

[0044] FIG. 6 shows a version of the receptacle with an inner partition 7. The presence of a partition does not affect the final design and the function of the lid in any way; therefore, the lid is not shown in FIG. 6 for clear illustration of the partition design.

[0045] A groove provided at the bottom of the receptacle, corresponding to the geometry of the inner partition of the container, is necessary for the convenience of transportation of the bottom parts of the container when placing them in bundles, one in one.

[0046] The partition can be of different height, with different geometry and attachment points, placed in different parts of the container and more than one partition can be present.

[0047] FIG. 7 shows an example of a blank for assembling, connecting and fastening the flange elements to each other in the case of manufacturing the inner partition of the container.

[0048] FIG. 8 also shows an example of the blank in its corner part to ensure the assembly and fastening of the top flaps to each other in the corner parts of the container at an angle to the horizontal surface.

[0049] It should be noted that this invention, which is disclosed with a description of the specific attached drawings, is not limited to these embodiments described and shown solely for example, and that changes and modifications are possible, which are obvious to a specialist in the relevant field and do not exceed the scope of the invention as disclosed in the attached Claims.