CARDBOARD CONTAINER WITH INTEGRATED LID
A cardboard container has an integral lid and is obtained from a cardboard sheet duly die-cut in a single piece in which a central sector or bottom is defined, from whose edges two respective isoscelic inverted trapezoidal sectors emerge that determine the larger and smaller side walls of the container. Two of these walls are provided in correspondence to their lateral edges with tabs for gluing together the adjoining walls. From one of the side walls there emerges a sector that acts as a lid, with a configuration in accordance with the configuration of the bottom but with proportionally larger dimensions, which ends in opposition to its fold line in a tab for closing and stabilizing the lid.
The present invention relates to a cardboard container or box obtained from a single piece, specifically from a die-cut cardboard sheet, with such piece including sectors so as to form both the body of the box and a folding lid.
The object of the invention is to provide a cardboard container with a special configuration that allows it to be assembled in an industrialized and automated manner, enabling the containers to be stacked with their lid open, occupying minimal volumetric space.
The invention is applicable to multiple areas, as it is perfectly scalable, although its preferred area is the storage and transport of fruit and vegetable products, in order to replace the classic plastic packages, while not ruling out storage and transport of further types of products.
BACKGROUND OF THE INVENTIONIn the field of practical application of the invention, that of fruit and vegetable products, when transporting and marketing these kinds of products, transparent plastic packages obtained by moulding a single piece are used, which include a folding lid, as well as windows for aeration of the product contained within it.
Obviously, the use of this type of material is a problem from an environmental viewpoint, which can be perfectly remedied by the container of the invention.
In this sense, although there are already cardboard packages with a lid obtained from a single piece of die-cut cardboard, this type of package can be stacked one on top of the other with the lid closed, occupying a large volume of space.
However, there are no known cardboard packages with a folding lid structured such that they can be stacked with their lids open after the package has been assembled, with one partially inserted into the other, such that their volumetric occupation in the stack is minimal.
SUMMARY OF THE INVENTIONThe cardboard container with integrated lid herein disclosed solves, in a fully satisfactory manner, the above mentioned problems, based on a simple but effective solution.
For this, the container of the invention is obtained from a cardboard sheet, either simple or composite, duly die-cut in a single piece, in which die-cutting process a rectangular or quadrangular central sector is defined, from each edge of which an inverted isoscelic trapezoidal sector emerges that will determine the side walls of the package, with two such walls provided in correspondence to their side edges with two tabs for gluing and assembling the container , which then forms a kind of inverted truncated conical prism that, as will be seen later, will facilitate stacking operations by minimizing the use of space.
One of said side walls, preferably one with the larger side walls, extends upward into a closing lid that, in opposition to the edge that determines the folding zone of the lid, is capped off with a tab that closes by plugging into the inner edge of the larger opposite side wall, when the container is closed.
The main or determining sector of the lid, set up in the same way as the bottom, but larger, will present bevelled corners, in order to define aeration gaps to maximize the useful life of the products contained within the container, preferably fruit and vegetable products.
In this sense, it has also been envisaged that said determining sector of the cover includes a series of triangular windows, also determining ventilation/aeration holes for the same purpose as the aforementioned bevelled corners.
The special structure of the container means that it can be assembled mechanically through conventional machinery, gluing the tabs of the larger side walls to the inner edges of the smaller side walls, leaving the lid in the vertical position in the assembly. The resulting inverted truncated pyramid configuration of the container allows the containers to be stacked very easily, practically automatically, by self-centring by their own weight, leaving the containers partially inserted into each other, which optimizes the available space.
To complete the description that will soon be made, and in order to aid a better understanding of the characteristics of the invention according to an example of a preferred embodiment thereof, a set of drawings are provided that form an integral part of this description where, for purposes of illustration and in a non-limiting sense, the following is shown:
In view of the figures outlined, it can be seen how the cardboard container with an integrated lid of the invention is obtained from a cardboard sheet that, as mentioned previously, can be simple or composite, and can even include anti-humidity coatings or coatings of any other type common in the sector, a sheet duly die-cut in a single piece and in which a central sector or bottom (1) is defined, which, in the chosen examples, presents a rectangular configuration, tending towards the square in the variant shown in
One of the larger side walls (2) is capped off in opposition to its folding edge over the bottom (1) in a lid (5), in the rectangular embodiments, tending towards a square in the variant shown in
Said tab (7) will preferably have a horizontally elongated rectangular configuration.
The determining or main sector of the lid (5) will present bevels (8) at its corners, in order to define aeration gaps in the closure of the lid on the main body of the container, in order to maximize the useful life of the products contained within, for which said determining sector of the cover (5) will be perforated by various triangular windows (9), also determining ventilation/aeration holes with the same purpose as the aforementioned bevelled corners.
As has been previously mentioned, the trapezoidal configuration of the internal gluing tabs (4) is specially designed to be compatible with standard assembly machines and their glue injection system.
In this way, an economical, effective, easily stackable container is achieved with minimal volumetric occupation, and it is totally ecological.
Claims
1. A cardboard container with an integrated lid, wherein the container is formed from a cardboard sheet duly die-cut in a single piece in which a central sector or bottom, which is rectangular or quadrangular, is defined, wherein respective isoscelic inverted trapezoidal sectors emerge from edges of the central sector or bottom, wherein the isoscelic inverted trapezoidal sectors determine larger and smaller side walls of the container, which has two of these walls provided in correspondence to their lateral edges with tabs for gluing together the adjoining walls, and wherein, from one of said side walls, there emerges a sector that functions as a lid, with a configuration in accordance with the configuration of the bottom but with proportionally larger dimensions, which ends in opposition to its fold line in a tab for closing and stabilizing the lid.
2. The cardboard container with the integrated lid, according to claim 1, wherein the tabs emerge laterally from the larger side walls.
3. The cardboard container with the integrated lid, according to claim 1, wherein the lid emerges upwards from one of the larger side walls.
4. The cardboard container with the integrated lid, according to claim 1, wherein the sector that functions as the lid has bevels at its corners that, when closing the lid on the main body of the container, determine ventilation holes for products contained within it.
5. Cardboard The cardboard container with the integrated lid, according to claim 1, wherein the sector that functions as the lid has windows that determine ventilation holes of products contained within the container.
6. The cardboard container with the integrated lid, according to claim 5, wherein the windows are triangular in configuration.
7. The cardboard container with the integrated lid, according to claim 1, wherein the tab the lid has a horizontally elongated rectangular configuration.
8. The cardboard container with the integrated lid, according to claim 1, wherein the cardboard sheet from which the container is obtained is simple cardboard.
9. The cardboard container with the integrated lid, according to claim 1, wherein the cardboard sheet from which the container is obtained is made of composite cardboard.
10. The cardboard container with the integrated lid, according to claim 1, wherein the cardboard sheet from which the container is obtained includes a coating of anti-humidity material.
Type: Application
Filed: Oct 20, 2020
Publication Date: Apr 22, 2021
Inventors: Tiago Nuno Domingues (Leiria), Antonio Pires (Macainhas-Guarda)
Application Number: 17/075,277