GR1009083B - Foodstuff container with bottom having triangular liquid-absorbing cells - Google Patents

Abstract

Novelty: a plastic food container having its bottom composed of liquid-absorbing cells is disclosed. Technical features: the bottom 2 is provided with triangular cells 4 composed of acute two-base angles, the peripheral walls 1 and the rim 3; the whole construction is made of terephthalic polypropylene. Embodiment: the invention finds application in the fresh foodstuff packaging domain. Due to the capillary and surface tension effect, food liquids are retained to a maximum possible extent inside the cells 4 located at the bottom of the packaging.

Description

DESCRIPTION

"PERIEKIA WITH TRIANGULAR CELL BOTTOMS"

THE FIELD OF TECHNOLOGY

The invention refers to the technical field of containers for the packaging, storage and transport of food and specifically to containers and packaging for products that require the drainage or absorption of their liquids.

THE HISTORY OF THE INVENTION

The triangular cell bottom container disclosed in the present invention has not been disclosed in the prior art.

To date, the known food containers on the market, which are used in particular for the packaging and sale of meat, poultry, fish and related products, usually consist of a tray, inside which the product is placed and which is covered with a transparent, external, plastic casing that encloses him. Of course, variations are also available, such as trays that include absorbent material, usually in the form of a substrate, between the product and the tray, in order to retain liquids. These substrates are usually produced from absorbent paper pulp, while on the outside they have a coating with flexible polyethylene films, so that the pieces of paper pulp that come into contact with the food do not stick to it. Such a product is presented, for example, in US4275811, with the aim of absorbing liquids, extending the life of the food, avoiding possible contamination from the prolonged stay of the product in liquids and of course for its aesthetically better presentation to the consumer. In fact, perforations are often made in the substrates, so that the liquids of the meat enter the paper pulp and do not remain on the surface.

Other variations may include creating trays with the absorbent surface incorporated, such as the tray shown in US5709897, or focus on improving the absorbent surfaces, as is the case with the invention described in WO2004099009. Furthermore, there are trays such as the one presented in W02007008874, which in addition to the respective absorbent substrate also have a rack on which the food is placed, with the aim of raising it in relation to the bottom of the tray, so that it does not come into direct contact with the liquids.

All of the above inventions, as well as others available on the market, while offering solutions to food storage, packaging and transportation, have inherent drawbacks that make them impractical and preferred options. The major disadvantage of simple trays, with or without an absorbent substrate, is that the meat remains in contact with the substrate or base of the tray and consequently with its liquids. In addition to the issue of hygiene that arises, there is also an issue of aesthetics, as the consumer, upon unpacking the food, receives a product completely soaked and full of blood.

A further disadvantage of trays with absorbent substrates is the increased cost, which is inevitably passed on to the final consumer, due to the need to supply the specific paper laminated substrate. In fact, given that the paper substrate is often welded to the bottom of the container, further issues also arise, as the placement and welding require additional costs, either for the materials, or for the necessary work, or even in terms of energy consumption.

An additional disadvantage that must be pointed out, especially in the modern era, when environmental consciousness is particularly high, lies in the difficult recycling of said discs. Given that the substrate is made up of different materials, such as pulp and polyethylene films, bonded together, but also based on the fact that often the substrate itself is bonded to the bottom of the container, the need for separation arises before it is possible to recycling of materials. These welds are difficult to separate from a technical point of view, while at the same time they are also particularly costly. The result of the above is that said desoldering is considered unprofitable, making it impossible to recycle the materials and, as a rule, leading to their landfilling.

It is thus an object of the present invention to advantageously address the aforementioned disadvantages and shortcomings of the prior art by proposing a triangular cell bottom container.

A further object of the present invention is to provide the proposed container with a triangular cell bottom, which is manufactured from the same material that makes up the container, polyethylene terephthalate, better known as PET. PET is a fully recyclable material, which does not contain toxic substances, being completely safe for use in food packaging. Furthermore, it has high mechanical strength with a correspondingly low weight, while it has low permeability to oxygen, carbon dioxide and water, keeping the packaged products in excellent condition for a long time. Finally, the complete transparency of the material should not be ignored, resulting in clarity and excellent visual contact with the packaged products.

It is a further object of the present invention to provide a container with a bottom of triangular cells, which retains the liquids inside the cells, thanks to the capillary effect. A further object of the invention in order to make useful the container with a triangular cell bottom of the said invention, is the creation of triangular cells with acute dihedral angles, which can trap liquids even better, due to the surface tension of the liquids which increases in acute recesses.

A further object of the invention is the presentation of a container with a bottom of triangular cells, which exploits the shape of the cells by covering the maximum percentage of the area of the bottom, due to the nesting of the triangles between them.

Another object of the invention is the presentation of a container with a bottom of triangular cells, which surpasses in its ability to retain liquids within the cells any container with or without a substrate, which is currently used on the market.

An advantage of the present invention is also the construction of a container with a bottom of triangular cells, which presents a reduced cost of production, due to the avoidance of the supply of the paper substrate, while at the same time the cost is further reduced by the avoidance of placing and welding the substrate to the bottom of the container.

Another advantage of this invention is its easy recycling, as it is made exclusively from one material, PET, which is fully recyclable.

An advantage is also the presented image of the packaged product to each consumer, given that the liquids are separated to a large percentage or even completely from the product, composed of the triangular cells, without the use of blood-soaked substrates.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawings, in which it is illustrated in an illustrative, non-limiting manner.

Figure 1 (a) shows in a perspective sketch an indicative implementation of the container with a triangular cell bottom while Figure 1 (b) shows a detail of the bottom and the formed triangular cells.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawings we will describe exemplary applications of the triangular cell bottom container so that its features and advantages may be more fully understood.

The triangular cell bottom container of the invention, as illustrated in Fig. 1, consists of perimeter walls (1) and bottom (2) made of polyethylene terephthalate. This particular material, better known as PET, is a fully recyclable material, suitable for use in food applications, as it does not show material migration in packaged food. It is completely transparent, with high mechanical strength and is easily formable, so that packages of different shapes and sizes can be produced. It becomes obvious that other suitable plastics can potentially be used, such as polypropylene, polystyrene, polylactic acid, or opaque colored plastics in a variety of colors, suitable for use in food applications. The container has a retaining lip (3), which extends along the entire length of the walls (1) and which, among other things, acts as a lip on which the respective plastic cover of the package sticks.

The bottom (2) consists of triangular cells (4) along its entire length and width, which have an indicative depth of 2mm, without this being limiting, for the retention of liquids. Triangular cells (4) arise from sides (5), Fig. 1 (b), which form acute dihedral angles. The creation of triangular cells (4) contributes to the retention of liquids thanks to the capillary effect. As is known, when liquids come into contact with solid bodies, attractive forces develop, both between the molecules of the liquid and between the molecules of the liquid and the solid. Because the value of the two forces is different, the fluids are assembled within the cells in an efficient manner. Retention is further enhanced by surface tension. Surface tension occurs in liquids, mainly due to the fact that the molecules on the surface of a liquid tend to accept intermolecular forces only on one side, resulting in a constitutive force that tends to move them inside the liquid. As a result of the above, the molecules that are on the surface have more energy than the molecules that are inside the cell and further from the surface. Therefore there is conserved surface energy and since any system tends to reduce its energy, the liquid tends to reduce its surface area. This is how macroscopic forces appear, which tend to cause the surface to contract and the phenomenon of surface tension appears. The phenomenon is further intensified by the presence of sharp indentations, such as those present in the triangular cells (4) of the invention. The triangular shape of the cells contributes to the almost complete coverage of the bottom (2) of the container, since in the space between two consecutive triangles, another triangle can be placed in reverse. The nesting of the triangles allows the utilization of a maximum percentage of the bottom area, as a result of which a significant amount of liquid is retained, which can amount to 0.2 gr/cm. This means that in a medium-sized food packaging container, the total amount of retained liquid can reach 40 gr of liquid in the triangular cells (4), a value much greater than that of pulp substrates.

At this point it should be noted that the description of the invention was carried out with reference to an indicative application example, to which it is not limited. Therefore, any change or modification in anything related to the shape, dimensions, construction materials used, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the purposes and goals of the present invention.

Claims (5)

1. A container with a bottom of triangular cells, made of plastic material and consisting of perimeter walls (1) with a retaining lip (3) and a bottom (2), on the surface of which there are triangular cells (4), formed by sides (5) which they create dihedral acute angles, characterized by the fact that the triangular cells (4) retain liquids inside them, due to the capillary effect and surface tension that increases in acute recesses. 2. A container with a triangular cell bottom, according to claim 1, characterized in that it is made of polyethylene terephthalate. 3. Container with a triangular cell bottom, according to claim 1, characterized in that it is made of polypropylene. 4. A container with a triangular cell bottom, according to claim 1, characterized in that it is made of polylactic acid. 5. A container with a triangular cell bottom, according to claim 1, characterized in that it is made of polystyrene.