BE1026851B1 - A CLOSED FOOD PACKAGING DISH - Google Patents

Abstract

The bowl is intended for foods that secrete liquid and are sensitive to oxygen (14). It consists of a food compartment (8), a liquid compartment (9), a perforated partition (7) between the two compartments (8, 9) to support the food (14). The bowl is filled with a modified atmosphere that envelops the food (14), thanks to the holes (15) in the perforated partition (7). The dividing wall (7) closes off both compartments (8, 9) and the liquid compartment (9) is free from material that separates gas. Thanks to the invention, the modified atmosphere is not polluted. Separated liquid flows very slowly from one compartment to another.

Description

The invention relates to a food packaging steel. The food can be fresh or frozen meat, poultry, fish, fruits and vegetables.

It is already known that, in order to extend shelf life, perishable foods are packaged in a modified gas atmosphere, whereby the air is first drawn out of the shell before injecting the modified atmosphere and hermetically sealing the shell. This is especially important for foods that secrete liquid or are oxygen sensitive. Accordingly, there are trays that are divided into - a food compartment where the food enters a carrier, and - a liquid compartment where the separated liquid enters. The food carrier is preferably a partition that divides the tray into the two compartments and is perforated so that the modified atmosphere is diffused in both compartments and thus circulates around and envelopes the food. The gas mixture can come into direct contact with the bottom of the food. EP 2 540 634 proposes such a scale.

In the bowl in this prior art reference, the perforated partition is surrounded by a circular opening through which the liquid separated by food can flow into the liquid compartment. Therefore, it has often been proposed to cover the bottom of the liquid compartment with an absorbent layer (absorbent material), as suggested for example in US 6152295. But the absorbent material is full of air (or gas). This air is then released little by little and alters the modified atmosphere, which is thus contaminated with the adverse effect that the shelf life of the product is greatly reduced.

The invention of the present example aims to prevent such a drawback. Therefore, the invention relates to a closed packaging steel for food, in particular for food that separates liquid and is oxygen sensitive, consisting of e A food compartment, e A liquid compartment, e A perforated partition between the two compartments to support the food, e The bowl is filled with the modified atmosphere that envelops the food thanks to the openings in the perforated separation mitt - in view of the longer shelf life of the food.

Characteristic is that e The perforated food separation wall closes off both compartments, and e The liquid chamber is free from material that evolves gas. The liquid pocket of the bowl of this example may even be free of solid material. The scale of this example has two major advantages. The first advantage is that there is no absorbent in the fluid pocket and therefore the modified atmosphere will not be altered or contaminated by air. Moreover, since there is no absorbent, there is no risk that the absorbent layer and the dividing wall to support the food come into direct contact with each other. Therefore, there is no risk that 1) the absorbent layer does not draw liquid from the food product and ii) the modified atmosphere no longer circulates around the food product.

The second advantage lies in the fact that the separated liquid cannot flow around the perforated dividing wall, but only through the perforations. The flow process is very slow, moving either from the food compartment to the liquid compartment or, after the tray has been accidentally inverted, from the liquid compartment to the food compartment.

In the perfect embodiment of the invention, the perforated partition is a permeable film, most advantageously a moisture permeable film. The permeable film has a liquid connection between the two food and liquid pockets and may also have tiny perforations that are only used to circulate the gas and are too small to circulate the liquid.

The bottom of the fluid compartment may have a capillary honeycomb structure.

Ideally, in the tray in this example, the wall supporting the food is supported by a shelf on the inner wall of the tray and, even better, also on pillars that have a certain height from the bottom of the liquid compartment so that their free ends and the top plane of the shelf lie in one and the same plane parallel to the bottom of the fluid compartment. With the top surface of the shelf is meant the surface to support the partition wall.

The invention becomes clearer after reading the following description and referring to the accompanying drawing - Figure 1 is a perspective view of the top view of the tray forming part of the invention; Figure 2 is a simplified sectional drawing of the scale in Figure 1; Figure 3 is a plan view, on a larger scale, of a portion of the bottom of the tray liquid compartment in Figure 1, and Figure 4 is a simplified view of the perforated divider supporting the food as shown in Figure 1.

Referring here to figures 1, 2, the packaging tray in the present case is generally parallelepiped-shaped with an outer wall 1 and a bottom 2. In a plane that is generally parallel to the bottom 2, the inner wall 1 is extended by a rather thin top border 3, except for the four corners where it is slightly larger. A translucent plastic lid 4 is attached to the collar 3 for covering and sealing the tray.

The inner surface 5 of the side wall 1 is equipped with a shelf for supporting the partition wall to support the food 7, dividing the tray into a food compartment 8 and a liquid compartment 9 (figure 2).

The height of the partition 7 above the bottom 2 is small compared to the height of the lid 4 above the partition 7.

The perforated dividing wall to support the food 7 closes both compartments 8, 9.

The fluid compartment is free of absorbent material. In fact, the box is free from gas-evolving material; it can also be free of material that secretes air or oxygen.

Bottom 2 of the shell has a capillary structure 10, here a honeycomb structure as shown in figure 3, with, here, hexagonal niches 16.

Pillars 11 are provided on the bottom 2, which have a height so that their free ends 12 here lie in the same pocket as the upper annular surface 13 of the shelf 6 which forms a protruding portion for supporting partition 7.

In the present case, the perforated partition is a permeable film 7, preferably a moisture permeable film.

The scale described above will be used as follows.

The permeable film 7 was attached to the annular protruding portion 13 of the tray 6 and the foodstuffs 14 - here a piece of meat - placed on the film 7, the air is drawn from the tray and a modified atmosphere is introduced into the tray. before the food compartment of the tray 8 is closed by a plastic lid 4 and fixed on the top rim 3.

Due to the intervention, and in particular the openings in the film 7, the modified atmosphere is distributed in both compartments 8, 9 and can circulate around the piece of meat 14. The liquid chamber 9 is free of solid material, the modified atmosphere is not polluted.

The film 7 which closes both chambers 8, 9 when the piece of meat secretes liquid (blood) which can thus only flow through the openings of the film 7 makes the flow very slow and only a small amount of liquid can flow to the liquid compartment. When the dish is inverted, the liquid in the liquid compartment 9 can hardly return to the food compartment 8 8.

In the present case, the openings 15 of the film 7 are designed for the liquid circulation of the liquid. Some of the perforations could be tiny perforations used to circulate gas but too small for fluid circulation. In any case, the film 7 should be designed for the modified atmosphere in order to be able to envelop the food product 14 and contact the bottom of the food product.

Claims (9)

Conclusions 1. A closed packaging tray for food that exudes moisture and is oxygen sensitive to oxygen (14), consisting of a food compartment (8), e a liquid compartment (9), e a perforated partition wall (7) between the two compartments (8, 9) ) to support the food (14), e the tray - in order to extend the shelf life of food - is filled with a modified atmosphere that envelops the food (14) thanks to the perforations (15) of the perforated dividing wall ( 7), characterized in that e the perforated wall supporting the food (7) closes both compartments (8, 9), and e the liquid compartment (9) is free of gas-releasing material. A tray according to claim 1, wherein the fluid pocket (9) is free of solid material. A shell according to any one of claims 1 and 2, wherein the perforated partition is a transmissive film (7). A shell according to claim 3, wherein the transmissive film is a moisture permeable film (7). A tray according to any of claims 3 and 4, wherein the permeable film (7) has a fluid connection (15) between the two compartments (food compartment and fluid compartment). A shell according to claim 5, wherein the permeable film (7) has tiny holes that are only used to circulate the gas and are too small for liquid circulation. A tray according to claims 1 to 6, wherein the bottom (2) of the fluid pocket (9) has a capillary honeycomb structure (10). A tray according to any one of claims 1 to 7, wherein the food support partition (7) is supported by a tray (6) on the inner wall (5) of the tray. A tray according to claim 8, wherein the partition wall for supporting food (7) rests on pillars (11) which have a certain height from the bottom (2) of the liquid compartment (9) so that the free ends (12) and the top surface of the shelf (13) are in a common plane parallel to the bottom (2) of the fluid compartment (9).