FR2978958A1 - Isothermal bag, has set of walls, gel that is arranged such that gel circulates freely between walls, and zip-type opening and closing system, and flexible sheet comprising incompressible and impermeable material - Google Patents

Abstract

The bag (2) has a set of walls, a gel that is arranged such that the gel circulates freely between the walls, and a zip-type opening and closing system. A flexible sheet comprising incompressible and impermeable material is arranged in the bag with a set of upper ends. The upper ends are connected to each other such that perpendicular sides (9, 10) of the sheet are connected. Another flexible sheet is welded to the former flexible sheet. An independent claim is also included for a method for obtaining an isothermal bag.

Description

BACKGROUND OF THE INVENTION The present invention relates to the field of isothermal packaging. These packagings have the function of thermally isolating a cooling or cooling gel or eutectic and a temperature-sensitive or thermosensitive product, an external atmosphere, in order to benefit as long as possible from the ability of the gel to maintain, to the inside these packages, a temperature lower than that of the outside atmosphere, when the gel has been previously cooled or frozen, to make it suitable for cooling its environment. The present invention in this context relies on a bottom opening system to allow insertion of a refrigerant gel into a double wall of an isothermal bag.

In the field of isothermal packaging, isothermal packaging is dimensionally stable, that is to say rigid and incompressible, consisting of polystyrene blocks arranged in a carton or container or packaging. Said blocks are impervious to air, rigid and incompressible. They allow first to confine the indoor air to an isothermal packaging by their impermeability. They then make it possible to avoid exchanges of air with the outside by their rigidity and their incompressibility combined with those of the packing box, which make it possible to maintain the shape of the refrigerated volume inside the packaging, in the presence of shocks or compression during transport. The tranquility of the indoor air or the minimization of air exchange with the outside in the isothermal packaging dimensionally stable, minimizing a piston effect, is therefore recognized as a prerequisite for obtaining a long time to temperature given in the insulated packaging. However, the insulated packaging dimensionally stable have the significant disadvantage of a larger space volume of the product and the gel they contain. In this field there are also deformable isothermal packages arranged in a container or rigid cardboard. In particular, some of these packages consist of an air-tight inflatable mattress arranged in a carton or a rigid envelope. In this category of insulated packaging, air trapped in the mattress provides good thermal insulation and serves more shock absorption for the packaged product. The outer container provides in this type of package a compressive strength avoiding air exchange, that can not bring the inflatable mattress. However, the size of such a solution is again that of the outer container or rigid envelope, which again has the disadvantage of a large footprint. In this field also exist isothermal packaging in the form of metallized bags, usually consisting of a single thickness, usually metallized with a closure system such as zip or flap. Sometimes these metallized bags consist of a double wall that allows the insertion of foams or even refrigerant bags in the walls, but they unnecessarily increase the use of plastic or metallized walls.

The realization of a double-walled bag for directly inserting a cooling gel to transport heat-sensitive products is therefore a difficult problem in the prior art. In this context, the invention is an isothermal bag and a refrigerant gel filling or bottom gel pack insertion technique comprising: a first thin and flexible sheet composed of a first substantially incompressible and impermeable material; air, a second thin and flexible sheet, composed of a second material essentially incompressible and impervious to air, a third thick and flexible sheet composed of a third material in compressible and impermeable to air and in which - The first sheet and the second sheet are joined in a pocket by a lateral attachment means, the third sheet is folded and enclosed in the pocket. A closure system such as a zip comes simultaneously together the first, third and second sheets in their upper side. - The new pocket thus formed thus has an opening in the top while in the bottom, the leaves one and two are not welded and the two leaf appears folded.

In variants of the invention: - said fixing means is a weld - said material is polyethylene - said material is polyethylene terephthalate laminated with a metal and a welding agent such as polyethylene - said material is a polyethylene Thus, a method for obtaining an isothermal bag comprising the steps of: - joining in a non-welded pocket at the top and the bottom, a first thin and flexible sheet, composed of a material essentially incompressible and impermeable to air, and a second thin and flexible sheet, composed of a material essentially incompressible and permeable to air; - enclose in the pocket a third thick and flexible folded sheet, composed of an incompressible material and impermeable to air.

The invention finally relates to a use of an isothermal bag, comprising the steps of: - folding in half a plastic sheet in a sheet consisting of a first plate, a second plate and a fold, the fold connecting the first flat and the second flat, the first and the second flat being essentially in mechanical contact; - Possibly have a closure system on the edges opposite the fold to connect if necessary the first flat and the second flat - add on the outside of the first flat a plastic sheet of a substantially identical size except in the background a little larger - connect this sheet to the first flat on three sides, except for the fold side of the first and second flat, to form a first partition - add on the outside of the second flat a plastic sheet of a substantially identical size , except in the background a little bigger - connect this sheet to the second flat on three sides, except for the fold side of the first and second flat, to form a second partition - insert a cooling gel, able to cool its environment, on the side of the fold of the first and second flat, in the partitions - to weld the outer sheets without welding the fold of the first plastic sheet - to insert a thermosensitive product by opening it The remaining process is now described with the use of FIGS. 1 and 2 for the purpose of describing the invention, and with reference to FIG. Figure 1, an embodiment chosen is that of a single double-walled bag based on layers of polyethylene terephthalate (PET), metal, polyethylene (PE) and polyamide (PA).

Figure 1 shows a sectional view of a bag opening at the bottom perpendicular to the dish of the bag. In order to obtain a bag according to the invention in this embodiment, a first sheet of PET / metal / PA / PE rectangular 100μ thick (3) is cut. A second sheet of PET / Metal / PA / PE (9) of the same size as the first sheet is cut. These dimensions may for example be of the order of 20 cm x 25 cm to allow the device to contain a vaccine. Then cut a third sheet (4), PE for example, which will be folded in half. The opposite edges of this sheet being mechanically attached to the ply 1 and 2 (1). Opposite these edges will be the fold of this third sheet (6). This third sheet, once folded, is slightly smaller than the first sheet and the second sheet, a few millimeters to a few centimeters to facilitate the automated manufacture of the product. A stack of the three sheets is thus obtained in a configuration in which the edges of the first and second sheets are facing each other. The edges of the sides (9) and (10) are welded to each of the outer sheets, perpendicular to the opening of the bag, with the edges of the sides of the folded inner sheet (4). Then from the bottom, we can now pour a cooling gel, turning the bag to drop the gel by gravity. The edges 7 and 8 of FIG. 1 can then be closed by a mechanical method such as welding. The gel will be able to circulate freely within the partitions and to equilibrate on each side of the walls. Typically, the welds, preferably thermal, may be of a width of between 5 and 8 mm. Thus we obtain a bag whose walls are filled with gel. The prior art, through multiple patents, refers to bags whose walls are filled with refrigerant or insulating material. But none addresses this manufacturing process which has the advantage of a very great ease of manufacture and also a great flexibility to arrange the desired amounts of refrigerant to vary the holding time temperature-controlled temperature-sensitive products . This ability to maintain thermosensitive products at a chosen temperature will be even greater than the bag will be closed (Figure 1- 1 and Figure 2-1) so almost airtight by a zip for example or a self-adhesive tab that would come add to the walls.

Figure 2 shows the same bag (2) seen from the outside this time with the opening of the top (1) to introduce thermosensitive products. The inner fold (3) is represented by a dotted line. The bottom (4) will initially be the opening by which the gel will be distributed inside with a line of separation (3) of the two partitions. The bottom (4) is then intended to be closed sealingly. The invention is susceptible of industrial application in the field of isothermal packaging.

Claims (7)

REVENDICATIONS1. insulated bag comprising gel in its walls of CLAIMS1. insulated bag comprising gel in its walls so that the gel can flow freely between the walls 2. Isothermal bag according to claim [1] made of polyethylene terephthalate of metal and polyethylene 3. Isothermal bag according to claim [1] made of polyethylene 4. isothermal bag according to claim [1] consisting of polyethylene terephthalate of metal and polyethylene and polyamide 5. Isothermal bag according to claim [1] comprising a zip-type opening and closing system 6. Isothermal bag according to claim [1] comprising a system of opening and closing type sticky tack 7. A process for obtaining an isothermal bag according to claim [1] characterized in that it comprises the steps of: - assembling in a pocket, a first thin and flexible sheet, composed of a substantially incompressible material and impervious to air, and a second thin and flexible sheet, composed of a substantially incompressible material and impermeable to air; enclosing in the pocket a third thick and flexible incompressible and airtight sheet folded into a sheet, so that its upper ends are each connected to one side of the first and second sheets, in such a way that that the sides perpendicular to this upper edge are connected to each other and to the perpendicular edges of the first two sheets, so that the opposite part of the third sheet is a single fold and will not be welded with sheets one and two finally, so that the sheets one and two can be welded to the opposite side of the upper edge once the bag has been filled with a refrigerant material. [9] Use of an isothermal bag according to claim 1 at 8, characterized in that it comprises the steps of: - opening the insulated bag by the upper edge 30 - inserting a thermose product in the third sheet; - close the bag if the bag has a means of closure