The invention relates to a bottle, in particular for beverages, especially alcoholic beverages or for cosmetic products or fragrances.
This bottle can have any shape, classic or otherwise, without extending beyond the scope of the invention.
Such a bottle may, for example, contain beer, still or sparkling wines, or spirits with a high alcohol content of up to 60% such as whiskey, cognac, Armagnac, rum, gin, vodka, jenever, etc.
Traditionally, drinks like this are packaged in glass bottles, the appearance of which is often questionable, which have the drawback of being heavy and not mechanically strong and whose production also demands much energy, with the spinoff of a very unfavourable carbon footprint.
To correct these drawbacks, the idea behind the invention was reached of packaging drinks or cosmetic products or fragrances in special bottles comprising firstly a rigid external weighing less than 0.5 g/cm2 making the bottle mechanically strong, and secondly an internal container intended to come into contact with the beverage or cosmetic product, being made of a thermoplastic material approved for food contact by the Authorities.
According to the invention, the rigid shell comprises a shell body extending in a neck provided with a neck opening and a lower cover and is equipped with a cap that fitted on the neck opening, attached to it and comprising an external annular part and a threaded internal annular part being inserted into the neck opening.
The container intended to come into contact with the beverage or cosmetic product is fixed to the internal annular part of this cap.
The shell comprises a cylindrical braid of plant fibres with a burning temperature above 140° C., having a uniform appearance over the entire body of the shell and neck and covering at least 90% of their surface area.
This cylindrical braid, preferably obtained by braiding a fibre on a mandrel, is inserted in an impregnation matrix made of a thermoplastic resin whose melting temperature is less than or equal to 190° C.
Note that in accordance with the invention the term “cylindrical” is to be interpreted very broadly and may refer to any volume having a closed circular or non-circular cross-section.
According to a first variant of the invention, the container intended to come into contact with the beverage or cosmetic product is a polyethylene terephthalate (PET) container of a specific shape fitted to the lower part of the internal annular part of the cap.
According to this first variant of the invention, the bottle can be obtained for instance by an injection blow-moulding process from three parts previously manufactured by injection, namely a cap, a lower cap and an impregnation matrix in the shape of the bottle, as well as a cylindrical braid of vegetable fibres also in the shape of the bottle, and an off-the-shelf PET container.
In this method, the cylindrical braid of plant fibres is positioned on an inflatable bladder, in particular made of silicone and the impregnation matrix is tight-fitted to the external face of this braid, then the assembly thus formed is inserted into a mould to obtain the body of the shell.
The equipped mould is then heated, and the inflatable bladder is put under pressure so that the thermoplastic resin forming the matrix impregnates the vegetable fibre braid.
After cooling and mould-releasing of the shell body, the cap is fitted to its neck, the PET container is inserted in the internal part and attached to the cap, then the production of the shell body is completed by attaching the lower cap.
In a second variant of the invention, the container intended to come into contact with the beverage or cosmetic product is a soft and flexible pouch, in particular made of polyethylene (PE), attached to the lower part of the internal annular part of the cap during its manufacture and inflated, in particular with compressed air, after the manufacture of the shell body, the attaching of the cap to it and preferably the attaching of the lower cap.
Note that the soft and flexible pouch may have a single-layer or multi-layer structure.
In accordance with this second variant of the invention, the shell body can also be manufactured by an injection blow-moulding process of the above-mentioned type.
According to another characteristic of the invention, the thermoplastic resin forming the impregnation matrix is selected from among the following resins: PE, polypropylene (PP), PET and polylactic acid (PLA).
It is essential to choose a thermoplastic resin that has a melting temperature lower than the burning temperature of the plant fibres forming the cylindrical braid.
Note that polypropylene is particularly advantageous because of its low cost and ease of forming but has the disadvantage of not generally being biodegradable and impossible to manufacture without synthetic products, exclusively from the biomass.
However, this disadvantage is mitigated by the fact that the thermoplastic resin represents less than 10% of the shell weight.
Polylactic acids, which are more expensive than polypropylene, have the advantage of being biodegradable under some conditions.
These acids are more precisely resistant to degradation under normal temperature and humidity conditions, but a temperature above 60° C. in a very humid environment causes the degradation of their polymer chains causing oligomers to form and which can then be degraded when exposed to microorganisms (enzymes or bacteria).
Consequently, bottles conforming to the invention, the impregnation matrix of which consists of PLA, can be degraded by grinding followed by a dwell period in an industrial fermenter or composter.
According to another feature of the invention, the diameter of the bottle shell varies between about 30 mm and about 90 mm, and the braiding angle of the fibre forming the cylindrical braid varies between 25° and 65° along this shell so as to obtain a uniform appearance over the entire surface of the shell body and the neck.
Note that the fibre braiding angle depends on the number of filaments and the final diameter to be obtained while the variations of the braiding diameter and the fibre orientation depend on the braiding speed and therefore on the feed speed of the mandrel.
According to another feature of the invention, the cylindrical vegetable fibre braid comprises hemp fibres, bamboo fibres, rice fibres or flax fibres.
A braid like this can advantageously be formed of a flax fibre braid a diameter of having about 0.3 mm and comprising 90 to 100 filaments, in particular 96 filaments each embodying 5 fibres.
A braid of this type has a density of less than 1400 kg/m3 and in the case of a conventional beverage bottle, weighs about 35 grams and is therefore particularly light.
As an example, the fibres of a cylindrical flax fibre braid forming a bottle as per the invention may have the following physical characteristics, in pure traction and compression-bending:
Number | Date | Country | Kind |
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1762244 | Dec 2017 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/FR2018/053272 | 12/13/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/115961 | 6/20/2019 | WO | A |
Number | Name | Date | Kind |
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2305896 | Prati | Dec 1942 | A |
5738921 | Andersen | Apr 1998 | A |
8701905 | Warner | Apr 2014 | B2 |
20100044267 | Tolibas-Spurlock | Feb 2010 | A1 |
Number | Date | Country |
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2549009 | Jan 1985 | FR |
3041329 | Mar 2017 | FR |
2426506 | Nov 2006 | GR |
2017051320 | Mar 2017 | WO |
Entry |
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International Search Report for International Application No. PCT/FR2018/053272. |
Written Opinion of International Application No. PCT/FR2018/053272 dated Apr. 17, 2019. |
Number | Date | Country | |
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20210163180 A1 | Jun 2021 | US |