BOTTLE MADE FROM NATURAL FIBRES AND METHOD FOR PRODUCING SUCH A BOTTLE

Abstract

Bottle made from a shell comprising a body, a bottom and a neck, the bottle being characterised in that the shell is made of a composite material of a knitted fabric of natural fibres combined with thermoplastic material, the shell being shaped and stabilised by thermocompression, the web being a sock with a closed bottom and having a variable section leading up to the neck, depending on the shape the bottle is to have.

Claims

1. A bottle with a wall comprising a base, a body and a neck, a bottle characterised in that the wall of composite material is made of a knitted material of natural fibres combined a thermoplastic material, the wall being shaped and stabilised by injection, moulding or thermocompression, the knitted material being a sleeve formed by a bottom and having a variable cross-section rising towards the neck, depending on the shape of the bottle.

2. The bottle according to claim 1, characterized in that the knitted material comprises at least one of the following items: a flat bottom part, a punted part, a body part, a shoulder part, a neck part and a ring part for a smooth ring or for a screw ring.

3. A method of making a bottle according to claim 1, characterized in that by an initial step natural fibres are fed in, a sleeve-shaped knitted material with a bottom is knitted with this yarn, the shape of which corresponds to that of the bottle to be made, the thermoplastic material is combined with the knitted material and, the knitted material combined with the thermoplastic material, is shaped by a thermoforming, moulding, bonding, heat-shrinking step.

4. The method according to claim 3, characterized in that thermoplastic material is combined with natural fibres by extrusion or injection of thermoplastic material.

5. The method according to claim 3, characterized in that the natural fibres (A) are combined with the thermoplastic material feeding the knitting step with natural fibres and thermoplastic.

6. The method according to claim 3, characterised in that the natural fibres are combined with the thermoplastic material (B) by combining the natural fibres with the thermoplastic material to feed the knitting step with the yarn combined in this way.

7. The method according to claim 6, characterized in that the natural fibres are combined with the thermoplastic material by a co-mixing step to obtain a co-mixed yarn or, the natural fibres are combined with the thermoplastic material by a covering step to obtain a covered yarn.

8. A bottle comprising: (i) a body, (ii) a base, and (iii) a neck, where said body, said base, and said neck include a composite including a thermoplastic material and a knitted material, where said knitted material includes natural fibre yarns.

9. The bottle of claim 8, where at least one of the body, the base, and the neck are stabilized as a result of being shaped by thermoforming, moulding, bonding, or heat-shrinking.

10. The bottle of claim 8, where the knitted material is a sleeve including a bottom, a sidewall, and a neck, and wherein the cross-sectional diameter of the sidewall is variable between the bottom and the neck.

11. The bottle of claim 10, where the sleeve further includes a shoulder disposed between the sidewall and the neck.

12. The bottle of claim 10, where the bottom is a flat bottom or a punted bottom.

13. The bottle of claim 10, where said sleeve further includes a ring disposed in the neck, and where the ring is a smooth ring or a screw ring.

14. A method for forming a composite bottle, the method comprising: (i) providing a pre-finished composite that includes a thermoplastic material and a knitted material, where the knitted material includes natural fibre yarns, and where the knitted material is in the shape of a bottle; (ii) heat treating the pre-finished composite to form the composite bottle.

15. The method of claim 14, where said heat treating includes thermoforming, moulding, bonding, or heat-shrinking.

16. The method of claim 14, where the pre-finished composite is formed by providing the knitted material and then coating the knitted material with the thermoplastic material.

17. The method of claim 16, where said coating includes extrusion, injection, or rotational moulding of the thermoplastic material onto the knitted material.

18. The method of claim 14, where the pre-finished composite is formed by knitting the natural fibre yarns with thermoplastic filament yarns.

19. The method of claim 14, where the natural fibre yarns are coated with the thermoplastic material.

20. The method of claim 14, where the natural fibre yarns include a combination of natural fibres and thermoplastic filaments.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] This invention will be described below in an embodiment referred to in the accompanying drawings, in which:

[0030] FIG. 1 Front view of a bottle in the traditional shape of a wine bottle, according to the invention.

[0031] FIG. 2 Front view of the bottle in FIG. 1, cut in half along a median plane.

[0032] FIG. 3 Diagram of the process for preparing the bottle according to the invention.

[0033] FIG. 4 Diagram of the process for preparing the bottle according to the invention and its variants.

[0034] FIG. 5 General diagram of the process according to the invention.

DESCRIPTION OF THE EMBODIMENTS OF THE INVENTION

[0035] FIG. 1 is a side view of an example of a bottle 1, according to the invention, for a traditional wine bottle with two variants. It is made of a composite material comprising a knit of natural fibres (A) combined with a thermoplastic material (B).

[0036] The bottle 1 consists of a body 13 with a bottom 11 with a punt 12 or a flat bottom 11, a shoulder 14 and a neck 15 ending in a ring 16.

[0037] The body has patterns 17 in the form of distinctive or decorative items such as an acronym, a mark, an engraving or other distinctive signs. The distinctive items include, for example, a brand name or a distinctive element of a product category. These items are particular shapes given to the composite wall of the bottle and, if necessary, the items integrated in that wall.

[0038] Pattern 17 is, for example, formed in the composite mass and may or may not stand in relief from the outer surface of the bottle or the pattern 17 may create a see-through effect or have coloured items giving the mass a distinctive look.

[0039] FIG. 2 shows, in its left part 2A, a half-section through a plane passing through the median axis XX and in its right part 2B an uncut view of the bottle 1. The two examples of bottles shown in the half-sectional view correspond to two knitted materials T1, T1 shown separately in parts 2C, 2D of this FIG. 2.

[0040] The two separate parts 2C, 2D reveal the shape of the composite bottle wall made of a knitted material T1, T1. The knitted materials will be impregnated with a thermoplastic material to highlight the shape of the composite bottle wall formed by a knitted material T1, T1 at least substantially in the shape of a bottle. They will be impregnated with a thermoplastic material to create a sealed, stable wall, in a single section between the bottom 11 and the neck opening beyond the ring 16.

[0041] Part 2C shows the shape of the knitted material T1, which consists of an open sleeve at one end and closed at the other end by the bottom T11 with a punt T12. Moving up towards the collar, the knitted material T1 is in the shape of the body T13 and then the that of the shoulder T14 followed by the neck T15 and the ring T16 with the overlaid thickness. As shown in this part 2C representing a cross-section of the knitted material T1, the surface of the knitted material is uneven as it is not yet combined with the thermoplastic material and its shape has not been stabilised by thermocompression.

[0042] According to part 2D, the knitted material T1 variant for a flat-bottomed bottle consists of the flat bottom part T11, the body part T13, the shoulder part T14, the neck part T15 and the ring part T16.

[0043] In both cases, the knitted materials T1, T1 bear part of the pattern T17.

[0044] The knitted material T (T1, T1) has a flat bottom T11 for a flat-bottomed bottle or a shape T12 for a bottle with a punt. This shape consists of a dome-shaped extension beyond the plane YY of the bottom. The knitted material T (T1, T1) has a variable cross-section with respect to the XX axis. In the deployed state, the shape of T12 corresponds substantially to the symmetrical shape of the punt 12 with respect to the plane YY of the bottom perpendicular to the axis XX of the bottle.

[0045] The cross-section of the knitted fabric T (T1, T1) corresponds to that of the body T13 and then decreases with the shape of the shoulder T14 up to the neck T15 and ends with the ring T16 with an extras thickness of knitted material at the ring, while conversely, the thickness of the wall and thus that of the knitted fabric is constant.

[0046] Relief effects due to an extra thickness are incorporated into the mass. Depending on the case, these thicknesses can be obtained by moulding and with a knitted material modified according to the relief by patterns T17.

[0047] The knitted material T (T1, 71) is knitted to have a regular, equal density over the entire surface of the wall of bottle 1, except where the extra thickness is modified for the ring or for patterns.

[0048] The thickness of the wall and therefore of the knitted material T depends on the nature of the liquid with which the bottle is to be filled, whether the liquid is pressurised or not.

[0049] The knitted material T forming the wall of the bottle is made by combining natural fibre yarns (A) before or after knitting with plastic material (B) combined with natural fibre yarns, by thermocompression to obtain and stabilise the final shape of the bottle 1.

[0050] As already indicated, the term bottle includes all special forms of bottles, in particular bottles, jars of food liquids other than those traditionally packaged in bottles (wine, alcohol) or food or cosmetic gels, as well as the prismatic shapes used for fruit juices or liquids of this type. The shape of the knitted material T will be adapted to/copied from the shape of the bottle to be made, taking into consideration the elasticity of the knitted material T when it is placed in a mould.

[0051] FIG. 3 is a schematic diagram of a first example P1 of a process for manufacturing a bottle 1 according to the invention. Starting from the natural fibre yarns (A) feeding (feed stages E1) the knitting stage (E2), a knitted material T is knitted in the general shape of the bottle to be made, for example the shape of the bottle shown in FIGS. 1, 2.

[0052] The knitted fabric T is then coated with plastic (step E3), either by extrusion (step E31) or by injection (step E32) or by rotational moulding (E33). These operations consist of pressing the natural fibre yarn knitted material (A) against the wall of the mould to take the shape of the bottle by impregnating the extruded thermoplastic material into the mould or rotational-moulded in the mould already lined with knitted material T or as an injected plastic preform which is expanded in the mould already lined with knitted fabric T.

[0053] In another variant, the thermoplastic shell is made beforehand by injection moulding, extrusion or rotational moulding and a knitted material is laid on the thermoplastic shell.

[0054] In another variant as a way of joining the thermoplastic shell to the knitted material, a thin, thermoplastic, heat-shrinkable film is placed between the thermoplastic shell and the linen knitted material or over the thermoplastic shell and the knitted fabric whereupon the film shrinks on contact with hot steam.

[0055] The shape of the bottle 1, is finished and stabilised in step E4 after thermocompression. In one variant, the assembly and consolidation of the thermoplastic shell and the knitted material is done by impregnation with glue. In a second variant, the thermoplastic shell is covered with a heat-shrinkable film and knitted material made of natural fibre yarns, with assembly and consolidation obtained by means of hot steam which shrinks the film.

[0056] FIG. 4 shows a second process which combines natural fibre yarns (A) with thermoplastic filaments (B) by knitting. The resulting knitted material T is then shaped and stabilised by thermocompression to obtain the bottle 1.

[0057] This process P2 consists of natural fibre yarns (A) and of thermoplastic filament yarns (B) or simple thermoplastic filaments (B) to make the knitted material T by directly feeding the knitting step (F3) with these two types of yarns (A) and yarns or filaments (B).

[0058] In a first variant P3 of the second method, the feeding step F1 is followed by a combining step F2 consisting of co-mixing F21 the natural fibre yarns (A) and the thermoplastic yarns or filaments (B) to obtain a co-mixed yarn (C) which feeds the knitting step F3. This is followed by the thermocompression step F4.

[0059] In a second variant P4 of the second method, the combining step F2 consists of covering F22 the thermoplastic filaments (B) on the natural fibre yarn (A) to obtain a covered yarn (D) which then reaches the knitting step F3 followed by the thermocompression step F4.

[0060] In other words, this intermediate step consists of combining the two types of yarns (A), and filament yarns (B), to feed the knitting step with the yarn (C) resulting from this preliminary combination of the two yarns A, B.

[0061] In brief, [0062] the method consists in knitting E2 natural fibre yarns (A) and then adding to the knitted material (T) the thermoplastic material (B) for shaping by thermocompression, moulding, gluing and heat shrinking, [0063] the method may also involve joining the natural fibre yarns A and thermoplastic filament yarns B by knitting and then shaping and stabilising the knitted material T combined with the plastic material by thermocompression.

[0064] The method may also include an intermediate combination step F2 consisting in: [0065] making to make co-mixed yarns (step F21) by joining natural fibres A with thermoplastic material B, the co-mixed yarns C then being knitted or, [0066] producing covered yarns (covering step F22) by covering thermoplastic filaments B on natural fibre yarns A to obtain a covered yarn (D) which will then be knitted (step F3) and thermocompressed (step F4).

[0067] FIG. 5 shows the synthesis of the process of making a bottle as follows: [0068] E1) starting from natural fibre yarns or natural fibre yarns and thermoplastic fibre yarns or from a thermoplastic shell, [0069] E2) a knitted material T is made from yarns of natural fibres alone or with yarns combining natural fibres and plastic fibres, [0070] E3) the bottle blank is assembled, [0071] by extrusion of plastic material from granules in the mould already lined with knitted material T [0072] by rotational moulding in a mould lined with knitted material T [0073] by impregnating a shell C lined with knitted material in a mould with glue by joining in a mould the knitted material T to a plastic shell C with interposition or coating of a heat-shrinkable film of the knitted material on the shell or between the knitted material and the shell [0074] E4) wherein the shape is stabilised by thermal action, that is by thermocompression with soft steam or by thermocompression obtained by shrinking the film. [0075] In other words, and following the diagram in FIG. 5, from natural fibre yarns A, a knitted material T is knitted and placed in a mould into which plastic material is then injected or applied by rotational moulding. The resulting blank is then stabilised by thermocompression or [0076] starting from natural fibre yarns A, a knitted material T is made which is placed in a mould to be impregnated with glue and to obtain the blank which is stabilised by thermocompression to obtain the bottle or [0077] starting from the natural fibre yarn A, a knitted material is made and placed in a mould assembled with a shell and the knitted material is impregnated with glue to stabilise the shape by thermocompression.

[0078] Starting from the natural fibre yarn A, a knitted material T is made, placed in a mould to be assembled to a shell C with an interposed heat-shrinkable film or coating of the knitted material with a heat-shrinkable film, then thermocompression is carried out by heat-shrinking the film to obtain the bottle.

[0079] In another variant, with the natural fibre yarn A and the plastic fibres a yarn is produced either by co-mixing the two yarns or by covering. The resulting yarn is then knitted and placed in a mould for shaping by inflation then stabilisation by thermocompression to obtain the product.

NOMENCLATURE OF MAIN ITEMS

[0080] 1. Bottle [0081] 11. Base [0082] 12. Punt [0083] 13. Body/cylinder [0084] 14. Shoulder [0085] 15. Neck [0086] 16. Ring [0087] 17. Pattern [0088] A Natural fibres [0089] B Thermoplastic material [0090] C co-mixed yarn [0091] D Covered yarn [0092] T knitted material [0093] T12 Punt part [0094] T13 Body part [0095] T14 Shoulder part [0096] T15 Neck part [0097] T16 Ring part [0098] T17 Pattern part [0099] T1 Knitting variant [0100] T11 Flat bottom part [0101] T13 Body part [0102] T14 Shoulder part [0103] T15 Neck part [0104] T16 Ring part [0105] T17 Pattern part [0106] P1 First manufacturing method [0107] E1 Yarn in-feed step [0108] E2 Knitting step [0109] E3 Hot-melt material combination step [0110] E31 Extrusion combination step [0111] E32 Injection combination step [0112] E4 Bottle blank thermocompression [0113] P2 Second manufacturing method [0114] F1 yarn/filament A-B feed [0115] F3 Knitting step [0116] F4 Thermocompression step [0117] P3 first variant of second method [0118] F1 yarn/filament A-B feed [0119] F21 co-mixing step [0120] F3 Knitting step [0121] F4 Thermocompression step [0122] F21 co-mixing step [0123] F22 covering combination step [0124] P4 second variant of second method [0125] F1 Yarn/filament supply A-B [0126] F22 covering combination step [0127] F3 Knitting step [0128] F4 Thermocompression step