• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A compostable lid intended to close a capsule containing coffee in particular, consisting of a multilayer complex comprising at least: a nonwoven whose fibers comprise at least 50% by weight of biodegradable fibers, a support consisting of a parchment paper, at least one oxygen barrier layer.
    公开号:FR3065714A1
    申请号:FR1753723
    申请日:2017-04-28
    公开日:2018-11-02
    发明作者:Florence Vidal;Mireille Roux;Herve Planchard;Patrice Blanc
    申请人:Ahlstrom Munksjo Oyj;
    IPC主号:
    专利说明:

    065 714
    53723 ® FRENCH REPUBLIC
    NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY © Publication number:
    (only to be used for reproduction orders) © National registration number
    COURBEVOIE © Int Cl 8 : B 65 D 51/00 (2017.01), B 65 D 85/804, B 32 B 23/06, 23/02, 23/10, 27/02
    A1 PATENT APPLICATION
    ©) Date of filing: 28.04.17. © Applicant (s): AHLSTROM-MUNKSJO OYJ — F . (© Priority: @ Inventor (s): VIDAL FLORENCE, ROUX MIREILLE, PLANCHARD HERVE and BLANC PATRICE. (43) Date of public availability of the request: 02.11.18 Bulletin 18/44. ©) List of documents cited in the report preliminary research: Refer to end of present booklet (© References to other national documents ® Holder (s): AHLSTROM-MUNKSJO OYJ. related: ©) Extension request (s): © Agent (s): LAURENT AND CHARRAS CABINET.
    (□ 4) COMPOSTABLE LID COMPRISING AN OXYGEN BARRIER LAYER FOR SEALING A CAPSULE AND CAPSULE CLOSED BY THE LID.
    ©) Compostable cover intended to seal a capsule containing coffee in particular, consisting of a multilayer complex comprising at least:
    - a nonwoven, the fibers of which comprise at least 50% by weight of biodegradable fibers,
    - a support consisting of parchment paper,
    - at least one oxygen barrier layer.
    FR 3 065 714 - A1
    COMPOSTABLE LID COMPRISING A BARRIER LAYER A
    OXYGEN FOR SEALING A CAPSULE AND SEALED CAPSULE
    BY OPERCULE
    FIELD OF THE INVENTION
    The invention relates to a seal, comprising an oxygen barrier layer, intended to seal a capsule, in particular of coffee. The invention also relates to a capsule closed by said cover. Finally, it relates to the use of this seal for closing a capsule containing a foodstuff, in particular ground coffee.
    In the following description, the invention is described in relation to coffee capsules. Nevertheless, it finds an application for all areas for which the cover is capable of containing food substances and must be an oxygen barrier, resistant to water, to pressure, to tearing and advantageously heat-sealable on a capsule. or any other food container.
    PRIOR STATE OF THE ART
    Two types of coffee pods are currently offered on the market, namely:
    flexible pods also called “pods” consisting essentially of a nonwoven sachet comprising coffee, rigid pods or capsules consisting of a capsule proper closed by means of a seal.
    The invention relates specifically to capsules.
    Nespresso® type capsules are widely known on the European market, of which the capsule part proper and the cover are essentially made of aluminum. There are also capsules with a plastic cover.
    There is however a great demand to transform these non-compostable capsules into compostable capsules.
    Some rare solutions have been proposed concerning the capsule part proper. Thus, capsules made of plastics based on polylactic acid (PLA) or plastics called "compatible PLA" have been developed. The so-called “compatible PLA” materials correspond to a mixture of PLA and vegetable fibers. They are biodegradable and compostable. Thus, these capsules meet the compostability conditions imposed by standard EN 13432.
    On the other hand, it is more complicated to obtain a compostable cover as the constraints linked to the cover or cover are numerous. Indeed, these capsules are capable of being used in coffee machines at pressure and temperature values to which they must be mechanically resistant.
    Essentially, the implementation of the capsules in a coffee pod machine or individual capsules is done according to the following process. Once the capsule is in place, the bottom of the capsule is struck. The holes formed allow the introduction of water heated to a temperature of 96 ° C into the body of the capsule at a pressure between 10 and 12 bars. The water filling the capsule gradually exerts pressure on the seal which comes into contact with piercing elements arranged in the machine, of the spike type. The pressure at the time of the perforation of the lid and during the percolation is generally between 5 and 15 bars depending on the grain size of the coffee. Once the cap is pierced in the shape of spikes, the coffee flows into the cup. The manufacturers impose a number of conditions in terms of coffee flow. In particular, the powder should not end up in the cup. In addition, a pod of approximately 30 ml must flow out in approximately 30 seconds. In addition, the liquid in flow should have a color and density similar to that of the foam. There are also a number of constraints once the coffee has been spilled even though the capsule has not yet been ejected. Indeed, in the event that the user does not eject the capsule until a few hours after the coffee has flowed, that is to say once the temperature of the capsule has returned to room temperature, it is not necessary to the capsule is deformed. Otherwise, it does not fall into the receptacle provided for this purpose when a new capsule is introduced. Nor should the lid delaminate.
    In other words, it is necessary to have a compostable cover, which is resistant to humidity and pressure so as not to tear either before or at the time of drilling. It is also necessary to provide a seal which does not allow the powder to pass when the coffee flows.
    Document FR 2 991 230 A1 describes a multilayer complex combining a nonwoven based on biodegradable polymers, a layer of adhesive suitable for food contact and a support based on cellulose fibers, for the manufacture of molds. The molds thus obtained have the property of resisting moisture from food so that their edges do not collapse once formed. Naturally, no pressure condition is mentioned since it is not a parameter to be taken into account for this application.
    Application FR 16/53909 in the name of the Applicant describes a compostable seal intended to seal a capsule containing coffee in particular, consisting of a multilayer complex combining a nonwoven based on polylactic acid fibers with a support consisting of a parchment paper.
    Although this seal is satisfactory in terms of compostability and mechanical property, it is not impermeable to air and oxygen can come into contact with the coffee inside the capsule. This is detrimental because the coffee will keep for a shorter time.
    The problem that the invention proposes to solve is therefore that of developing a compostable cover for closing a capsule, in particular a capsule containing coffee which meets the conditions of use of this type of seal in coffee machines, in particular coffee machines with pods or individual capsules, in particular resistance to humidity, resistance to pressure exerted by the mixture of powder and water of the order of 5 to 15 bars at at the time of the perforation of the lid and during percolation, the absence of delamination, the filter properties preventing the passage of coffee in the cup at the time of percolation and which is also an oxygen barrier.
    Another problem that the invention intends to solve is also that of developing a cover which can be integrated into the current production lines for capsules without substantial modification of said chains.
    STATEMENT OF THE INVENTION
    To do this, the Applicant has developed a compostable complex combining a nonwoven advantageously based on PL A fibers, an oxygen barrier layer and a support in parchment paper. The seal thus obtained is an oxygen barrier, resistant to the required pressure between 5 and 15 bars, to humidity and is easily integrated into existing capsule production lines.
    In addition, the non-woven fabric prevents the passage of the powder through the cover when the coffee flows into the cup and the oxygen barrier layer limits the passage of oxygen to the coffee before use. of the capsule.
    More specifically, the subject of the invention is a compostable cover intended to seal a capsule containing in particular coffee, consisting of a multilayer complex comprising at least:
    - a nonwoven, the fibers of which comprise at least 50% by weight of biodegradable fibers,
    - a support made of parchment paper;
    - at least one oxygen barrier layer.
    In the following description and in the claims, “compostable cover” means a cover comprising a maximum of 5% by weight of binder or non-compostable fibers, thus meeting the standard EN 13432.
    Likewise, by “capsule or body of compostable capsule”, is meant a capsule comprising a maximum of 5% by weight of binder or non-compostable fibers thus meeting the standard EN 13432.
    Advantageously, among the biodegradable fibers, at least 40% by weight are heat-sealable fibers, advantageously polylactic acid (PLA) fibers.
    In the following description and in the claims, the expression “heat-sealable fibers” denotes biodegradable fibers capable of ensuring the sealing of the nonwoven fabric on the capsule by heating. Advantageously, these are PLA fibers which allow the nonwoven to be heat sealed on a compatible PLA capsule.
    In the context of the present invention, it is considered that a cover is satisfactory in terms of oxygen barrier properties when the rate of transfer of oxygen through the cover is less than or equal to 1.5 cm 3 / m 2 / day, measured according to ASTM D 3985 and ASTM F 1927 standards.
    Similarly, it is considered that a cover is satisfactory in terms of resistance to pressure when the cover does not tear when it is subjected to a pressure exerted by the mixture of powder and water of between 5 and 15 bars. at the time of the perforation of the cover and during percolation. Before perforation, the seal should not tear under the effect of increasing water pressure in the capsule. After perforation, the holes resulting from the perforation must not tear and thus enlarge under the effect of the pressure, so as on the one hand not to let the powder escape and on the other hand to keep the characteristics of the coffee in terms of foam in particular.
    There are several types of coffee capsules and more are in development and more will be developed later. The seal according to the invention has the advantage of being able to easily adapt to all types of capsules known or to come.
    For example, mention may be made of capsules of a semi-rigid nature in frustoconical shape described in patents US Pat. No. 7,658,141 and US Pat. No. 7,153,530. Mention may also be made of patent US Pat. Patent EP 2 690 035 discloses a frustoconical capsule, the base of which is perforated. Patent EP 2 648 579 describes a frustoconical capsule, the smallest base of which is concave when viewed from the outside. Mention may also be made of patents EP 1 344 722 and US Pat. No. 7,543,527 which discloses a capsule comprising in particular a distribution disc. One can cite the document EP1659909A1 which describes a capsule comprising an integrated injection nozzle. Reference can also be made to capsules described in documents US8361527, EP1529739 and US5325765.
    According to a first characteristic, the cover of the invention contains a nonwoven of which the fibers comprise at least 50% by weight of biodegradable fibers.
    The biodegradable fibers are preferably chosen from the group comprising cellulose fibers such as cotton, linen, wood fibers or even PLA (polylactic acid), PHA (polyhydroxyalkanoate), PHB (poly (hydroxybutyrate)), PHB ( V) (poly (hydroxybutyrate-co-hydroxy valerate)), PB S (poly (butylenesuccinate)), biopolyesters.
    Polylactic acid (PLA) has the advantage of being in particular biobased, biodegradable, and compostable. By "PLA" is meant polylactic acid, its derivatives (type L and D or copolymers), and their mixtures. The PLA fibers advantageously have a diameter of between 10 and 15 micrometers.
    Advantageously, at least 40% by weight of the biodegradable fibers are heat-sealable fibers.
    Preferably, the heat-sealable fibers are chosen from the group comprising PLA, PHA (polyhydroxyalkanoate), PHB (poly (hydroxybutyrate)), PHB (V) (poly (hydroxybutyrate-co-hydroxy valerate)), PB S (poly (butylenesuccinate) ), biopolyesters.
    The heat-sealable fibers preferably have a melting point of at least 100 ° C, in practice between 100 and 250 ° C, preferably between 100 and 200 ° C.
    Generally, a nonwoven is a material obtained by random arrangement of individual fibers which are intertwined. The cohesion of the fibers between them can be ensured by adding adhesive or binders (latex, polyvinyl alcohol, starch, etc.), by heating, by pressure, or by routing, for example. Many processes for preparing nonwovens are part of the knowledge of a person skilled in the art. They include, for example, meltblowing, direct spinning or spunbonding, carding, and jet spraying processes. air ("air laying"), or dispersion by water jet ("water laying").
    In addition to fibers, the nonwoven may also include additives, mineral fillers. The incorporation of additives, fillers, or fibers other than those of PLA can make it possible to modulate the melting point of the layer based on PLA.
    In practice, the fibers constituting the nonwoven comprise at least 20%, preferably at least 50%, advantageously at least 85%, more preferably at least 90% by weight of PLA fibers, the complement to 100% consisting of biodegradable fibers, preferably cellulose fibers. The nonwoven is advantageously manufactured in this embodiment by dispersion by water jet ("water laying").
    In a particular embodiment, 100% of the fibers of the nonwoven consist of heat-sealable fibers, advantageously of PLA fibers. In this case, the cohesion of the fibers and therefore of the nonwoven is obtained in the absence of adhesive or binder by a molten manufacturing process ("spunbond").
    When it contains 100% by weight of PLA, the nonwoven can be monolayer. Advantageously, it can be a two-layer nonwoven. The bilayer can be monocomponent, that is to say contain only one type of PLA or bicomponent, that is to say contain 2 types of PLA having different melting points.
    According to another characteristic, the porosity of the nonwoven measured according to DIN 53.887 standard is between 3000 to 5000 l / m 2 / s.
    Finally and in practice, the grammage of the nonwoven is between 5 and 100 g / m 2 , advantageously between 10 and 30 g / m 2 , even more advantageously between 15 and 20 g / m 2 , preferably of the order of 18 g / m 2 .
    According to an essential characteristic of the invention, the support consists of parchment paper qualified in French as "real". A detailed description is given in Mayer, Ferdinand F (May 1860). Technical Intelligence— Vegetable Parchment — Papyrene. The American Journal of Science and Arts. XXIX (LXXXVI): 278. Essentially, parchment paper is paper treated most of the time with sulfuric acid. More rarely, zinc chloride can be used. The fibers are cellulose fibers generally chosen from eucalyptus fibers and softwood fibers. In practice, sulfuric acid dissolves cellulose around the fibers. A cellulose gel is formed, which is then precipitated. In a final step, the support is rinsed. The applied treatment forms a crosslinked sulfurized sheet having a high density, high stability, high resistance to heat and a low surface energy giving it satisfactory non-stick properties.
    The support is therefore not a high density greaseproof paper or a chemically treated greaseproof paper (for example with a fluorinated resin). The support also does not contain any resin providing mechanical resistance in the wet state.
    To improve its resistance to pressure, parchment paper has a ratio of bursting in the wet state measured according to ISO 3689/1994 / dry bursting measured according to ISO 2758: 2001 standard between 50 and 70%, preferably included between 55 and 65%.
    In practice, the grammage of the parchment paper is between 30 and 120 g / m 2 , advantageously between 70 and 110 g / m 2 .
    Likewise, its thickness is in practice between 60 and 130 micrometers.
    According to another essential characteristic, the seal contains at least one oxygen barrier layer. The oxygen barrier allows in particular a longer storage over time, of the coffee contained in the capsule.
    According to a first embodiment, the oxygen barrier layer is positioned between the nonwoven and the support. Thus, the cover successively contains, in the direction of the capsule, a support, an oxygen barrier layer and a nonwoven.
    According to a second embodiment, the nonwoven is positioned under the support and the oxygen barrier layer is positioned on the support. Thus, the cover successively contains, in the direction of the capsule, an oxygen barrier layer, a support and a nonwoven. Each of the barrier layers can itself consist of several layers.
    According to a third embodiment, the cover according to the invention comprises two oxygen barrier layers.
    In a first case, the 2 barrier layers are placed side by side and are advantageously positioned between the nonwoven and the support.
    Thus, the cover successively contains, in the direction of the capsule, the support, two oxygen barrier layers and the nonwoven.
    In a second case, the 2 barrier layers are separated and are positioned on either side of the support. Thus, the seal successively contains in the direction of the capsule, an oxygen barrier layer, a support, a second oxygen barrier layer and a nonwoven.
    According to another characteristic, the oxygen barrier layers can be of different compositions.
    In practice, the oxygen barrier layer is based on polyvinyl alcohol (PVA).
    In a first embodiment, the barrier layer contains a mixture of polyvinyl alcohol with a resin based on polyamide-epichlorohydrin. Preferably, the polyamide-epichlorohydrin-based resin is kymene. In this case, the oxygen barrier layer contains between 80 to 95%, preferably between 85 and 90% by dry weight of PVA, the complement to 100% consisting of the resin based on polyamideepichlorohydrin.
    In a second embodiment, the oxygen barrier layer is based on polyvinyl alcohol, the degree of hydrolysis of which is between 98 and 99%. As previously, the barrier layer may also contain a resin based on polyamideepichlorohydrin in proportions identical to those above.
    In a third embodiment, the oxygen barrier layer is based on highly amorphous polyvinyl alcohol. An example is the Michem® Flex Barrier 3510 marketed by MICHELMAN.
    In a fourth embodiment, the barrier layer is based on an ethylene vinyl alcohol copolymer (EVOH).
    In practice, the total grammage of the oxygen barrier layer (that is to say when it consists of one or two or more layers) is between 0.5 g / m 2 and 8 g / m 2 , advantageously from 2 to 5 g / m 2 .
    In practice, the oxygen barrier layer is applied to the support, by coating. When the support is treated with two barrier layers, it is successively coated with two separate layers.
    Advantageously, the cover also contains at least one adhesive layer, preferably suitable for food contact.
    Depending on the embodiments previously exposed, the adhesive layer is applied between the oxygen barrier layer and the nonwoven or the support and the nonwoven.
    The adhesive makes it possible in particular to ensure the cohesion of the multilayer complex when the latter is exposed to a temperature close to or higher than that of melting of the PLA during the heat sealing of the seal on the capsule. The adhesive also makes it possible to maintain the sulfurized support, or where appropriate, the sulfurized support / oxygen barrier layer complex, on the PLA layer welded to the capsule when the multilayer complex is in contact with hot water during percolation, then during cooling.
    The term "adhesive suitable for food contact" means any type of adhesive generally used in the food industry. However, advantageously, it can be chosen from the group comprising acrylic adhesives, polyurethane adhesives, ethylene vinyl acetate, and mixtures thereof.
    In a preferred embodiment, the adhesive suitable for food contact is chosen from the acrylic adhesives sold by Lubrizol in the Carbobond® and Hycar® ranges, alone or as a mixture.
    The amount of adhesive represents in practice between 1 and 5 g / m 2 in dry, advantageously between 2 and 4 g / m 2 in dry, preferably of the order of 3 g / m 2 in dry relative to the surface of the multilayer complex.
    The thickness of the multilayer complex object of the invention is advantageously between 60 and 150, preferably between 90 and 110 micrometers.
    According to another characteristic, the cover of the invention can be perforated.
    A subject of the invention is also a coffee capsule in particular, comprising a capsule proper also designated “capsule body” containing ground coffee closed with the cover as described above, the cover being positioned so that the nonwoven is opposite the edge of the capsule.
    In practice, the capsule contains 5 to 20 grams of ground coffee. The thickness of the coffee bed is between 10 and 40 mm and the diameter of the capsule is between 2.5 and 6 cm.
    In a preferred embodiment, the capsule body is made of PLA or a compatible PLA material. This has the advantage of being able to secure the seal on the decapsulated body by sealing, heat sealing, bonding, etc. as long as the materials are compatible (PLA or PLA compatible).
    The capsule body is advantageously compostable according to the above-mentioned EN 13432 standard.
    The capsule comprising the capsule body and the cover is preferably used in a coffee machine with pods or individual capsules.
    The invention also relates to the use of the cover described above for closing a capsule, in particular a coffee capsule, the cover being positioned so that the nonwoven is facing the edge of the capsule.
    The invention and the advantages which ensue therefrom will emerge more clearly from the following figures and examples given in order to illustrate the invention and not in a limiting manner.
    DESCRIPTION OF THE FIGURES
    FIG. 1 illustrates a first embodiment of the cover object of the present invention.
    FIG. 2 illustrates a second embodiment of the cover object of the present invention.
    FIG. 3 illustrates a third embodiment of the cover object of the present invention.
    FIG. 4 illustrates a fourth embodiment of the cover object of the present invention.
    EXAMPLES OF EMBODIMENT OF THE INVENTION
    Examples of structures according to the invention
    In FIG. 1, a cover is represented in the form of a multilayer complex comprising successively:
    - a support (1) made of parchment paper;
    - an oxygen barrier layer (2);
    - a nonwoven (3) comprising 100% by weight of fibers made of PLA.
    In FIG. 2, the cover is in the form of a multilayer complex comprising successively:
    - an oxygen barrier layer (2);
    - a support (1);
    - a nonwoven (3).
    In FIG. 3, the cover is in the form of a multilayer complex successively comprising:
    - an oxygen barrier layer (2);
    - a support (1);
    - a second oxygen barrier layer (2);
    - a nonwoven (3).
    In FIG. 4, the cover is in the form of a multilayer complex comprising successively:
    - a support (1);
    - an oxygen barrier layer (2);
    - a second oxygen barrier layer (2);
    - a nonwoven (3).
    Examples of a seal according to the invention
    Examples 1 to 7 illustrate several configurations of lids according to the invention.
    In all the examples, the nonwoven is a bilayer formed exclusively of PLA fibers. It is a mono-component bilayer of 18 g / m 2 grammage.
    Likewise, in all the examples, the nonwoven is separated from the upper layer, that is to say from the oxygen barrier (FIGS. 1, 3 or 4) or from the support by an adhesive layer. (not shown) applied at a rate of 3 g / m 2 in sec. The adhesive is chosen from the acrylic adhesives sold by Lubrizol in the Carbobond® and Hycar® ranges, alone or as a mixture.
    The support (1) is a parchment paper marketed by the applicant under the name "Sulflex®" with a grammage either of 70 g / m 2 , or of 110 g / m 2 .
    types of oxygen barrier layers are tested:
    100% by weight of an aqueous primer containing highly amorphous PVA (HAVOH) at a rate of 2 g / m 2 dry: marketed under the reference Michem® Flex Barrier 3510 by Michelman,
    90% by dry weight of PVA and 10% of a resin based on polyamideepichlorohydrin (Kymene®. The layer is applied at a rate of 2.5 gm 2 in dry 90% by dry weight of partially hydrolyzed PVA (Exceval®) and 10% of a resin based on polyamide-epichlorohydrin (Kymene®) The layer is applied at a rate of 2.5 gm 2 dry
    The oxygen transfer rate was measured at atmospheric pressure (1.013 bar) at a temperature of 23 ° C with a relative humidity of 50% according to standards ASTM D 3985 and ASTM F 1927. The results obtained are listed in the table below.
    Example Structure Weightpapergreaseproof Oxygen barrier Oxygen transfer rate (cm 3 / m 2 .day) 1 Figure 3 70 HAVOH at 2g.m ' 2 0.47 2 Figure 4 70 HAVOH at 2g.m ' 2 1.10 3 Figure 3 70 PVA and Kymene at 2.5 g.m ' 2 1.14 4 Figure 4 70 PVA and Kymene at 2.5 g.m ' 2 0.97 5 Figure 1 110 PVA and Kymene at 2.5 g.m ' 2 0.79 6 Figure 1 70 Exceval and Kymene at 2.5 g.m ' 2 0.75 7 Figure 1 110 Exceval and Kymene at 2.5 g.m ' 2 0.74
    The pressure resistance of the seal is then checked. To do this, the 5 capsule is placed in a Nespresso® Pixie machine and the pressure build-up is monitored throughout the duration of the brewing. The pressure is between 5 and 15 bars depending on the particle size of the coffee contained in the capsule. None of the lids tested tore under the effect of pressure.
    权利要求:
    Claims (20)
    [1" id="c-fr-0001]
    1. Compostable cover intended to seal a capsule containing coffee in particular, consisting of a multilayer complex comprising at least:
    5 - a nonwoven, the fibers of which comprise at least 50% by weight of biodegradable fibers,
    - a support made of parchment paper,
    - at least one oxygen barrier layer.
    10
    [2" id="c-fr-0002]
    2. Lid according to claim 1, characterized in that at least 40% by weight of the biodegradable fibers are heat-sealable fibers.
    [3" id="c-fr-0003]
    3. Lid according to one of the preceding claims, characterized in that the biodegradable fibers are chosen from the group comprising fibers of
    15 cellulose such as cotton, linen, wood fibers or even PLA fibers, PHA (polyhydroxyalkanoate), PHB (poly (hydroxybutyrate)), PHB (V) (poly (hydroxybutyrate-co-hydroxyvalerate)), PBS (poly ( butylenesuccinate)), biopolyesters.
    20
    [4" id="c-fr-0004]
    4. Lid according to one of claims 2 or 3, characterized in that the heat-sealable fibers are chosen from the group comprising PLA PHA (polyhydroxyalkanoate), PHB (poly (hydroxybutyrate)), PHB (V) (poly (hydroxybutyrate-co -hydroxyvalerate)), PBS (poly (butylenesuccinate)), biopolyesters.
    [5" id="c-fr-0005]
    5. Lid according to one of the preceding claims, characterized in that the constituent fibers of the nonwoven comprise at least 50%, advantageously at least 85%, more preferably at least 90% by weight of PLA fibers, the complement to 100% by weight consisting of biodegradable fibers.
    [6" id="c-fr-0006]
    6. Lid according to one of claims 1 to 4, characterized in that the constituent fibers of the nonwoven comprise 100% by weight of PLA fibers.
    [7" id="c-fr-0007]
    7. Lid according to one of the preceding claims, characterized in that the paper
    35 sulphurized has a wet burst ratio measured according to the ISO standard
    3689/1994 / dry burst measured according to ISO 2758: 2001 between 50 and 70%.
    [8" id="c-fr-0008]
    8. Lid according to one of the preceding claims, characterized in that the grammage of the parchment paper is between 30 and 120 g / m 2 , advantageously between 70 and 110 g / m 2 .
    5
    [9" id="c-fr-0009]
    9. Lid according to one of the preceding claims, characterized in that the oxygen barrier layer is positioned between the nonwoven and the support.
    [10" id="c-fr-0010]
    10. Lid according to one of claims 1 to 8, characterized in that the nonwoven is positioned under the support and the oxygen barrier layer is positioned on the
    10 support.
    [11" id="c-fr-0011]
    11. Lid according to one of the preceding claims, characterized in that it comprises two oxygen barrier layers.
    15
    [12" id="c-fr-0012]
    12. Lid according to claim 11, characterized in that the 2 barrier layers are placed side by side and are positioned between the nonwoven and the support.
    [13" id="c-fr-0013]
    13. Cover according to claim 11, characterized in that the 2 barrier layers are separated and are positioned on either side of the support.
    [14" id="c-fr-0014]
    14. Lid according to one of the preceding claims, characterized in that the oxygen barrier layer is based on polyvinyl alcohol or contains a mixture of polyvinyl alcohol with a resin based on polyamideepichlorohydrin.
    [15" id="c-fr-0015]
    15. Lid according to any one of the preceding claims, characterized in that the total grammage of the oxygen barrier layer is between 0.5 g / m 2 and 8 g / m 2 , advantageously between 2 and 5 g / m 2 .
    30
    [16" id="c-fr-0016]
    16. Lid according to any one of the preceding claims, characterized in that it also contains an adhesive layer applied between the oxygen barrier layer and the nonwoven.
    [17" id="c-fr-0017]
    17. Lid according to one of the preceding claims, characterized in that it
    35 has a pressure resistance of between 5 and 15 bars.
    [18" id="c-fr-0018]
    18. Coffee capsule in particular comprising a capsule body, closed with the cover according to one of claims 1 to 17, the cover being positioned so that the nonwoven is facing the edge of the capsule body .
    5
    [19" id="c-fr-0019]
    19. Capsule according to claim 18, characterized in that it contains from 5 to
    [20" id="c-fr-0020]
    20 grams of ground coffee, has a thickness of the coffee bed between 10 and 40 mm and a diameter between 2.5 and 6 cm.
    20. Use of the seal according to one of claims 1 to 17 for obturation
    10 of a capsule, the cover being positioned so that the nonwoven is facing the edge of the capsule body.
    1/1
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    EP2774757A1|2014-09-10|Disposable laminated product
    WO2021239982A1|2021-12-02|Biodegradable capsules
    FR3005832B1|2019-06-28|PORTION OF CHEESE AND PROCESS FOR PRODUCING THE SAME
    WO2020043845A1|2020-03-05|Biodegradable, oxygen-impermeable capsule with automatic opening
    同族专利:
    公开号 | 公开日
    US20200140187A1|2020-05-07|
    BR112019022277A2|2020-05-19|
    ES2888234T3|2022-01-03|
    AU2018260374A1|2019-10-31|
    JP2020520327A|2020-07-09|
    FR3065714B1|2019-06-14|
    EP3615325B1|2021-06-02|
    EP3615325A1|2020-03-04|
    WO2018197676A1|2018-11-01|
    CN110621490A|2019-12-27|
    CA3061014A1|2018-11-01|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JP2004099053A|2002-09-05|2004-04-02|Dainippon Printing Co Ltd|Inner sealant for hermetically sealing container mouth|
    WO2011015973A1|2009-08-05|2011-02-10|Ethical Coffee Company Sa|Screen-reinforced membrane for a capsule used to prepare a beverage|
    FR2991230A1|2012-05-31|2013-12-06|Ahlstroem Oy|MULTILAYER COMPLEX COMPRISING A LAYER BASED ON A BIODEGRADABLE POLYMER AND A SUPPORT BASED ON CELLULOSIC FIBERS; METHOD OF MANUFACTURE AND USE|
    WO2014126463A1|2013-02-12|2014-08-21|Koninklijke Douwe Egberts B.V.|Capsule, system and method for preparing a beverage|
    AU1505192A|1991-05-10|1992-11-12|Societe Des Produits Nestle S.A.|Sealed cartridge for the prepartion of a beverage|
    US5325765A|1992-09-16|1994-07-05|Keurig, Inc.|Beverage filter cartridge|
    SI1190959T1|2000-09-26|2004-06-30|Societe Des Produits Nestle S.A.|Capsule for beverage preparation with extraction under pressure|
    DE20221780U1|2002-03-14|2007-10-18|Caffita System S.P.A., Gaggio Montano|Portion capsule with a particulate extractable by water substance for the preparation of a beverage|
    EP1510159A1|2003-08-25|2005-03-02|Nestec S.A.|Procedure for making a food product|
    EP1529739A1|2003-11-06|2005-05-11|Keurig, Incorporated|Disposable beverage filter package|
    US20050202743A1|2004-03-09|2005-09-15|Karlheinz Hausmann|Package enclosure with fabric-line outer layer|
    EP2364930B1|2009-03-19|2018-12-05|Nestec S.A.|Capsule for preparing coffee in a device comprising a cartridge holder with relief and recessed elements|
    US8361527B2|2010-09-02|2013-01-29|Keurig, Incorporated|Beverage cartridge|
    JP2012076231A|2010-09-30|2012-04-19|Nippon Paper Industries Co Ltd|Paper-made gas barrier material|
    IT1403011B1|2010-12-10|2013-09-27|Lavazza Luigi Spa|"CARTRIDGE FOR THE PREPARATION OF A LIQUID PRODUCT"|
    LU92050B1|2012-07-23|2014-01-24|Brain Corp S A|Capsule for the preparation of a drink such as a coffee capsule.|
    JP6075080B2|2013-01-24|2017-02-08|大日本印刷株式会社|Barrier film for paper container, laminate for paper container and liquid paper container containing the same|
    ES2859908T3|2014-05-23|2021-10-04|Advanced Tech Assets B V|Capsule and device for preparing drinks and method of making a capsule|EP3722087A1|2019-04-12|2020-10-14|Constantia Flexibles International GmbH|Composite film for capsule boards|
    AT522332B1|2019-07-24|2020-10-15|Constantia Teich Gmbh|Capsule board|
    IT201900019355A1|2019-10-18|2021-04-18|Goglio Spa|Multilayer cover element for sealing capsules suitable for the preparation of beverages|
    EP3819118A1|2019-11-07|2021-05-12|Ahlstrom-Munksjö Oyj|Compostable lid for sealing a beverage capsule or a beverage pad and capsules and pads sealed therewith|
    EP3819426A1|2019-11-07|2021-05-12|Ahlstrom-Munksjö Oyj|Compostable cellulose-based paper for gas barrier in packaging material|
    CN111907178A|2020-05-21|2020-11-10|周锐|High-barrier environment-friendly degradable coffee capsule cover film and preparation method thereof|
    法律状态:
    2018-05-02| PLFP| Fee payment|Year of fee payment: 2 |
    2018-11-02| PLSC| Publication of the preliminary search report|Effective date: 20181102 |
    2020-03-20| PLFP| Fee payment|Year of fee payment: 4 |
    2021-03-24| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1753723A|FR3065714B1|2017-04-28|2017-04-28|COMPOSTABLE OPERATOR COMPRISING AN OXYGEN BARRIER LAYER FOR SEPARATING A CAPSULE AND CAPSULE OBSTRUCTED BY THE OPERATOR|
    FR1753723|2017-04-28|FR1753723A| FR3065714B1|2017-04-28|2017-04-28|COMPOSTABLE OPERATOR COMPRISING AN OXYGEN BARRIER LAYER FOR SEPARATING A CAPSULE AND CAPSULE OBSTRUCTED BY THE OPERATOR|
    PCT/EP2018/060888| WO2018197676A1|2017-04-28|2018-04-27|Compostable lid comprising an oxygen barrier layer for sealing a capsule and capsule sealed by the lid|
    EP18718857.8A| EP3615325B1|2017-04-28|2018-04-27|Compostable lid comprising an oxygen barrier layer for sealing a capsule and capsule sealed by the lid|
    BR112019022277A| BR112019022277A2|2017-04-28|2018-04-27|compostable cap comprising an oxygen barrier layer for sealing a capsule and capsule sealed by the cap|
    US16/607,375| US20200140187A1|2017-04-28|2018-04-27|Compostable lid comprising an oxygen barrier layer for sealing a capsule and capsule sealed by the lid|
    CN201880028086.5A| CN110621490A|2017-04-28|2018-04-27|Compostable lid for sealing capsules comprising an oxygen barrier and capsules sealed by the lid|
    CA3061014A| CA3061014A1|2017-04-28|2018-04-27|Compostable lid comprising an oxygen barrier layer for sealing a capsule and capsule sealed by the lid|
    ES18718857T| ES2888234T3|2017-04-28|2018-04-27|Compostable lid comprising an oxygen barrier layer for sealing a capsule and capsule sealed by the lid|
    JP2019558716A| JP2020520327A|2017-04-28|2018-04-27|Compostable lid with oxygen barrier layer for sealing capsules, and capsules sealed with the lid|
    AU2018260374A| AU2018260374A1|2017-04-28|2018-04-27|Compostable lid comprising an oxygen barrier layer for sealing a capsule and capsule sealed by the lid|
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