• 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:
    Floor covering comprising a multilayer structure comprising at least successively a wear layer, a decorative layer and an underlayer, the decorative layer being in the form of a nonwoven textile sheet impregnated with a binder and one of whose faces includes an ink-printed decoration. The invention also relates to a method for obtaining such a floor covering.
    公开号:FR3052176A1
    申请号:FR1655117
    申请日:2016-06-06
    公开日:2017-12-08
    发明作者:Charles Ferlay;Gwenaelle Charles
    申请人:Gerflor SA;
    IPC主号:
    专利说明:

    SOIL COATING COMPRISING INK JET PRINTED DECORATION
    Technical area
    The present invention relates to the technical field of floor and wall coverings using polyvinyl chloride materials or the like and, more particularly, to a floor covering comprising an inkjet printed decoration and its method of manufacture.
    Previous art
    In the field of flooring, it is well known composite slabs or blades based on at least one plastic layer, for example polyvinyl chloride (PVC). Such floor coverings usually comprise on the surface at least one plastic transparent wear layer essentially based on PVC, in which at least one so-called plastic decor layer, optionally foamed, is printed on which is printed. a pattern or a decoration by gravure, with a so-called support layer generally consisting of a nonwoven web, of glass fibers for example, embedded in a plastic material such as PVC. Incidentally, the floor covering may comprise under the support layer a resilient sub-layer consisting, for example, of foam.
    The patterns or decorations are thus printed by a rotogravure process on a decorative layer. Photogravure is an intaglio printing process in which the ink is transferred directly from the engraved metal cylinder to the decorative layer, which is particularly suitable for very long runs of floor coverings. However, to make patterns and decorations, it is often necessary to use several engraved metal cylinders which, when not in use, must be stored, thereby burdening the manufacturing costs. However, these metal cylinders are particularly bulky. Furthermore, it is necessary to engrave new metal cylinders for each new pattern or decor so that, the manufacture of new metal cylinders being expensive and often time consuming, the cost of manufacturing the floor coverings is encumbered.
    In order to overcome these disadvantages, a well known solution is to use inkjet printing processes which have the advantage of allowing a change of pattern or decor that is quick and inexpensive. These processes use in particular solvent inks which, although having good chemical compatibility with the wear layer, result in high emissions of volatile organic compounds (VOCs), which are toxic and harmful to the environment. Other techniques, especially used in laminate floors, employ photocure inks protected by a layer of polyester resin. However, this layer of polyester resin is rigid after drying so incompatible with soft floors.
    Another inkjet printing solution consists of the use of inks without solvent, in aqueous base, not emitting volatile organic compounds; however, these solvent-free inks have the disadvantage of not being chemically compatible with the support layer and the wear layer so that delamination of the support and wear layers occurs rapidly.
    A solution using a solvent-free photocrosslinkable ink was disclosed in applicant's EP 2875949. For this purpose, the method proposed in said application is remarkable in that the pigment ink used is a solvent-free liquid ink deposited on the wear layer or on the support layer and covered with a bonding layer, said layer of bond being chemically compatible with the solid state ink forming the decor printing layer and with the support layer or the wear layer. The solventless liquid pigment ink is, for example, an ink comprising urethane acrylates and / or ester acrylates. On the other hand, the bonding layer is for example made of a material comprising an emulsion of acrylic and urethane and / or an acrylic copolymer. However, this method is complex insofar as it requires the use of a bonding layer as a primer, thus lengthening the manufacturing processes and increasing their costs.
    One of the aims of the invention is thus to remedy these drawbacks by proposing a floor covering, and its method of manufacture, of simple and inexpensive design, comprising a printing layer obtained by a an ink jet printing process that can be compatible with inks that do not emit volatile organic compounds (VOCs) and that can be flexible, in particular to be presented in a roll. The invention can also be applied to the realization of wall cladding.
    Another advantage of the invention is to provide a floor covering having good delamination properties. For this purpose and in accordance with the invention, there is provided a floor covering comprising a multilayer structure comprising at least successively a wear layer, a decorative layer and an underlayer, the decorative layer being in the form of a non-woven fabric sheet impregnated with a binder and one of whose faces comprises an ink-printed decoration.
    The flooring thus obtained has a quality of decor comparable to conventional techniques using gravure, while allowing to print the decorative layer by an inkjet printing process, also called digital printing process. The combination of a binder and a nonwoven fabric sheet forms a printing medium particularly compatible with inkjet printing techniques. The projected ink penetrates the nonwoven textile sheet without however spreading thanks to the low volume deposited by this technique. The binder makes it possible to make the bond between the nonwoven textile sheet and the printed ink compatible with the wear layer and / or, where appropriate, the underlayer. This compatibility is ensured regardless of the type of ink used, especially with water-based inks.
    Advantageously, the nonwoven fabric sheet is made from natural fibers, synthetic fibers, or synthetic mineral fibers.
    The sheets of nonwoven fabric are preferably obtained by papermaking. This known method uses a latex-type mixture containing water, surfactants and fibers, the mixture being spread on a blowing conveyor. The water of this mixture is then evacuated to obtain a wet sheet. This is then detached from the conveyor to be dipped in an inkwell containing the binder. The binder then impregnates the wet sheet. The nonwoven fabric sheet is then obtained following an additional drying step.
    The sheets of nonwoven fabric that can be used according to the present invention are, in particular, sheets of nonwoven fabric made from natural fibers such as cellulose, cotton, linen fibers, or synthetic fibers such as polyester fibers, aramid, ex Name, ethylene polynaphthalate, polyethylene terephthalate or equivalent, or synthetic mineral fibers such as glass fibers or basalt fibers.
    Natural fibers are available at low cost and improve dimensional stability, as these fibers are less sensitive to temperature changes. Synthetic fibers make it possible to improve the flexibility of the floor covering formed according to the desired applications.
    Advantageously, the nonwoven fabric sheet is made from a mixture of natural fibers and synthetic fibers and / or synthetic mineral fibers. The use of such a mixture makes it possible to increase the peel strength of the floor covering obtained according to the invention, while presenting a good impression of the decorative layer. The mineral fibers both improve the dimensional stability of the formed flooring as well as its peel strength. The use of water-based ink is also possible, the binder of the non-woven textile sheet allowing better adhesion with the wear layer and / or the underlayer. The resulting floor covering can also be flexible for roll applications, or more rigid for slab applications, for example by modifying the composition of the underlayer and / or the wear layer, and / or the proportions fiber and binder.
    Advantageously, the nonwoven fabric sheet is made from a mixture comprising 20 to 80% of natural fibers and 80 to 20% of synthetic fibers. These proportions have particularly satisfactory qualities of peel strength of the flooring. Alternatively, the use of at least 20% of natural fibers in combination with at least 20% of synthetic fibers also improves the peel strength of the resulting flooring.
    Advantageously, the nonwoven fabric sheet is made from a mixture comprising 20 to 80% of natural fibers and 80 to 20% of synthetic mineral fibers. Alternatively, the use of at least 20% of natural fibers in combination with at least 20% of synthetic mineral fibers also improves the peel strength of the resulting flooring as well as its dimensional stability.
    The inks that can be used with the invention can be of different types, including dye inks or pigment inks. These inks can also be photocurable, water-based or solvent-based.
    Advantageously, the nonwoven fabric sheet comprises 15 to 50% total weight binder of the nonwoven fabric sheet. The proportion of total weight binder of the nonwoven fabric sheet may be adapted depending on the mixture of natural and synthetic and / or synthetic mineral fibers used. However, it is generally preferable to use a nonwoven fabric sheet comprising 20 to 50%, more preferably 30 to 50% total weight binder of the nonwoven fabric sheet to improve peel, and this for most types of fiber and binder used.
    Binders that can be used according to the present invention include heat-crosslinkable binders such as ethylene-vinyl acetate (EVA) binders. By way of examples, the binders that can be used are also styrene-acrylic (SA) -based binders or acrylic-based binders such as polyvinyl acetate (PVAC) or polyvinyl chloride (PVC) or still any equivalent thermoplastic binder.
    Advantageously, the nonwoven textile sheet has a basis weight of between 20 and 80 g / m 2, preferably between 20 and 40 g / m 2. It is indeed preferable to use a sheet of nonwoven fabric having a relatively light basis weight, especially between 20 and 40 g / m2, which may however vary by a few grams. A sheet of nonwoven fabric whose weight is between 20 and 40 g / m2 limits the risk of delamination of the flooring due to the nonwoven fabric sheet. This low weight ensures good penetration of the underlayer and the wear layer during the complexing and / or coating of a plastisol on the nonwoven fabric sheet.
    The combination of a grammage of between 20 and 40 g / m2 and a binder proportion of between 20 and 50% makes it possible to limit the appearance of bubbles during the manufacture of the floor covering while guaranteeing good resistance to coat.
    Advantageously, the nonwoven fabric sheet comprises a face facing the underlayer which face is bonded to a reinforcing reinforcement. This reinforcing reinforcement notably improves the dimensional stability of the flooring. The combination of a grammage of between 20 and 40 g / m 2 and a binder proportion of between 20 and 50% makes it all the more possible to limit the appearance of bubbles due to the presence of a reinforcing reinforcement when the manufacture of flooring while ensuring good peel strength. The invention also relates to a flooring manufacturing method comprising a multilayer structure successively including at least one wear layer, a decorative layer and an underlayer. The method according to the invention consists in printing a decoration on one of the faces of a non-woven textile sheet impregnated with a binder, by means of an ink jet printer projecting a liquid ink to form the decor layer, and to bond together the wear layer, the decor layer and the underlayer to form the multilayer structure of the flooring.
    Conventional techniques for bonding together the wear layer, the decor layer and the underlayer can be employed. As examples, these layers can be bonded by rolling, gluing, hot gluing, pressing, coating.
    Advantageously, the method according to the invention comprises at least one step consisting in: coating the undercoat on a lower face of the decorative layer, and / or coating the wear layer on an upper face of the decorative layer. The invention also relates to the use of an ink jet printing method for printing a decoration on one side of a binder-impregnated nonwoven textile sheet in a manufacturing process. floor covering comprising a multilayer structure successively including at least one wear layer, a decorative layer and an underlayer.
    BRIEF DESCRIPTION OF THE FIGURES Other advantages and features will become more apparent from the following description of several variant embodiments, given by way of non-limiting examples, of the flooring and its manufacturing method according to the invention. with reference to the appended drawing in which: - Figure 1 illustrates, schematically and in cross section, an embodiment of a multilayer structure according to the invention for producing a floor covering;
    DETAILED DESCRIPTION OF THE INVENTION The invention relates to a floor covering comprising a multilayer structure comprising a decorative layer (2). The floor covering according to the invention is of simple and inexpensive design and comprises a printing layer obtained by an inkjet printing process. The floor covering according to the invention can be compatible with inks which emit no volatile organic compounds (VOCs), in particular aqueous base inks. The flooring according to the invention may have any type of shape, especially in panel or slab or in flexible form, in particular to be presented in roll. Possible applications of the flooring according to the invention may be aeronautics or floors for buildings receiving the public.
    With reference to FIG. 1, the floor covering according to the invention comprises a multilayer structure comprising at least successively a wear layer (1), a decorative layer (2) and an underlayer (4). The decorative layer (2) is in the form of a non-woven textile sheet (3) impregnated with a binder and one of whose faces comprises an ink-printed decoration. The printing of the decoration of the nonwoven textile sheet is performed by an inkjet printing process.
    Thus, the structure of the flooring according to the invention remains simple while having a visual appearance comparable to floor coverings whose decorative layer is printed by gravure.
    Of course additional layers can be added to the multilayer structure without changing the object of the invention. By way of example, the multilayer structure may comprise a balancing layer bonded to the underlayer and intended to be in contact with the ground. This balancing layer may in particular be of plastic material, such as polyvinyl chloride, and preferably of a thickness of 2 mm. To satisfy, for example, the U4 P3 classification of the French UPEC standard, the balancing layer has a Shore A hardness of between 80 and 95. This balancing layer may also be made of PVC or polyurethane foam to impart properties of acoustic and / or thermal insulation to the floor or wall covering. In the case where this balancing layer is foam, its density is between 0.2 and 0.9.
    According to another particular embodiment, the wearing layer according to the invention may comprise a varnish, positioned on the face of the wear layer intended to be in contact with the user. This optional protective layer may make it possible to improve the properties of resistance to scratching of the product, or of resistance to stains, for example. In addition, it can also bring a more matte surface appearance to the product, which can be sought in certain fields of application. It may especially be based on polyurethane or acrylic or their mixtures; and advantageously have a basis weight of between 5 and 50 g / m2.
    Another advantage of the invention is to provide a floor covering having good delamination properties.
    The grammage of the nonwoven fabric sheet is also important, so it is not desirable to use a nonwoven fabric sheet having a basis weight greater than 80 g / m 2 as this may decrease the resistance to delamination.
    Advantageously, the grammage of the nonwoven textile sheet is between 20 and 80 g / m 2, preferably between 20 and 40 g / m 2 so as to obtain a printed decoration having a good visual appearance and a floor covering having good resistance to delamination.
    Advantageously, the characteristics of the wear layer and / or the sub-layer of the flooring according to the invention are as follows:
    In terms of their composition, they conventionally comprise a polymer. The most conventionally used polymer is polyvinyl chloride (PVC), optionally in combination with polyvinylbutyrate (PVB), or polyvinyl acetate (PVA). Polyurethane (PU) is also an alternative to PVC, obtained by crosslinking between castor oil or glycerol and an isocyanate, as described in patent EP 2 307 609. Another alternative relates to the use of linoleum.
    They may also contain at least one additive selected from the following group: plasticizers, mineral fillers, thermal stabilizers or UV, desiccants, lubricants, processing aids, pigments, flame retardants.
    The mineral fillers may be selected from the group consisting of calcium carbonate, chalks, kaolin, barium sulfate, talc, aluminum trihydrates, wood or cork flour, or silica.
    The plasticizers may be chosen from the group comprising orthophthalates of high molecular weight such as DIDP (di-iso-decyl phatlate), terephthalates, sebacates (for example dibutyl sebacate or DBS) and adipates.
    Preferably, and to increase the mechanical performance and punching and rolling resistance and to allow a better dimensional stability of the floor covering over time, the nonwoven fabric sheet (3) comprises a face facing the sub-surface. layer (4) which face is bonded to a reinforcing reinforcement (5) such as a grid or a sheet of glass.
    This reinforcing reinforcement (5) is for example in the form of a grid or a grid of textile threads of negligible thickness, or a glass mat. The textile threads of said reinforcing reinforcement (5) preferably have a grid with a texture larger than 2 × 2 and whose title of the weft and warp threads is between 34 and 136 tex. The reinforcing reinforcement (5) increases the mechanical performance and resistance to punching and rolling of the flooring. The reinforcing reinforcement (5) ensures a better dimensional stability of the coating over time. According to another technique, the reinforcing reinforcement (5) can be embedded in the upper face of the underlayer (4), which underlayer (4) is then secured to the face of the nonwoven fabric (3). ) facing the underlayer (4).
    Tests were carried out by the applicant, with twelve examples of different multilayer structures, namely constructions # 1 to # 12, in which several types of nonwoven textile sheet (3) were tested, in order to measure the value delamination of said nonwoven textile sheet to the underlayer (3) and / or the wear layer (1).
    Each tested construction comprises, in the direction of the wear layer (1) towards the underlayer (4): - a transparent wear layer (1) made from PVC, with a thickness of 0.65 about millimeter. - a decorative layer (2) in the form of a nonwoven textile sheet impregnated with a binder and one of whose faces comprises an ink-printed decoration. an underlayer made from PVC (4) with a thickness of approximately 0.90 millimeters. The total thickness of each construction thus obtained is about 2 mm.
    Each of the wear layers or underlayer can be achieved independently by pressing, calendering or coating. The various constructions can then be made by bonding the wear, decoration and undercoating layers by complexing. Alternatively, the wear layers and / or sublayers can be obtained by coating on a conventional support and then complexed, and / or by coating on the nonwoven textile sheet.
    Each wear layer or underlayer may optionally be grained.
    The binders tested are in particular heat-crosslinkable binders such as ethylene-vinyl acetate (EVA) -based binders, acrylic styrene-based binders (SA) or acrylic-based binders (A). Other types of binders may be used, especially binders based on polyvinyl acetate (PVAC) or polyvinyl chloride (PVC).
    For each of the constructions from # 1 to # 12, the percentage of binder is given in total weight of the nonwoven fabric sheet (3) obtained.
    The constuction # 1 comprises a nonwoven fabric sheet whose fibers are a mixture of 65% cellulose fibers and 35% polyester fibers and whose binder proportion is 20%, the binder being an EVA binder. The grammage of the nonwoven fabric sheet thus obtained is 25.1 g / m 2.
    The constuction # 2 comprises a nonwoven fabric sheet whose fibers are a mixture of 70% cellulose fibers and 30% polyester fibers and whose binder proportion is 20%, the binder being an SA binder. The grammage of the nonwoven fabric sheet thus obtained is 20.3 g / m 2.
    Construction # 3 comprises a nonwoven fabric sheet whose fibers are a mixture of 65% cellulose fibers and 35% polyester fibers and whose binder proportion is 20%, the binder being an SA binder. The grammage of the nonwoven fabric sheet thus obtained is 30.2 g / m 2.
    Constitute # 4 comprises a nonwoven fabric sheet whose fibers are a mixture of 80% cellulose fibers and 20% polyester fibers and whose binder proportion is 35%, the binder being an SA binder. The grammage of the nonwoven fabric sheet thus obtained is 25 g / m 2.
    Constitute # 5 comprises a nonwoven fabric sheet whose fibers are a mixture of 55% cellulose fibers and 45% polyester fibers and whose binder proportion is 45%, the binder being an SA binder. The grammage of the nonwoven fabric sheet thus obtained is 30 g / m 2.
    Construction # 6 comprises a nonwoven fabric sheet whose fibers are a mixture of 26% cellulose fibers and 74% polyester fibers and the binder proportion is 30%, the binder being an SA binder. The grammage of the nonwoven fabric sheet thus obtained is 35 g / m 2.
    The constuction # 1 comprises a nonwoven fabric sheet whose fibers are a mixture of 22% of cellulose fibers and 78% of polyester fibers and whose proportion of binder is 25%, the binder being an A binder. The grammage of the nonwoven fabric sheet thus obtained is 35 g / m 2.
    The constuction # 8 comprises a nonwoven fabric sheet whose fibers are a mixture of 41% cellulose fibers, 44% polyester fibers and 15% glass fibers and the proportion of binder is 25%. the binder being a binder A. The basis weight of the nonwoven fabric sheet thus obtained is 30 g / m 2.
    Construction # 9 comprises a nonwoven fabric sheet whose fibers are a mixture of 57% cellulose fibers and 42% glass fibers and whose binder proportion is 20%, the binder being an EVA binder. The grammage of the nonwoven fabric sheet thus obtained is 30 g / m 2.
    Construction # 10 comprises a nonwoven fabric sheet whose fibers are a blend of 70% cellulose fiber and 30% polyester fiber and have a binder proportion of 15%, the binder being a PVC binder. The grammage of the nonwoven fabric sheet thus obtained is 20.7 g / m 2.
    Constitute # 11 comprises a nonwoven fabric sheet whose fibers are a blend of 70% cellulose fibers and 30% polyester fibers with a binder proportion of 36%, the binder being a PVC binder. The grammage of the nonwoven fabric sheet thus obtained is 28.3 g / m 2.
    Construction # 12 comprises a nonwoven fabric sheet whose fibers are a mixture of 55% cellulose fibers and 45% polyester fibers and whose binder proportion is 36%, the binder being a PVC binder. The grammage of the nonwoven fabric sheet thus obtained is 26.6 g / m 2.
    The method according to the invention making it possible in particular to obtain the constructions # 1 to # 12 then consists in printing a decoration on one of the faces of each sheet of non-woven textile impregnated with a binder, by means of a printer ink jet projecting a liquid ink to form the decorative layer, and to bond together, for example by hot pressing the wear layer, the decorative layer and the underlayer to form the multilayer structure of the coating. ground.
    Advantageously and in order to improve the resistance to delamination between the different layers of the coating according to the invention, the floor covering according to the invention may comprise at least one wear layer and / or one underlayer obtained by coating. The method then comprises at least one step which consists in: - coating the undercoat on a lower face of the decorative layer, and / or - coating the wear layer on an upper face of the decorative layer. of the underlayer and / or the wear layer is made from a plastisol, in particular a PVC platisol. Advantageously, the viscosity of the plastisol is between 1000 and 10,000 centipoise (at about 30 ° C.), the viscosity being measured at Brookfield (20 rpm). In order to improve the penetration of the plastisol into the nonwoven fabric sheet, the viscosity of the plastisol can be decreased between 1000 and 6000 centipoise. Better penetration of plastisol improves the resistance to delamination between layers of the flooring.
    Advantageously and whether in a complexing or coating process, one or both sides of the wear layer and / or the underlayer may be grained in order to present a particular surface appearance, to improve the slip, or even improve the delamination value between layers of the flooring obtained. The ink used is a solvent-free photocurable ink of the VUTEK® superflex or VUTEK® triangle range, printed by a VUTEK® ink jet printer marketed by the company EFi. The ECO UV inks marketed by ROLAND and the aqueous base latex inks HP881 and HP891 references sold by Hewlett Packard have also been successfully tested. Since the ink is printed directly onto the nonwoven fabric sheet, different types of inks can be used while retaining good delamination values, such as dye inks or pigment inks. These inks can also be indifferently water-based or solvent-based.
    Table 1 summarizes the compositions of the nonwoven fabric sheets of constructions # 1 to # 12.
    Table 1
    Table 2 presents the delamination test results carried out on constructions # 1 to # 12, the wear and undercoat layers being obtained by calendering and then hot-complexed in a press to be bonded to each of the decorative layers.
    Table 2
    Table 3 presents the delamination test results made on constructions # 3, # 10 and # 12 obtained by coating the wear and undercoat layers on each nonwoven fabric sheet. The wear layer is also grained.
    Table 3
    The delamination value, also called the peel resistance value, is measured according to standard NF EN ISO 24345 and given in N / cm.
    These various tests and constructions demonstrate that the resistance to delamination of the flooring according to the invention is consistent for applications in the building. The appearance of the decor obtained is similar to that of decor obtained by gravure while simplifying the structure of the flooring and having good flexibility and good dimensional stability and whatever the type of ink used.
    The process of obtaining by coating used for the constructions # 3, # 10, # 11 and consisting of printing a decoration on one of the faces of a sheet of nonwoven textile impregnated with a binder, by means of a printer ink jet projecting a liquid ink to form the decorative layer, then: - coating the undercoat on a lower face of the decorative layer, and - coating the wear layer on an upper face of the layer decor allows to obtain higher delamination values and thus provides a coating for high traffic applications where the coating is particularly stressed.
    The various percentages of total weight binder of the nonwoven fabric sheet (3) tested shows good results when the nonwoven fabric sheet comprises from 15 to 50% of the total weight of the non-woven fabric sheet. woven (3).
    Advantageously and with the aim of improving the resistance to delamination, the nonwoven fabric sheet comprises from 25 to 50% by weight total binder of the nonwoven textile sheet, more preferably from 30 to 50% of binder in total weight of the nonwoven textile sheet.
    The constructions # 3, # 6, # 8, # 9, # 11, # 12 are preferred insofar as they make it possible to obtain a peel strength greater than 0.60 N / cm while allowing a good compromise in term dimensional stability, limitation of appearance of bubbles and ease of implementation.
    Buildings # 8, # 9, # 11, # 12 are particularly preferred because they provide a peel strength greater than 0.70 N / cm, allowing them to be used in very high traffic applications.
    Finally, it is obvious that the examples that have just been given are only particular illustrations in no way limiting as to the fields of application of the invention.
    权利要求:
    Claims (14)
    [1" id="c-fr-0001]
    1 - Floor covering comprising a multilayer structure comprising at least successively a wear layer (1), a decorative layer (2) and an underlayer (4), characterized in that the decorative layer (2) is in the form of a non-woven textile sheet (3) impregnated with a binder and one of whose faces comprises an ink-printed decoration by an ink-jet printing process.
    [2" id="c-fr-0002]
    2 - Floor covering according to claim 1, characterized in that the nonwoven fabric sheet (3) is made from natural fibers, synthetic fibers, or synthetic mineral fibers.
    [3" id="c-fr-0003]
    3 - Floor covering according to claim 2, characterized in that the nonwoven fabric sheet (3) is made from a mixture of natural fibers and synthetic fibers and / or synthetic mineral fibers.
    [4" id="c-fr-0004]
    4 - Floor covering according to claim 3, characterized in that the nonwoven fabric sheet (3) is made from a mixture comprising 20 to 80% of natural fibers and 80 to 20% of synthetic fibers.
    [5" id="c-fr-0005]
    5 - Floor covering according to one of claims 2 to 4, characterized in that the synthetic fibers are polyester fibers.
    [6" id="c-fr-0006]
    6 - flooring according to claim 3, characterized in that the nonwoven fabric sheet (3) is made from a mixture comprising 20 to 80% of natural fibers and 80 to 20% of synthetic mineral fibers.
    [7" id="c-fr-0007]
    7 - Floor covering according to claim 2, characterized in that the synthetic mineral fibers are glass fibers.
    [8" id="c-fr-0008]
    8 - Floor covering according to claim 2, characterized in that the natural fibers are cellulose fibers.
    [9" id="c-fr-0009]
    9 - Floor covering according to claim 1 characterized in that the nonwoven fabric sheet (3) comprises 15 to 50% binder total weight of the nonwoven fabric sheet (3).
    [10" id="c-fr-0010]
    10 - Flooring according to claim 1, characterized in that the binder is based on ethylene-vinyl acetate, acrylic styrene, acrylic or polyvinyl chloride.
    [11" id="c-fr-0011]
    11 - Floor covering according to claim 1, characterized in that the nonwoven textile sheet (3) has a grammage of between 20 and 40 g / m2.
    [12" id="c-fr-0012]
    12- Floor covering according to claim 1, characterized in that the nonwoven textile sheet (3) comprises a face facing the underlayer (4) which face is bonded to a reinforcing armature (5).
    [13" id="c-fr-0013]
    13 - Method of manufacturing a floor covering comprising a multilayer structure successively including at least one wear layer (1), a decorative layer (2) and an underlayer (4), characterized in that is to print a pattern on one side of a non-woven textile sheet (3) impregnated with a binder, by means of an inkjet printer projecting a liquid ink to form the decorative layer (2), and to bond together the wear layer (1), the decorative layer (2) and the underlayer (4) to form the multilayer structure of the flooring.
    [14" id="c-fr-0014]
    14 - Process according to claim 13 characterized in that it comprises at least one step consisting in: coating the underlayer (4) on a lower face of the decorative layer (2), and / or coating the layer of wear (1) on an upper side of the decorative layer (2).
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    同族专利:
    公开号 | 公开日
    FR3052176B1|2019-04-26|
    CN107458061A|2017-12-12|
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    US20170350142A1|2017-12-07|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR2562471A1|1984-04-06|1985-10-11|Chomarat & Cie|Material based on a non-woven textile sheet which can be used as strengthening reinforcement for waterproof coverings|
    DE102007013132A1|2007-03-15|2008-09-18|Hülsta-Werke Hüls Gmbh & Co. Kg|Method for producing a flat, printed component|
    WO2012034548A1|2010-09-14|2012-03-22|Guido Schulte|Interior fitting component for cladding and process for producing an interior fitting component|
    US20020136862A1|2000-12-11|2002-09-26|Daojie Dong|Decorative and/or flame retardant laminates and processes of manufacture thereof|
    US7837009B2|2005-04-01|2010-11-23|Buckeye Technologies Inc.|Nonwoven material for acoustic insulation, and process for manufacture|
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    DE102011080300A1|2011-08-02|2013-02-07|Surface Technologies Gmbh & Co. Kg|Method of making a decorated wall, ceiling or floor panel|
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    KR20210060496A|2018-08-30|2021-05-26|인터페이스 인크.|Digital printing for flooring and decorative structures|
    CN111055616A|2018-10-17|2020-04-24|苏州红泥新材料科技有限公司|Anti-crack texture sandwich with printed patterns and manufacturing method thereof|
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    CN110670369A|2019-10-16|2020-01-10|南通绿芭蕉纺织品有限公司|High-toughness anti-abrasion cloth|
    法律状态:
    2017-06-29| PLFP| Fee payment|Year of fee payment: 2 |
    2017-12-08| PLSC| Search report ready|Effective date: 20171208 |
    2018-06-28| PLFP| Fee payment|Year of fee payment: 3 |
    2020-06-30| PLFP| Fee payment|Year of fee payment: 5 |
    2021-06-30| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1655117A|FR3052176B1|2016-06-06|2016-06-06|SOIL COATING COMPRISING INK JET PRINTED DECORATION|
    FR1655117|2016-06-06|FR1655117A| FR3052176B1|2016-06-06|2016-06-06|SOIL COATING COMPRISING INK JET PRINTED DECORATION|
    EP17173303.3A| EP3254848B1|2016-06-06|2017-05-29|Floor covering comprising an inkjet printed decoration|
    US15/613,425| US20170350142A1|2016-06-06|2017-06-05|Flooring comprising a decoration printed by ink jet|
    CN201710418245.XA| CN107458061A|2016-06-06|2017-06-06|Include the floor of the decoration by ink jet printing|
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