Patent Application
20210001374
The present invention deals with a method for manufacturing a floor tile with a wood based substrate, notably panels and boards, in particular based on wood fibers such as MDF (Medium Density Fiberboard) or HDF (High Density Fiberboard) substrates on which a décor is formed by digital printing.
The invention also deals with a floor tile with a wood based substrate, obtainable using such a method.
Digital printing refers to methods of printing from a digital based image directly to the substrate. It usually refers to professional printing where small run jobs from desktop publishing and other digital sources are printed using large format and/or high volume laser or inkjet printers. Digital printing has a higher cost per printed object than traditional offset printing methods but this price is usually offset by the cost saving achieved by avoiding all the technical steps in between needed to make printing plates.
In order to obtain high quality, the décor may be printed on a separate support of paper or fleece which is applied onto the substrate. Indeed, while a basic layer may be applied in order to ensure sufficient adherence of the applied inks, such basic layers may affect the printing quality. Indeed, a porous layer may absorb the ink leading to insufficient covering while a non-porous basic layer may lead to their coalescence and affect color quality. The use of a separate support for printing however makes the process more costly and complex.
Usually the substrate comprises a core layer and an upper layer which is made of wood or derived from wood. When the upper layer thickness is relatively small and lies for example between 0.5 and 2 mm, it is usually referred to as “veneer”, and when the thickness is larger, for example between 2.5 and 4 mm it is usually referred to as ‘wooden lamellas’. The veneer is selected for having a nice aspect, devoid of any visible imperfections.
In a known solution, a single piece of veneer covers the core layer of the tile. In this case, the dimensions of the veneer are those of the tile, typically 2 m×18-22 cm×2-3 mm
As a consequence, the veneer, and consequently the tile, are rather expensive. In order to obtain tiles at a more competitive cost, several pieces of veneer are used for covering the core layer. In this solution, each single piece has a smaller surface than the tile. For a same quality, these smaller pieces cost less than the large ones, so that production costs are decreased. However, the visual aspect of the tile is not as good, for the junctions between the pieces of veneer tend remain visible, which gives the user an impression of lower quality.
An aim of the invention is to provide a floor tile at competitive cost, providing the user with an impression of better quality.
To this end, the invention proposes a method for the manufacture of a floor tile comprising at least the following successive steps:
In other embodiments, the method may comprise one or several of the following features, taken in isolation or any technically feasible combination:
The invention also relates to a floor tile comprising:
In other embodiments, the floor tile comprises one or several of the following features, taken in isolation or any technically feasible combination:
The invention and its advantages will be better understood upon reading the following description, given solely by way of example and with reference to the appended drawing, in which the FIGURE is a schematic cross sectional view of a floor tile according to the invention.
With reference to the FIGURE, a floor tile 1 is described.
The floor tile 1 has a thickness E along a direction N perpendicular to the floor tile. The floor tile 1, in view along the direction N, may have any shape allowing paving a floor (not represented): rectangular, square, triangular, hexagonal . . . etc. The floor tile 1 is intended to be applied on the floor adjacent to other tiles (not represented) having the same shape or composition, or different ones. Advantageously the floor tile 1 includes locking tabs (knows in themselves and not represented) enabling to connect it to adjacent tiles.
Successively in the direction N, the floor tile 1 comprises a substrate 2, a coating 5, a primer layer 7 located on the coated substrate, a décor 9 digitally printed on the primer layer, and a top coat 11 located on the décor.
The substrate 2 comprises a core layer 3, and an upper layer 4 forming a veneer applied on the core layer. The thickness of the substrate 2 for example ranges from 1.8 to 2.2 mm The substrate 2 has an upper surface 13 which has advantageously been sanded, in order to promote the adherence between the substrate and the coating 5.
The core layer 3 may be chosen from the group consisting of panels and boards. wood based boards, in particular wood-fiber boards are preferably used.
In one embodiment, the core layer 3 is chosen from the group consisting of HDF, MDF, cardboards, WPC (Wood Plastic Composite) and soft wood ribs. In particular, the substrate is HDF.
The upper layer 4 is for example formed by several pieces of veneer adjacent perpendicularly to the direction N, of which two pieces 4A, 4B are represented on the FIGURE.
The upper layer 4 is for example made of wood, or derived from wood. The veneer is selected for having a nice aspect, normally devoid of any visible imperfections.
The two pieces 4A, 4B defines a junction 4C between themselves.
As a variant (not shown), the upper layer is made of a single piece of veneer.
The coating 5 is located on the upper surface 13. The coating 5 comprises a first layer of coating 15 located on the upper surface 13, and a second layer of coating 17 located on the first one. The coating 5 has an upper surface 19 which has advantageously been sanded. The thickness of the coating 5 is between 30 and 40 microns when finalized.
The first layer of coating 15 contains a hardener and has been cured by UV rays.
In a particular embodiment, the first layer of coating 15 only contains the hardener.
The hardener is for example an additive, preferably an isocyanate which advantageously reacts with the moisture of wood fibers of the core layer 3.
The hardener promotes the bound between wood fibers and the coating 15. The hardener may contain a mix of hexane,1,6-diisocyanato-homopolymer and/or hexamethylene-di-isocyanate.
According to a particular embodiment, the hardener is made of said mix.
The second layer of coating 17 is for example a filler which has been cured using UV rays. The filler is for example a thixotropic UV curable coating based on acrylate functionalized resin, such as urethane, polyester, or epoxy. The filler is used to fill the pores of the core layer 3 and/or the first layer of coating 15 before applying the primer 7.
The primer 7 is advantageously white.
The décor 9 comprises one or several UV inks. The used inks may comprise cyan, magenta, yellow and black inks, but advantageously no white ink. The quantity of inks used is in total between 30 and 50 g/m2 and more preferably between 35 and 40 g/m2. The thickness of the primer 7 and the décor 9, taken altogether, is between 25 and 30 microns.
A method for producing floor tiles such as the floor tile 1 will now be described. First the wood based substrate 2 is obtained. Ways to obtain such a substrate are known to the skilled person and will not be described.
Then the upper surface 13 of the substrate 2 is sanded.
The coating 5 is then applied on the upper surface 13.
To that end, the first layer of coating 15 is applied on the sanded upper surface 13, and cured using UV rays (not represented). Curing is performed in a manner known in itself. Preferably, the applied amount of dry film is between 15 and 40 g/m2.
The second layer of coating 17 is applied on the first layer of coating 15, and the filler is cured using UV rays. Preferably, the applied amount of dry film is between 10 and 50 g/m2.
Thanks to the coating, the junction 4C or the imperfections of the veneer will not be perceived one the tile 1 is finished.
The upper surface 19 of the substrate 5 is then advantageously sanded, and the primer layer 7 is applied on the upper surface. Preferably, the applied amount of dry film is between 10 and 60 g/m2. The primer layer 7 facilitates future application of the inks.
The décor 9 is then printed on the primer layer 7. This is advantageously carried out using a Drop-on-Demand inkjet system, for example using UV ink. Advantageously, only cyan, magenta, yellow or black inks are used, but no white ink.
The top coat 11 is finally applied on the décor 9. Preferably, the applied amount of top coat, once dry, is between 5 and 12 g/m2. The thickness of the top coat 11 is between 40 and 50 microns.
In particular embodiments, the obtained panel is cut into smaller pieces forming the tiles.
Thanks to the above features, imperfections due to the junction between the pieces 4A, 4B of veneer, or due to a lower quality of the veneer are masked by the coating 5. Hence the floor tile 1 provides the user with an impression of better quality at more competitive cost.
The invention provides a parquet with “laminate” design on top. The obtained parquet looks very natural. It also allows a variety of design effects, such as like with a laminate product.
The obtained floor tiles are cheaper compared to corresponding standard wood products, and have an equal durability, thanks to the top coat.
Environmental aspect of the obtained floor tiles is also really positive, since about twice less veneer raw material is used in order to produce high quality tiles with several pieces of veneer in each tile.
As an example, the first layer of coating 15 may by a mixture of the UV SEALER 583 and the HARDENER 896 from AkzoNobel.
The second layer of coating 17 may be the UV FILLER 576 from AkzoNobel.
The primer 7 may be the UK1373-9001 from Sherwin-Williams.
The top coat 11 may be a lacquer from AkzoNobel, such as UV TOP COAT NATURA, UV TOP COAT PROTECO or UV TOP HIGH GLOSS.
Obtain the substrate,
Apply the first layer of coating 15 with hardener and then cure the first layer of coating,
Apply the second layer of coating 17 with the filler and then cure the second layer of coating,
Sand the upper surface,
Change of line for performing digital printing on the white primer 7 and then curing of the UV inks,
Go back to the first line and print the décor 9 using UV inks and then cure the UV inks,
Apply the top coat 11 and then cure it.
| Number | Date | Country | Kind |
|---|---|---|---|
| 17206486.7 | Dec 2017 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2018/084131 | 12/10/2018 | WO | 00 |
