This US non-provisional application claims priority under 35 USC §119 to Belgian Patent Application No. 2008/0318 filed Jun. 10, 2008, the content of which is incorporated herein in its entirety by reference.
1. Field of the Invention
In general, the invention relates to printed substrates, a method for manufacturing floor panels on the basis of such printed substrates, as well as to a method for manufacturing such printed substrates.
More particularly, the invention relates to a printed substrate for manufacturing floor panels of the type having at least a basic panel and a top layer with a printed decor provided on the basic panel. The print of the printed substrate includes the printed decors of a plurality of floor panels.
For example, the printed substrates may be applied for manufacturing floor panels substantially consisting of a MDF or HDF (Medium or High Density Fiberboard) basic panel and a top layer provided thereon, such as a laminate top layer.
2. Description of Related Art
Printed substrates and floor panels are well known. According to conventional wisdom, the print of the printed substrate may be printed, whether or not by the intermediary of primer layers, directly on the basic panel, wherein the basic panel then forms the substrate. Alternatively, the print may be provided on a flexible material sheet, such as a paper sheet, wherein this printed material sheet then forms the printed substrate and as such, as a so-called decor layer, is incorporated in the top layer of the floor panel. Further, it is known that the floor panel can be provided with a transparent or translucent synthetic material layer, which forms a protective layer above the printed decor and may comprise, for example, wear-resistant particles, such as aluminum oxide. It is not excluded that this protective layer also includes a material sheet, such as a paper sheet.
In the case of a laminate floor panel, manufacture may take place, for example, according to a DPL (Direct Pressure Laminate) or HPL (High Pressure Laminate) technique. In the case of a DPL technique, one or more material sheets provided with resin, amongst which is a printed material sheet forming a decor layer, are positioned, together with the basic panel or with a larger basic board, in a press device. And by means of a press element and under the influence of increased pressure and temperature, the material sheets are connected to each other as well as to the basic board. In the case of an HPL technique, the top layer is formed separately on the basis of two or more material sheets provided with resin, amongst which is a printed material sheet forming a decor layer. Subsequently, the top layer is provided on the basic board, for example, by being glued on the basic board.
When printing printed substrates, more particularly, when printing decor papers for laminate floor panels, it is known to work with so-called “plank effects”, wherein the print shows areas of different tint, wherein these areas each time correspond to the printed decor of a floor panel. Applying areas of different tint in the print leads to a high color-richness in a floor covering composed on the basis of floor panels with such printed decors of different tint. However, the known application of plank effects requires a relatively accurate division of the printed substrate in said areas and requires a different printed substrate for each format of floor panel, as the size of said areas has to correspond to the format of the floor panels.
Further, it is known to apply a continuous gradual tint modification in the print of printed substrates over the entire width of the substrate, which results in a rather limited increase of the color-richness in a floor covering composed on the basis of floor panels with such printed decors, wherein, however, an accurate division of the printed substrate is not required. A disadvantage of such printed substrates, however, is that in the printed decor of each floor panel a continuous gradual tint modification is present, which can result in an unnatural appearance.
The present invention aims at an alternative printed substrate for manufacturing floor panels, wherein, according to various example embodiments, a solution can be offered to one or more of the disadvantages or problems described above. To this aim, the example embodiments relate to a printed substrate for manufacturing floor panels having at least a basic panel and provided thereon a top layer with a printed decor. The print of the printed substrate has the printed decors of a plurality of floor panels, and the printed decors in the print of the printed substrate are grouped in stripes of equal or similar tint.
Due to the fact that the printed decors are grouped according to their tint, a smoother division of the printed substrate in the separate printed decors becomes possible, whereas still a full-value plank effect is maintained. Preferably, the printed decors of two or more floor panels are obtained from a single stripe, wherein dividing the print into these two or more printed decors then can be performed in a less accurate manner. Moreover, the stripe can be divided at choice into several formats of printed decors, such that it will also be profitable in the logistic range in respect to the amount of printed substrates that must be kept in stock. The respective printed decors may be obtained from portions of the stripe concerned located next to each other as well as located after one another. Such arrangement in groups for performing the print also allows a simpler printing process. The aforementioned tint can be obtained, for example, by means of a fond print performed in stripes on the respective substrate, over which a motif print is applied.
Applying a “fond print” or a “fond” means applying a substantially uniform color determining the final appearance of the printed decor. This may relate to a color layer situated beneath the motif print and exerting an influence on the color of the motif print, or to a color layer representing the basic color of the decor concerned. As aforementioned, the fond can be realized by means of a print. Other techniques, such as applying a motif print on a colorized material sheet, which then forms the fond, are not excluded.
It is noted that group-wise arranging printed decors in stripes of equal or similar tint does not exclude that several stripes of the same tint are formed. Preferably, however, all printed decors of equal or similar tint are situated in the same stripe on the printed substrate.
Preferably, the stripes extend with their longitudinal direction in the longitudinal direction of the substrate. In this manner, it is obtained that printed decors for floor panels of different length can be obtained from the same printed substrate.
The printed substrate preferably is applied for manufacturing oblong rectangular floor panels with a like printed decor, wherein these printed decors preferably extend with their longitudinal direction in the longitudinal direction of the stripes. Preferably, the width of the stripes is such that several of such printed decors extend next to each other in the stripe. Of course, it is not excluded that the printed substrate is applied for manufacturing square floor panels with a like printed decor, wherein these printed decors are situated in longitudinal direction of the stripes preferably at least one after the other.
Preferably, the width of all stripes is equal or approximately equal. According to this embodiment, any number of printed decors can be obtained from each stripe. Preferably, the width of the stripes is approximately equal to an even number of times the final width of a floor panel. It is desirable to deviate from the exact coincidence, as material can be removed from the printed substrate when subdividing the latter and/or when finishing the floor panels concerned. For example, it is possible to provide extra material for providing coupling means at the edges of the floor panel.
In a preferred embodiment, the printed substrate is intended for manufacturing floor panels with a printed decor representing a wood motif. Preferably, the print of the printed substrate in width direction of each stripe shows the motif of only a single wooden panel. This means that the depicted wood nerves, wood pores and/or other wood characteristics extend continuously over the stripe in width direction. A stripe with such a wood motif can be subdivided in width direction at choice. In this manner, the respective printed substrate can be applied for realizing floor panels of a plurality of widths.
Preferably, the print of the stripes is constructed of a uniform or virtually uniform background color or fond print and a motif or motif print preferably repeating itself in length direction. Such a print allows for a simple manufacture of the printed substrate.
It will be appreciated that the printed substrate may implement supports of various possible kinds.
According to a first possibility, the substrate may implement a support in the form of a flexible material sheet, such as a paper sheet, which, for example, forms part of a rolled-up printed material web. The material sheet or material web or a portion thereof can be applied as a decor layer in a laminate floor panel. To this aim, for example, the above-mentioned DPL technique may be implemented. Documents WO 91/06728 and WO 2006/074831 show examples of decor paper sheets known from the state of the art.
According to a second possibility, the substrate may implement a support in the form of a board material, on which the print, whether or not with intermediate layers, is applied directly. This may relate, for example, to printing a wood-based board material, such as MDF or HDF (Medium Density Fiberboard or High Density Fiberboard). Directly printing wood-based board materials is known as such, for example, from EP 1 862 304.
For performing the print, any printing technique can be applied, such as, for example, rotation offset printing, screen printing or a digital printing technique, such as inkjet printing.
Example embodiments also relate to a method for manufacturing floor panels. The method involves dividing the printed substrate, wherein at least one of the stripes is subdivided in width direction.
By virtue of the printed substrates according to example embodiments of the present invention, floor panels of different formats can be obtained from the same stripe by subdividing the printed substrate. In the case of the above-mentioned first possibility for the substrate, the printed flexible material sheet or a portion thereof preferably first is provided on the basic board before this material sheet, together with the basic board, is divided. As a basic board, a wood-based board material, such as MDF or HDF, can be suitably implemented. Applying the material sheet or the respective portion thereof on this basic board preferably is performed by means of a DPL technique.
Example embodiments also relate to a method for manufacturing a printed substrate. The method involves providing a fond print on the substrate according to the stripes. The fond print preferably is a print of uniform or approximately uniform color and can be performed, for example, by means of the technique of rotation offset printing.
Example embodiments also relate to coated panels including a printed substrate or a part of a printed substrate, printed substrates, and floor panels, respectively obtained by exemplary methods disclosed herein.
Although the printed substrates and the methods according to example embodiments of the invention are intended in particular for floor panels, it is within the reach of those skilled in the art to apply the teachings disclosed herein for other panels, too, such as wall panels, ceiling panels and the like. In case the disclosed teachings are applied in respect to floor panels, this preferably relates to floor panels which can be applied for composing a floating floor covering. To this aim, the floor panels, at least at two opposite edges and preferably at all edges, include mechanical coupling means by which two floor panels can cooperate with each other, wherein a locking is created in a vertical direction perpendicular to the plane of the floor covering as well as in a horizontal direction in the plane of the floor covering and perpendicular to the coupled edge. Such mechanical coupling means are known as such, for example, from WO 97/47834.
With the intention of showing the characteristics of the invention, hereafter, as an example without any limitative character, several example, non-limiting embodiments are described, with reference to the accompanying drawings, wherein:
It will be appreciated that the number of stripes in a given substrate is not limited. The width B of each of the stripes 4A-4B-4C approximately corresponds to the width of one or more floor panels, and preferably to the width of at least two floor panels. Of course, material to be removed when dividing the printed substrate 1 and further finishing the floor panels can be taken into account here. Preferably, the printed substrate 1 comprises at least three stripes 4A-4B-4C and a maximum five stripes, wherein all stripes preferably have substantially the same width B or wherein, in other words, they can all be applied for forming an identical number of floor panels.
The printed substrate 1 of
The dashed lines 7 show that the printed substrate 1 may be divided into a plurality of printed decors 3. According to the desired format of the final floor panels, each time one or more floor panels can be manufactured on the basis of the width B of the stripes 4A-4B-4C. By way of example only, the stripe 4A on the left hand side of the figure may be divided into 4 adjacent relatively narrow panels; the stripe 4B in the center of the figure may be divided into 3 adjacent panels of relatively medium width; and the stripe 4C on the right hand side of the figure may be divided into two adjacent, relatively wide panels. It will be appreciated that each stripe in the substrate 1 may be divided into a different number of panels (as shown) or the same number of panels.
An interesting possibility is created, for example, when a stripe can be divided at choice into at least 2 floor panels having a width of 14 to 16 cm, or at least 3 floor panels having a width of 9 to 11 cm, or at least 5 floor panels having a width of 6 to 7 cm, almost without waste, however, taking into account the material possibly to be removed. This is possible, for example, when the width of the stripe is situated between 30 and 40 cm or when the width of the stripe approximately corresponds to a multiple of 35 cm.
By way of example only, the length of the printed decors or of the floor panels may vary between 40 and 240 centimeters, wherein a length of 100 to 140 centimeters is preferred. A length of 100 to 140 centimeters approximately corresponds to the circumference of standard printing cylinders which can be applied in rotation offset printing, such that a repetition of the motif over this length is simple to avoid.
Although the transitions 8 among the different stripes 4A-4B-4C are represented clearly in the example, in practice techniques can be applied for blurring them, for example, by having the prints 2 of adjacent stripes at such transition 8 gradually merge into each other.
The substrate 1 can implement a support of the previously mentioned first possibility (i.e., a printed, flexible material sheet) or second possibility (i.e., a printed board material). In the case that a substrate 1 of the first possibility is concerned, namely, a flexible material sheet, this material sheet preferably, either entirely or partially, is applied as a decor paper for manufacturing floor panels by means of a DPL technique.
The printed substrate 1 or a portion thereof can be applied, for example, for manufacturing the floor panel 9 of
The floor panel 9 of
As shown in
In the case of the floor panel 9 from
It is clear that when in the foregoing, a different tint is mentioned, this relates to tints of a same general decor. For example, this may concern floor panels all representing a naturally varnished oak wood plank as a general decor, however, wherein the individual decors of the floor panels have different tints or degrees of darkness. Providing such tint differences, or “plank effects”, provides for higher natural color richness in a floor covering composed on the basis of such floor panels.
For the sake of clarity, it is also noted that a typical width for a printed substrate according to example embodiments of the invention can be situated between 1.5 and 3 meters.
The present invention is in no way limited to the above-described example embodiments; on the contrary, such printed substrates and methods may be realized according to numerous and varied embodiments, without departing from the spirit and scope of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2008/0318 | Jun 2008 | BE | national |