FR3023943A1 - AUTOMATED ENGRAVING OF A MINERAL SURFACE BASED ON RELATED VISUAL REASONS THEREON - Google Patents

Abstract

The invention relates to an information processing system (STI) for etching a surface of mineral (M) in a visual pattern (V) present on said surface, comprising a computer tool (OI) having means for importing a digital snapshot of said mineral surface (M), means for determining a three-dimensional numerical model of said mineral surface based on colorimetric information contained in said digital snapshot, and means for automatically generating a file from said model three-dimensional digital, said file being adapted to be interpreted by a stone machining machine.

Description

FIELD OF THE INVENTION The invention relates to the field of stone engraving and more particularly marble and related minerals having visual patterns such as veins. More particularly, it relates to a method and a device for the automated etching of a mineral surface such as a plate. BACKGROUND OF THE INVENTION Marble, as well as other minerals having networks of veins, are widely used in both interior and exterior architecture and decoration, for their aesthetic and resistance qualities. Machining machines allow specialized companies to engrave marble slabs or similar minerals to give them a specific relief. This relief is usually a repetitive pattern: wavelets, notches ... It can also be a sculpture of bas-relief, for which we generally use the most uniform minerals possible. It is possible to provide the machining machines with a file indicating the engraving to be performed. This file is provided by the customer to the company specialized in engraving. This one is not concerned with the reason to print and the way to generate the file, but only aspects related to the handling of the machining machines and the handling of the marble slabs. These manipulations may include the scaling of the file depending on the type of machine tool used, the wedging of the marble plate according to the pattern, etc.

The possibilities provided by these solutions are therefore quite limited and are limited to manual or automated engraving by providing a file describing an engraving defined in advance.

SUMMARY OF THE INVENTION The object of the present invention is to provide a method and a device at least partially overcoming the aforementioned drawbacks. More particularly, the invention aims to provide a method and a device for etching a mineral surface according to its individual characteristics, that is to say intrinsic, related to its geological formation. For example, the etching may be a function of the network of veins that the mineral surface has, especially in the case where the mineral is marble. To this end, the present invention provides a method of etching a mineral surface (P) in a visual pattern present on said surface, comprising the steps of taking a digital image of said mineral surface; Determination by a computer tool of a three-dimensional numerical model of said mineral surface, as a function of colorimetric information contained in said digital image; Automatic generation of a file from said three-dimensional numerical model, said file being adapted to be interpreted by a stone machining machine. Engraving said mineral surface by said machining machine according to said file According to preferred embodiments, the invention comprises one or more of the following features which can be used separately or in partial combination with one another or in full combination between them: said digital image is converted (E2) into gray levels before determination of said three-dimensional numerical model; each interval of said gray levels is made to have an elevation and wherein for each point of said three-dimensional numerical model, the elevation associated with the gray level interval corresponding to said point in said digital picture is determined; said computer tool is the Blender software; said file is in STL format. said digital model is smoothed prior to the generation of said file, by an automated algorithm. The invention also relates to an information processing system for etching a surface of mineral in a visual pattern present on said surface, comprising a computer tool having means for importing a digital plate of said mineral surface. , means for determining a three-dimensional numerical model of said mineral surface according to colorimetric information contained in said digital plate, and means for automatically generating a file from said three-dimensional digital model, said file being adapted to be interpreted by a stone machining machine. According to preferred embodiments, the invention comprises one or more of the following characteristics which can be used separately or in partial combination with one another or in total combination with one another: the system is adapted to convert said digital plate into grayscale before determination said three-dimensional digital model; each interval of said gray levels is made to have an elevation and wherein for each point of said three-dimensional numerical model, the elevation associated with the gray level interval corresponding to said point in said digital picture is determined; said computer tool is the Blender software. Other features and advantages of the invention will appear on reading the following description of a preferred embodiment of the invention, given by way of example and with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 schematically represents a flowchart corresponding to a method according to an embodiment of the invention. Figure 2 schematically shows a system for implementing the invention. Figure 3a shows an example of a digital plate of a marble slab. Figure 3b is a photograph of a marble plate obtained according to the method of the invention. DETAILED DESCRIPTION OF THE INVENTION The invention makes it possible to treat mineral surfaces having visual patterns. The mineral surface may typically be the surface of a mineral plate. It can then be a flat surface. In the description below, only one plate of mineral will be referred to, but surfaces of other geometrical objects may also be considered within the scope of the invention. Some minerals such as some metamorphic rocks have networks of veins, for example. As such, marble is a good example of application of the invention. It is a metamorphic rock that may have veins or mottles due to inclusions of various oxides. Other types of rocks may also be used, such as granites that have visual characteristics similar to marble but may be of various geological natures. Other minerals may have different patterns of veins but may also be concerned by the invention.

In fact, all the ornamental rocks, whether they be sedimentary, metamorphic or magmatic, may be concerned by this invention since it is a question of transforming into a "3D" effect the visual aspect of each of these materials, and in particular sedimentary rocks.

The invention therefore aims to take advantage of these visual patterns in order to perform etching of the plate that takes it into account. It thus goes against the usual use of taking a plate of mineral as uniform as possible for digital engraving type "low reliefs".

As indicated in FIG. 1, according to one embodiment of the invention, the first step E 1 consists in taking a digital plate of the mineral plate M. As illustrated in FIG. 2, this digital plate can be taken by a digital camera P, or any other suitable means.

The digital snapshot can be transmitted to an information processing system STI. In one embodiment of the invention, the camera P can be integrated in the information processing system STI. The STI information processing system can be a computer, a digital tablet, a "smartphone" type communication terminal, etc. It is equipped with a human-machine interface, and a computer tool OI for processing the digital photograph taken by the camera P. This OI computer tool is adapted to determine a three-dimensional numerical model of the mineral plate M according to colorimetric information contained in the digital snapshot. This colorimetric information may for example be a component of a colorimetric system such as the RGB system (Red, Green, Blue), or information based on these components.

According to one embodiment of the invention, a preliminary step E2 may be provided for converting the digital snapshot into gray level. Prior to step E3 of generating a digital model, an optional image processing step may be implemented. This step can be implemented by the same OI computer tool or by a separate computer tool. It consists in particular to apply an image processing filter on the digital snapshot. The digital model will then be generated from the image thus processed and this may result in interesting visual effects. Examples of possible filters include softening or curing filters, contour extraction filters, etc. The three-dimensional numerical model can be generated by associating with the plate a mesh on which an elevation is applied.

Step E3 consists in determining a three-dimensional numerical model as a function of the colorimetric information contained in the digital plate, and more specifically for determining the elevations to be applied for each "point" of the mesh. At each mesh point, the elevation can be determined from the colorimetric information (e.g. the gray level) corresponding to that point in the digital image. For example, the space described by the color information is subdivided into areas, each of which can be associated with an elevation. In the case where the snapshot has been converted to grayscale, one can match each interval of the gray scale to an elevation. For example, if the gray levels range from 0 to 255, this space can be subdivided into 16 intervals: [0, 15], [16, 31], [32, 47] ... [240, 255] . At each of these intervals, we can associate a decreasing elevation, so that the more a point is dark (its gray level is low), and the higher its elevation will be. The correspondence between an interval and an elevation may further be a function of a scaling factor that can be configured according to the desired final rendering.

In the example illustrated in FIG. 2, the mineral plate M has networks of veins V having a color distinct from that of the remainder of the plate. A three-dimensional numerical model can thus bring out this network of veins, on the basis of colorimetric information, for example a level of gray.

Any other type of motif could have been treated in the same way. According to one embodiment of the invention, the computer tool used for this determination is the Blender tool. This tool is a free software for 3D modeling, animation and rendering. It is particularly suitable for creating interactive 3D applications, video games, and 3D animation movies.

After testing a large number of computer tools, the Applicant has selected this tool in a field disjoint from that of the invention.

Thanks to the Blender software, it is possible to determine a three-dimensional numerical model of the plate M. To do this, it is necessary to Import the digital snapshot (it may be necessary to check beforehand the box "Import Export Images and planes") Create a mesh; Use the displacement modifier. In the current version of the software, this can be done by selecting in the "tools" menu, in the "properties viewport" submenu, "add modifiers" then "displace" This "Displace" modifier moves the vertices of the mesh according to the texture to apply, here the digital snapshot. The displacement is applied along a given axis, here the axis of elevation, perpendicular to the initial plane of the mesh corresponding to the plane of the mineral plate M.

The invention then comprises an ES generation step of a file from this three-dimensional digital model. Different file formats can be used, but they must be adapted to allow the interpretation of the file by a stone machining machine. This file can be in a format dedicated to the type and / or the manufacturer of this machine. It can also be in a more universal format and suitable for interpretation by a large number of machining machines. For example, the format may be the STL format. This format is used primarily in stereolithography software, 3D modeling and computer-aided manufacturing (FAB or CAM, "Computed Assisted Manufacturing" in English) The acronym STL stands for stereolithography but also "Standard Tesselation Language". The STL file format only describes the surface geometry of a three-dimensional object. It is therefore quite suitable to describe the three-dimensional numerical model insofar as the invention aims to etch the outer surface of the mineral plate M. This generation step can be implemented automatically by a software tool, preferentially the same as that which allowed the determination of the three-dimensional numerical model. The Blender software, in particular, makes it possible to generate such a file via the "File Export" menu. According to one embodiment of the invention, a smoothing step E4 can be implemented prior to the step of generating the file. This smoothing makes it possible to remove or soften aspects that are too angular and to improve the final rendering. The interest of such a step E4 is, however, to be considered according to the type of machining machine used for engraving.

The file thus generated can then be transmitted to the MU machining machine. From this file, it can then burn the marble plate M. Calibration and calibration operations can be performed manually by the operator of the machining machine. This etching step E6 is conventional in itself, because it is known to engrave a mineral plate from a digital file. Such a method is particularly used in the context of photogravure of bas-reliefs. The invention makes it possible to carry out a photogravure on the basis of information specific to the mineral plate to be etched itself.

Figure 3a shows a digital plate of a marble plate before implementing the method according to the invention.

Figure 3b shows a photograph of a marble slab after the implementation of the method according to the invention. We see that a network of veins has been "extruded" and that the visual and sensory aspect of the engraved plate is new and has certain advantages in the field of interior or exterior architecture. Of course, the present invention is not limited to the examples and the embodiment described and shown, but it is capable of numerous variants accessible to those skilled in the art and depending on what nature has produced under the terms several millennia.

Claims (10)

CLAIMS1 A method of etching a surface of mineral (P) in a visual pattern present on said surface, comprising the steps of taking (El) a digital plate of said mineral surface; Determination (E3) by a computer tool, of a three-dimensional numerical model of said mineral surface, as a function of colorimetric information contained in said digital picture; - Automatic generation (E5) of a file from said three-dimensional numerical model, said file being adapted to be interpreted by a stone machining machine. Etching (E6) of said mineral surface by said machining machine according to said file. 2. An etching method according to the preceding claim, wherein said digital plate is converted (E2) into gray levels before determination of said three-dimensional numerical model. 3. An etching method according to the preceding claim, wherein each interval of said gray levels corresponds to an elevation and wherein for each point of said three-dimensional numerical model, the elevation associated with the corresponding gray level interval is determined. said point in said digital snapshot. 4. etching process according to one of the preceding claims, wherein said computer tool is the Blender software. 5. etching method according to one of the preceding claims, wherein said file is in STL format. 6. An etching method according to one of the preceding claims, wherein said digital model is smoothed (E4) prior to the generation of said file. 7. Information processing system (STI) for engraving a surface of mineral (M) according to a visual pattern (V) present on said surface, comprising a computer tool (01) having means for importing a photograph digital of said mineral surface (M), means for determining a three-dimensional numerical model of said mineral surface as a function of colorimetric information contained in said digital plate, and means for automatically generating a file from said three-dimensional digital model, said file being adapted to be interpreted by a stone machining machine. 8. Information processing system (STI) according to the preceding claim, adapted to convert said digital plate grayscale before determination of said digital model tridimensiondel. 9. Information processing system (STI) according to the preceding claim, adapted to match each interval of said gray levels an elevation and for each point of said three-dimensional numerical model, determine the elevation associated with the level interval. of gray corresponding to said point in said digital snapshot. The information processing system (STI) according to one of claims 7 to 9, wherein said computer tool is the Blender software.