FR2661995A1 - Computer-aided cutting and/or clipping process and machine for implementing this process - Google Patents

Abstract

The present invention relates to a computer-aided cutting and/or clipping process and machine for implementing this process. In the context of this process, a data set defining an image of an object to be cut and/or clipped is recorded in a memory of the computer, and the said data defining this image are transmitted to an electromechanical cutting/clipping device. It is characterised in that the said data are recorded in a descriptive language of the image, using Bézier curves and/or B and/or C Splines. This process is particularly relevant for cutting and/or clipping texts or signs for advertising, window displays, etc.

Description

ORDINA-ASSISTED CUTTING AND / OR ENGRAVING PROCESS
TEUR AND MACHINE FOR IMPLEMENTING THIS PROCESS
The present invention relates to a computer-assisted cutting and / or engraving method, in which a set of data defining an image of an object to be cut or engraved is recorded in a memory of the computer, and in which one transmits to an electromechanical cutting-etching device, said data defining this image.

This invention also relates to a computer-assisted cutting and / or engraving machine, comprising an electromechanical cutting-engraving device and a computer arranged to be coupled to this device, this computer comprising means for creating and storing in a memory an assembly data defining an image of an object to be cut or engraved, and means for transmitting to said device said data defining this image.

Various methods are already known for cutting out or possibly engraving patterns, such as letters of the alphabet, logos, etc., in plates, films, transparent multilayer supports, adhesives, intended for making decorations and texts for shop windows, signaling, advertising, etc., using computer-assisted cutting or engraving machines.

Computers of the personal computer type are commonly used which contain in memory the patterns to be cut in the form of dots of dots which define the cutting path and form a black and white image of the cutting, in the form of dies or under the form of description in graphic computer language, of description, of vector in particular. In the case of the point matrix, the cutting path is transmitted to a cutting machine which is a kind of table to be traced in orthogonal coordinates X Y, carrying in place of the stylus a cutting or engraving tool. The cutting tool can be a knife, for example when cutting relatively thin plastic sheets, or a rotary milling cutter when it comes to cutting thicker plates or engraving Other tools such as scraping diamonds, high frequency engraving tools or pyrography tools can be mounted on these machines.

In the case of the current description in description language, the cutting path is transmitted in the form of a command order to draw a simple geometric shape (straight lines, arcs of ellipses, polygons, etc.) and of matrix of points.

Cutting or engraving is all the more precise as there are more points in the matrix of points which corresponds to the graphic representation of the object to be cut or engraved. It follows that - the quality of the cuts depends on the resolution of the pattern in
memory, - geometric modifications such as enlargement,
rotation or distortion of the pattern degrades the quality of the image.

Therefore, to be able to obtain optimal quality, it is
necessary to create the image at maximum resolution, all
geometric manipulations on this image being performed at
prior - writing texts can only be done using fonts
existing characters at high resolution and which are generally
in limited number.

- cutting out complete patterns is almost impossible at high
quality since it requires high resolution scanning which is
difficult and time consuming to perform when done manually, or
which requires extremely expensive equipment.

Consequently, with current techniques, the computer-aided engraving and cutting process is difficult to implement and is far from giving the results that one might expect.

These disadvantages can be remedied by the method according to the invention implemented by the corresponding device.

For this purpose, the method according to the invention is characterized in that said data is recorded in a descriptive language of the image, using Bézier curves and keys of the B and / or C Spline.

According to a preferred embodiment, at least one geometric transformation of the image is carried out, by working on the data defining this image in said descriptive language.

In this preferred embodiment, the data defining the image is interpreted in said descriptive language to create a mosaic of points.

Preferably, said mosaic of points is created at the maximum resolution of an electromechanical cutting-etching device.

Advantageously, the said mosaic of points is converted into a control format for said electromechanical cutting-etching device and the cutting or engraving is carried out.

The machine according to the invention is characterized in that said means for creating and recording said data are arranged to work in descriptive language of the image, using curves of
Bézier and / or B and / or C Spline.

The device preferably comprises means for carrying out at least one geometric transformation of the image, by working on the data defining this image in said descriptive language.

According to a preferred embodiment, the device comprises means for interpreting the data defining the image in said descriptive language in order to create a mosaic of points.

Said means for creating the mosaic of points are preferably arranged to work at the maximum resolution of an electromechanical cutting-etching device.

According to an advantageous embodiment, the machine includes means for converting said mosaic of dots into the control format for said electromechanical engraving-cutting device and means for controlling this device in order to carry out cutting or engraving.

The present invention will be better understood with reference to the description of a particular embodiment making it possible to achieve the objectives set.

According to a preferred embodiment, the definition or creation of the pattern is made on PostScript creation software (registered trademark) operating on a station of PC type (personal computer marketed by the IBM Company) or compatible hardware, with current software commercial such as for example the software marketed under the name Illustrator 88 operating on a computer of the PC type (IBM or compatible) or on a computer produced by the
MacIntosh Company. A descriptive file of the pattern is obtained at the output in a standardized format such as EPSF or I 118. This first step makes it possible to obtain data in descriptive language corresponding to the pattern.

During a following step, which can be executed on the same hardware or on independent equipment, the description obtained above is carried out. We make an interpretation of the file
PostScript to obtain either a mosaic of points, preferably at the maximum resolution of the cutting or engraving machine, or an order format, or a mixture of the two realizations.

It is then possible to convert this matrix of points into a command format for the engraving or cutting machine.

In practice, a MacIntosh computer has the original interpreter which translates PostScript descriptions either into dot mosaic or into command format, such as HPGL (Hewlett Packard
Graphic Langage), or in Bitmap which is a known method of storing computer data. A second original program running on the same computer converts the Bitmap into command commands from a cutting device such as that of machines
ROLAND (USA). It is then a cutting interpretation station which supplies command files to the cutting machine. In the case of cutting, only the contours are cut. HPGL type command formats are used. In the case of engraving, it is the overlapping backgrounds and overlapping or flat areas that are engraved. Bitmap command formats are used.

Another embodiment includes in the cutting device both interpretation, conversion and action on the cutting machine.

Another realization includes in the same machine, the software of creation / edition and that of realization / control of the cutting, coupled or integrated into the cutting machine.

Among the advantages, it will be noted that it is possible to cut or engrave all the planar shapes and that it is possible to carry out all the geometric modifications in all the sizes, without any restriction and without any degradation of quality, by using a standard hardware and standard software for pattern creation.

In addition, the compactness of PostScript descriptions allows the transmission of patterns by telephone.

The present invention is not limited to the embodiments described, but may extend to various variants obvious to those skilled in the art.

Claims (10)

Claims  1. A computer-assisted cutting and / or engraving method, in which a set of data defining an image of an object to be cut or engraved is recorded in a memory of the computer, and in which it is transmitted to a device electromechanical cutting-etching of said data defining this image, characterized in that said data is recorded in a descriptive language of the image, using Bézier curves and / or B and / or C Splines. 2. Method according to claim 1, characterized in that at least one geometric transformation of the image is carried out, by working on the data defining this image in said descriptive language. 3. Method according to claim 1, characterized in that the data defining the image is interpreted in said descriptive language to create a mosaic of points. 4. Method according to claim 3, characterized in that said mosaic of points is created at the maximum resolution of an electromechanical cutting-etching device. 5. Method according to claim 4, characterized in that one carries out a conversion of said mosaic of points in control format of said electromechanical cutting-etching device and one proceeds to cutting or engraving. 6. Computer-assisted cutting and / or engraving machine, comprising an electromechanical cutting-engraving device and a computer arranged to be coupled or integrated with this device, this computer comprising means for creating and for recording in a memory an assembly data defining an image of an object to be cut or engraved, and means for transmitting to said device said data defining this image, characterized in that said means for recording said data are arranged to work in descriptive language of the image, using Bézier curves and / or B and / or C Spline. 7. Machine according to claim 6, characterized in that it comprises means for carrying out at least one geometric transformation of the image, by working on the data defining this image in said descriptive language. 8. Machine according to claim 6, characterized in that it comprises means for interpreting the data defining the image in said descriptive language in order to create a mosaic of points. 9. Machine according to claim 8, characterized in that said means for creating the mosaic of points are arranged to work at the maximum resolution of an electromechanical device for cutting and engraving. 10. Machine according to claim 9, characterized in that it comprises means for carrying out a conversion of said mosaic of points into the control format of said electromechanical device for etching and means for controlling this device in order to carry out the cutting or engraving.