DE3613013A1 - Process for engraving graphic elements in surfaces of objects by means of a laser inscription device - Google Patents

Abstract

A two-colour master drawing (D) is scanned optically, unidirectionally line by line. Elements (F1, F2, F3), which are smaller than a prespecified value, are blanked out and every second scanned line is played electronically. The resulting image information (SB) controls the line-by-line meandering processing point of a laser inscription device (L), which thereby transfers the graphic elements (S) of the master drawing (D) to a surface (T) to be engraved. Commercial matrix printers with a scanning head or current fax machines (LG) can then be used for optical scanning. <IMAGE>

Description

The invention relates to a method for engraving graphic elements of a two-tone template with the help of a laser marking device in surfaces of objects.

Inscriptions of front panels of electrical devices as well their keyboards and other actuators with graphic Elements are often designed so that the Inscriptions are engraved and the engravings if necessary be colored. On the one hand, there is possible to engrave directly on the respective surfaces to make, on the other hand, the shapes for the manufacture of the objects concerned be engraved.

In commercial facilities by a process of the type mentioned at the beginning, each graphic Elements by several parallel close to each other Guided strokes are created, with the stroke corresponds to the course of the respective graphic element.

Such a method is a relatively large one Effort required to create a program that the processing step of the laser marking device controls.

The object of the invention is a method of the beginning mentioned type so that the processing step of Laser marking device directly by evaluation of print templates that can be engraved graphic elements in two colors, e.g. B. black and white, specify.

This object is achieved according to the invention by the following Process steps solved:

• a) The original becomes unidirectional line by line scanned, it becomes one corresponding to the template serial sequence of those detected Generating binary information and colors electronically stored as primary image information,
• b) elements whose size is a predetermined setpoint falls below, are from the primary image information electronically hidden,
• c) every other line of primary image information is electronically mirrored and the resulting secondary Image information controls meandering line by line the processing point of the laser marking device.

With such a method it is possible to use the laser beam continuously meandering to lead, so that a high processing speed can be achieved can, although the devices for scanning the template this Read unidirectionally line by line. This reading is by commercially available normal scanning printers with a scanning head or carried out by facsimile machines. Thereby can use these relatively inexpensive devices for a procedure are used according to the invention. By the Hide elements whose size is a given Falls below the setpoint, we need the respective artwork  only relatively low quality requirements to be asked.

A first embodiment of the invention is characterized in that that the primary image information on every line electronically on the the common outer contour of all graphic element limiting field is reduced. Thereby become useless empty paths during the labeling process avoided.

Another embodiment of the invention is characterized in that that the electronically stored primary image information electronically via a manual entry a definable field can be limited. That is why it is, for example possible, only parts of a print template to control the laser marking device.

An embodiment of the invention is in the drawing shown and is explained in more detail below. Show:

Fig. 1 is a print template and

Fig. 2 shows the block diagram of a device for performing the method according to the invention.

In the illustration according to FIG. 1, a black-and-white print template D is shown, which shows a symbol S in the form of a letter C with a circular border as graphic elements. For the further description, a coordinate system and coordinate points as well as four hatched fields are given, but these display elements are used only for the description and are not applied to the originally intended printing template D. However, it is assumed that three defects F 1 , F 2 and F 3 are present on the original D.

The original D may run in the coordinate system in the abscissa direction from x ₀ to x ₃ and extend in the ordinate direction from y ₀ to y ₃ . The symbol S is then in a field whose edges (indicated by dashed lines) by the abscissa values x ₁ and x ₂ and the intercept values x ₁ and x ₂ are given. The area of this field, which lies outside the field delimiting the outer contour of the symbol S , is highlighted by hatching.

In the illustration according to Fig. 2 a device is shown for performing the method according to the invention. The complete print template D is scanned unidirectionally in two lines with the aid of a reading device LG , as is indicated by parallel arrowed lines. The resulting optical information flow is indicated by an open arrow. A remote copier can be used as the reader LG . The image information obtained from the reader LG is written into a memory SP 1 as primary image information PB .

The primary image information PB is fed to a converter U 1 , which is also connected to a manual input E. With the help of this manual input E , the primary image information PB can be limited, for example, to a field which is predetermined by the abscissa values x ₁ and x ₂ and the ordinate values y ₁ and y ₂ . With such a manual input, areas of a print template, e.g. B. the template D , can be selected from the primary image information.

The primary image information limited in this way reaches a converter U 2 , with the aid of which elements of the print template D are electronically hidden, the size of which falls below a minimum size assigned to the converter U 2 . As a result, the defects F 1 to F 3 are suppressed in the exemplary embodiment.

The converter U 2 is followed by a converter U 3 , with the aid of which the primary image information BP in each line is electronically reduced to the field which limits the common outer contour of all graphic elements, in this case the symbol S. Thus, the hatched field is electronically eliminated in the exemplary embodiment. The primary image information BP has now been limited to the actual symbol S.

With the help of a downstream converter U 4 , however, the image information present at the output of the converter U 4 is then processed in such a way that every second line of the available image information is electronically mirrored.

Resulting secondary image information SB is written into a memory SP 2 . The information content of this memory SP 2 is controlled by a laser labeling device L , which partially meanders its processing point via a key T. The meandering movement is indicated by arrowed lines, the optical information flow from the laser labeling device L to the key T is indicated by an open arrow.

Claims (3)

1. A method for engraving graphic elements of a two-color template with the aid of a laser marking device in surfaces of objects, characterized by the following process steps:

• a) the original ( D ) is optically scanned line-by-line, thereby generating a serial sequence corresponding to the original ( D ) of binary information indicating the colors detected in each case and electronically storing it as primary image information ( BP ),
• b) Elements ( F 1 - F 3 ), the size of which falls below a predetermined target value, are electronically hidden from the primary image information ( BP ),
• c) every second line of the primary image information ( BP ) is electronically mirrored and the resulting secondary image information ( SP ) controls the processing point of the laser marking devices ( L ) in a meandering manner.

2. The method according to claim 1, characterized in that the primary image information ( BP ) in each line is electronically reduced to the common outer contour of all graphic elements ( S ) delimiting field. 3. The method according to claim 1 or 2, characterized in that the electronically stored primary image information ( BP ) via a manual input ( E ) is electronically limited to a predetermined field ( x 1 to x 2 , y 1 - y 2 ).