DE3537829A1 - Method for producing artwork, particularly for fabricating printed circuits - Google Patents

Abstract

On a transparent carrier layer (11) exhibiting a layer (12) of light-sensitive material, a printing pattern (30) is generated with the aid of photographic methods. To allow for the production without special reprographic systems, the printing pattern (30) is applied to a surface (13) of the carrier layer (11) by applying dyes by means of a printing method. The carrier layer (11) is exposed in such a manner that a shadow corresponding to the outline (32) of the printing pattern (30) falls on the layer (12) of light-sensitive material. Finally, the areas (34) of the layer (12) lying outside the outline (32) are neutralised. <IMAGE>

Description

The invention relates to a method for producing Printing templates, in particular for the production of printed matter circuits, on which a transparent, a Layer of support comprising light-sensitive material layer a print sample with the help of photographic Process is generated.  

It is known to produce such templates to use photosensitive films, for example by means of a repro exposure device, with a given printing pattern. The film will then be shown in the developed and fixed in the usual way and then it can this film for exposing laminated circuit board mat rial can be used.

In this known method, one strives for templates with high contrast, in which the transparent Very high transparency and surface areas non-transparent areas have a very high optical density, i.e. Absorption.

In the known method, this is already explained tertiary photographic processes used that a special technical equipment and therefore generally only mean companies or institutions specialized in this tion can be provided.

The invention is based on the object that Production of print templates of the type mentioned at the beginning with simple and easy to deploy Allow funds without sacrificing the achievable contrast must be accepted.

This object is achieved by the following Process steps solved:  

• - Applying the print pattern to a surface of the Carrier layer by color application by means of a print procedure;
• - Exposing the carrier layer so that a Outline of the print pattern of appropriate shadows on the Layer of light-sensitive material falls;
• - Neutralize those outside the outline Areas of the layer.

The object on which the invention is based is thus full come solved, because to apply the print pattern trade Usual printers can be used as they are today are generally available and in such establishments that deal with the production of such artwork, are generally available anyway. The subsequent one Exposing the backing layer can also be done with very simple Chen means, for example by means of daylight or a UV lamp, and the subsequent neutralization of the Areas also does not require any special equipment, which are not already in companies of the relevant type here would be present.

In a particularly preferred embodiment of the invention, as Printing process uses a thermal printing process in which a carrier tape provided with a color layer with the Layer of paint placed on the surface and a thermal Print head is placed on the carrier tape and under Heat builds up the print pattern on the surface wearing.  

These measures have the advantage that the Printing process a very good absorbing printing pattern is applied because under the thermal printing process Development of heat a color point or a color sample on the Surface is "burned in", so that a particularly dense Print image is created. Also, thermal printers are like them for example also used in modern typewriters become commercially available and in many places already available anyway.

In a further embodiment of the invention, the Surface roughened before applying the print pattern.

This measure has the advantage of being particularly good Adhesion of the print pattern on the surface is achieved.

Different methods can be used for the method according to the invention transparent carrier layers can be used. If the Backing layer on one of its surfaces with the layer is made of light-sensitive material, can with a Variant of the invention the print pattern on the of the Layer facing away from the surface of the carrier layer applied in which case the exposure of the Carrier layer is made such that the layer light-sensitive material through the transparent support layer is exposed through.

In another embodiment of the invention, however, it is also possible to print patterns directly on the surface the layer of photosensitive material itself bring, which has the additional advantage that an immediate telable image of the print pattern on the layer photosensitive material.  

Finally, in one embodiment of the invention according to the preferred method for applying the pressure mu ester-serving printing tool, for example the thermal Print head, by means of a multi-coordinate control in dependency of coordinate values stored in a memory along the given print pattern across the surface guided.

This measure has the particular advantage that in large Include commercially available and often already available device can be used to manufacture a Serve print image. This variant shows the front part of the method according to the invention particularly clearly, because obviously no special photographic or reprographic equipment are required, but rather based on proven and in many configurations numerically controllable printers can be used can. Will a printed circuit using computer under support, the expression of the Computers included in the inventive method and immediately for the production of the print template serve without further as in the prior art cumbersome and requiring special equipment Steps required.

Further advantages result from the description and the attached drawing.

Embodiments of the invention are in the drawing are shown and are described in the following description explained in more detail. Show it:  

Figure 1 is a sectional view, broken off, of a starting material used according to the invention, on a greatly enlarged scale.

Fig. 2 is an illustration like Figure 1, but for the explanation of the step of printing Aufdruk kens invention.

Fig. 3 is a further view similar to Figure 1 and 2, but illustrating the further step modern fiction, of exposing.

Fig. 4 shows a further illustration similar to FIG. 3, but for a variant of a method according to the invention.

In FIG. 1, 10 designates a total of a starting material, which essentially consists of a transparent carrier layer 11 , which has a layer 12 of light-sensitive material. The surface of the carrier layer 11 facing away from the layer 12 is designated by 13 , the surface 13 is preferably roughened.

Fig. 2 shows at 20 a total of a thermal printer is used to apply a print pattern on the starting material 10. For this purpose, a plastic carrier tape 22 lies on the surface 13 with a color layer 21 . From above, a print head 23 of the thermal printer 20 is placed on the plastic carrier tape 22 and heat is generated in the print head 23 . Due to this heat development, the area of the color layer 21 detected by the print head 23 is transferred to the surface 13 of the transparent carrier layer 11 with good adhesion.

The print head 23 is deflected by means of an actuating device 24 over the surface 13 running perpendicular to the plane of the drawing in FIG. 2, for which purpose a multi-coordinate control 25 is provided. The multi-coordinate controller 25 in turn receives control commands from a memory 26 in which coordinate values of the print pattern to be printed are stored.

In Fig. 3 it can be seen that after removing the thermal printer 20, a print pattern 30 has remained on the surface 13 in the manner described. In a further process step, light 31 is now directed from the side of the upper surface 13 onto the printing pattern 30 , so that the layer 12 of light-sensitive material is exposed through the transparent carrier layer 11 , as in FIG. 3 with an outline 32 of the printing pattern 30 indicated. In this way, an autocopy 33 of the print pattern 30 is produced in the layer 12 and the remaining areas 34 of the layer 12 can be neutralized or removed in a manner known per se.

As the material of layer 12 , for example, known light-sensitive diazo compounds, ie organic nitrogen compounds, can be used, which can be exposed to daylight or artificial light and developed by the action of ammonia vapors or by decomposition of trivalent iron compounds into divalent ones.

Fig. 4 shows a variant of the method according to the invention, in which the printed pattern 30 a was applied in the manner of FIG. 2, but in this variant directly on the surface 13 a of the layer 12 a made of light-sensitive material. Upon exposure of the print pattern 30 a similar to FIG. 3, the autocopy 33 a is created directly under the print pattern 30 a in the layer 12 a . It goes without saying that in this variant the material of the ink layer 21 during thermal printing must be such that a subsequent development of the autocopy 33 a lying below the print pattern 30 a is possible.

It is understood that the above printing processes and materials are only to be understood as examples, they have proven particularly suitable in practice proven. So using a commercially available thermal A high-resolution 8 × 8 image print pattern elements are generated per square millimeter, so that too very fine contours of the print pattern could be generated, without being strong as in the prior art enlarged image of the print pattern "glued" and after subsequently reduced again by photographic processes had to become.

Claims (6)

1. A method for producing print templates, in particular for the production of printed circuits, in which on a transparent, a layer ( 12 ; 12 a ) of light-sensitive material having a support layer ( 11 ) a print pattern ( 30 ; 30 a ) with the help of photographic Process is generated, characterized by the process steps:

• - Applying the print pattern ( 30 ; 30 a ) to a surface ( 13 ; 13 a ) of the carrier layer ( 11 ) by color application by means of a printing process;
• - Exposing the carrier layer ( 11 ) such that a shadow corresponding to the outline ( 32 ) of the print pattern ( 30 ; 30 a ) falls on the layer ( 12 ; 12 a ) made of light-sensitive material;
• - Neutralize the areas ( 34 ) of the layer ( 12 ; 12 a ) lying outside the outline ( 32 ).

2. The method according to claim 1, characterized in that a thermal printing process is used as the printing process, in which a carrier tape ( 22 ) provided with a color layer ( 21 ) with the color layer ( 21 ) on the surface ( 13 ; 13 a ) is placed and a thermal print head ( 23 ) is placed on the carrier tape ( 22 ) and the heat pattern ( 30 ; 30 a ) is applied to the surface ( 13 ; 13 a ). 3. The method according to claim 1 or 2, characterized in that the surface ( 13 ; 13 a ) is roughened before the application of the print pattern ( 30 ; 30 a ). 4. The method according to any one of claims 1 to 3, characterized in that the print pattern ( 30 ) on the layer ( 12 ) facing away from the surface ( 13 ) of the carrier layer ( 11 ) is applied. 5. The method according to any one of claims 1 to 3, characterized in that the print pattern ( 30 a) on the surface ( 13 a) of the layer ( 12 a) is applied. 6. The method according to any one of the preceding claims, characterized in that a printing tool used for applying the print pattern ( 30 ; 30 a ) (thermal print head 23 ) by means of a multi-coordinate control ( 25 ) as a function of coordinate values stored in a memory ( 26 ) is guided along the predetermined pressure pattern ( 30 ; 30 a ) over the surface ( 13 ; 13 a ).