DE2856812A1 - Marking template for drilling holes in printed circuit boards - has combination of perforated plate with adaptor plate with coordinate raster of holes in perforated plate - Google Patents

Abstract

The application is to the machining and drilling of additional holes in printed circuit boards, having standardised conductor spacing. Such drilling may become necessary during assembly, and it is uneconomic to return the boards to the machine shop for the required work. A template, or jig, is provided with a hole spacing typically twice that of the conductor spacing on the circuit board. The jig comprises a rectangular board which fits over, and can be definitely registered with, the circuit board. The hole pattern on the jig is offset with respect to the circuit board. The location on the circuit board allows the jig to be fitted in any one of four different positions, thereby covering all possible hole positions on the board. Although the number of hole positions on the jig is much less than that possible on the board the accurate drilling at each possible position is faciliated. The lower number of holes in the jig makes it mechanically stronger, and also assists in preventing drilling through a wrong hole.

Description

Auxiliary device for marking individual grid

points of a given, preferably orthogonal, basic grid, especially for drilling printed circuit boards.

The invention relates to an auxiliary device for marking individual grid points of a predetermined, preferably orthogonal, basic grid.

An example of items that have edit points the intersections of a grid are located, the printed circuit boards form Circuits in which the connection ends of components in bores in a carrier plate and by soldering or in some other way (e.g. by pressing in) with conductor tracks be electrically connected. The holes mentioned are located at intersection points a grid, the grid dimensions of which are now internationally standardized. Since this Grid dimension is comparatively small - it is typically 1/10 inch or at so-called fine etching technique at 1/20 inch - are the requirements changes the manufacturing accuracy, in particular also for the drilling of the holes mentioned, very high.

For the manufacturing process, the printed circuit boards are drilled so-called coordinate drilling tables are used, which work with high precision. In this case, registration means, which are also used in the manufacture of the Precise positioning of conductor tracks photochemically and galvanically guarantee.

In the event of subsequent changes to the circuit, it may be necessary to to make additional holes in printed circuit boards. Also these holes, their location marked by Eoordionaten of the basic grid must be attached very precisely will. The requirements for accuracy are particularly high when the printed circuit is a so-called multilayer board, a circuit carrier that is, in which the conductor tracks in a plurality of parallel through layers of insulating material are arranged in separate levels.

It is obviously impractical for drilling the holes to use a coordinate drilling table at the respective location. It is on the other hand However, the assembly with the printed circuit board in one is very uneconomical central repair shop to transport to there the subsequently required to attach the holes that have become.

To solve the difficulties described above In the event of problems arising, it is obvious to use one that serves as a drilling template Use a perforated plate that corresponds to the basic grid of the circuit board Has breadboard and which by means of the existing fitting elements of the circuit board is precisely positioned. However, if the pitch is very small, it is impossible to use such a drilling template sufficient stability to manufacture.

The invention is based on the object of an auxiliary device of type described above, especially for drilling printed circuit boards To create circuits that meet all practical requirements enables it to be manufactured inexpensively and is easy to handle.

Based on an auxiliary device of the type described above, which is provided with at least one perforated plate serving as a marking template, which by means of a fitting device in relation to the object carrying the basic grid (e.g. a printed circuit board) can be positioned precisely, this task becomes solved in that the perforated plate or perforated plates have a perforated grid whose Grid division in at least one coordinate direction an integral multiple the grid division of the given basic grid is that on the perforated plate or the perforated plates fitting means are attached, through which they with the said fitting device is or are connectable in such a way that the grid points of their grid of holes coincide with cover a group of grid points of the basic grid, and that the arrangement of the Mating means on the perforated plate or the perforated plates or the arrangement of these Matching means complementary mating elements of the mating device in relation to their breadboard or basic grid is made so that a plurality of different positions the perforated plate or perforated plates relative to the object carrying the basic grid adjustable to capture all groups of grid points of the basic grid is.

The idea underlying the invention, which as Marking template Serving perforated plate a perforated grid with an enlarged compared to the basic grid To give grid dimension and the individual grid points of the basic grid by different Controlling the positioning of the hole pattern not only has the advantage that this significantly simplifies the production of the perforated plate or at very smaller grid division of the basic grid becomes possible in the first place, but also the advantage that the handling is essential due to the better clarity is simplified. This results from the fact that the hole spacing is very small existing risk of "confusion" of neighboring holes in the perforated plate in the same Dimensions are reduced, such as the grid division of the perforated plate compared to that of the basic grid is enlarged.

In a particularly simple embodiment of the invention, the Grid division of the perforated grid of the perforated plate twice as large as that of the specified The basic grid and the matching means of the perforated plate are opposite to the perforated grid, respectively by the grid spacing of the basic grid and thus by half the grid spacing of the Hole grid offset asymmetrically. If care is taken that the perforated plate in four different directions of orientation compared to the one carrying the basic grid Object can be positioned - which in the simplest case can be done by one gives the perforated plate a square outline and it in a corresponding Use a square recess of a suitable frame part - every orientation direction the perforated plate a characteristic combination of coordinate numbers, e.g. odd / odd; Odd / even etc. assigned. Leave with a single perforated plate So a maximum of four groups of grid points of the basic grid ~ cover ".

If the enlargement factor of the perforated grid compared to the basic grid is greater than 2, for example has the value m, the breadboard must be opposite to the Basic grid can be fixed to all grid points in a total of m2 in different positions to be able to cover the basic grid by drilling the hole grid. If again Perforated plates are used that are oriented in four different directions are fixable, is a number to achieve all grid points of the basic grid of perforated panels required, this value m2 / 4 or the next larger whole number is equivalent to.

The grid division of the perforated grid does not necessarily have to be in both coordinate directions be enlarged by the same factor compared to the grid division of the basic grid.

The frame part in which the preferably square recess to accommodate the also square perforated plate or perforated plates is, is advantageously with markings to identify the coordinates of the Basic grid provided, advantageously on the perforated plate or the perforated plates Markings are applied to the various possible orientations are assigned and the corresponding groups of ordinate values, e.g. "odd / even" etc. uniquely characterize.

On the aforementioned with a preferably square receiving opening The frame part provided can be dispensed with if the perforated plate is fitted with mating means (e.g. Alignment pins), which are offset in the above-mentioned manner with respect to the breadboard and directly with the complementary fitting elements (e.g. fitting bores) of the the object carrying the basic grid (e.g. a printed circuit board) interact can. To mark the individual coordinates can be used here Scales attached to the edge areas of the perforated plate or perforated plates are used, which are subdivided and / or labeled in such a way that they are suitable for a given direction of orientation applicable coordinates each e.g. on the top and left edge in an upright position are legible.

The perforated plate can also be designed so that the distances between their Drill holes only in the direction of a grid line of the basic grid opposite its grid division are enlarged by an integer factor and the holes in each adjacent Raster lines are offset from one another. When the enlargement factor for the distances For example, the holes have the value 2 and the basic grid is square If the grid is, this results in a perforated plate with an equally square one Grid that is inclined by 450 compared to the basic grid and its hole spacing in the direction of this inclination have the value of the grid division of the basic grid. The registration means are in the direction of the grid lines of the basic grid by a distance asymmetrically offset, which corresponds to the grid division of the basic grid, so that the perforated plate in a first orientation direction all grid points of the basic grid detected whose coordinate numbers result in an even sum and in a second Pivoted by 1800 about one of the coordinate axes or rotated by 900 in the plane Orientation direction detected the other grid points of the basic grid.

The invention is explained in more detail below with reference to the drawings: Fig. 1 illustrates in a schematic representation the basic grid of a printed Circuit board and a frame part to accommodate a perforated plate, Fig. 2 shows this perforated plate, FIGS. 3 to 6 show the four possible combinations between the frame part shown in Fig. 1 and the perforated plate, Fig. 7 shows an alternative Embodiment of the perforated plate.

The grid 1 shown in Fig. 1 is the normalized basic grid a printed circuit board. To simplify the graphic representation the number of grid points is greatly reduced. In addition, the grid division is compared to actually used grid divisions ~ coarser ". Currently in use Printed circuit boards comprise about 200 grid lines and 200 grid columns, so that About 40,000 cross points, i.e. grid points that are spaced apart from one another (Grid dimension) of, for example, 1/20 inch.

In the manufacture of such printed circuit boards, the holes required at individual grid points for contacting components attached with the help of high-precision coordinate drilling tables.

The auxiliary device shown in the drawings is used with simple means for subsequent circuit changes required additional Drill holes directly on site with sufficient precision.

The one shown in FIG. 2 is an essential part of the auxiliary device Drilling template designed as a perforated plate 2.

As a result of. extremely small grid division of the basic grid it is not possible in practice to produce a drilling template with a hole pattern, the corresponds to the basic grid 1 of the circuit board, since the diameter of the holes is about the same as the distance between adjacent grid points of the Basic grid.

In the exemplary embodiment shown in FIG. 2, there is therefore the grid division of the perforated grid compared to the few of the basic grid in both coordinate directions (Row direction and column direction) increased by a factor of 2, so that with a Corresponding positioning of the perforated plate 2 above the basic grid 1 only a quarter of all grid points of the basic grid 1 lie under the holes in the perforated plate 2.

To position the perforated plate 2, a frame part 3, which is used with With the help of dowel pins and / or holes in a defined position to which the Basic grid 1 supporting circuit board can be brought. That of the circuit board associated connection partners of the positioning elements 4 are specified. she are used in the manufacture of printed circuit boards for precisely fixing the printed circuit board the individual photochemical processes as well as drilling on the coordinate drilling tables mentioned. The frame part 3 forms a receiving opening 5 which is square in the present case for the perforated plate 2 bounded by a square. The edges of the perforated plate 2 are opposite the perforated grid in two coordinate directions by one grid division of the basic grid 1 asymmetrically offset. In this way, in those shown in Figs four different uses of the perforated plate 2 in the receiving opening 5 each different groups of grid points of the basic grid 1 covered.

On the frame part 3 there are numbers to identify the grid points of the basic grid 1 applied. A first group of numbers 6 identifies the grid lines, a two- te group of numbers 7 the grid columns. If you have any The grid point of the basic grid is characterized in the usual way by a pair of numbers, which indicates its column and row position, for example the one at the intersection the fourth column and sixth row located grid point with the number pair 't4 / 6 " indicates the following: In the combination shown in FIG of frame part 5 and perforated plate 2, the holes in the perforated plate coincide with all denJenigen grid points of the basic grid 1, which by odd-numbered columns and Line markings are characterized. In the configuration shown in FIG the holes in the perforated plate 2 cover the grid points of the basic grid 1 which are identified by even-numbered column and odd-numbered row names are etc.

The alternative embodiment shown in FIG. 7 labeled 2a the perforated plate differs from the perforated plate according to FIG. 2 in that the Bores have a smaller mutual distance. The arrangement is like this made that in all the lines of the basic grid 1 corresponding lines of the Hole grid holes are attached with twice the spacing of the basic grid, these in successive lines, however, each by the grid spacing of the basic grid are offset from one another, so that the perforated plate has a perforated grid that although the basic grid is square, it runs diagonally, i.e.

is inclined by 456 in relation to the basic grid, and where the nearest neighboring The holes have a spacing that is twice the value of the grid division of the basic grid 1 corresponds.

If the perforated plate 2a with the one shown in FIG orientation is inserted into the frame part 3 of Fig. 1, their holes coincide with all denJenigen grid points of the basic grid 1, whose column and line numbers a result in an even sum. When the perforated plate 2a is pivoted by 1800 about one of its edges - So "mirrored" - is used in the frame part 3, their coincide Drill holes with all other grid points of the basic grid, i.e. with the ones Grid points, the number of columns and rows of which result in an odd sum.

The invention can of course also be used for marking Apply grid points that are in a non-orthogonal, i.e. in an oblique Coordinate system. In addition, the distance between the holes in the perforated plate different in the different coordinate directions of the basic grid be a large multiple of the corresponding grid division of the basic grid. The perforated plate does not necessarily have to be bounded by a square. If the perforated plate has a point-symmetrical polygonal boundary that deviates from the square shape, the corresponding fitting means and elements must be arranged so that the perforated plate can occupy all positions that cover "all grid points of the Basic grid are required.

It is also possible, the frame part 3 shown in Fig. 1 with the To form perforated plate 2 in one piece and to make the arrangement so that this one-piece structure by alternating insertion into the fitting parts 4 in different Positions reached to the basic grid 1, which correspond to the configurations according to FIG. 3 to 6 correspond. In this case, it is recommended that the frame part 3 corresponding Edge area of the one-piece structure with a plurality of designation groups to provided that correspond to the respective orientation Unmistakable coordinate combinations, e.g.

in upright labels.

In the exemplary embodiment described above, the grid division is of the perforated grid compared to that of the basic grid by a factor of 2 or the factor {Ç? Enlarged. If necessary, the enlargement factor can of course also be higher. In this case you need as many perforated plates and / or positioning Possibilities exist that in turn all grid points of the basic grid with Bores of the perforated plate or perforated plates can be brought to cover.

8 claims 7 figures Blank page

Claims (8)

Claims 1.) Auxiliary device for marking individual items Grid points of a predetermined, preferably orthogonal, basic grid, in particular for drilling printed circuit boards, with at least one as Marking template serving perforated plate, which by means of a fitting device in relation can be precisely positioned on the object carrying the basic grid, d a -d u r c h #g e k e n n n n z e i c h n e t that the perforated plate (2) or perforated plates are inserted Have perforated grid, the grid division of which in at least one cardinal direction an integer multiple of the grid division of the given basic grid (1) is that on the perforated plate (2) or the perforated plates fitting means (corners of 2) attached through which it can be connected to said fitting device (3) or are that the grid points of their grid of holes with a group (e.g. first and second coordinates odd) of grid points of the basic grid (1) cover, and that the arrangement of the fitting means on the perforated plate (2) or the perforated plates or the arrangement of these fitting means complementary fitting elements of the fitting device (3) in relation to their hole grid or basic grid is made so that a plurality different positioning # n (Fig. 3 to 6) of the perforated plate (2) or perforated plates relative to the object carrying the basic grid (1) for recording all Groups of grid points of the basic grid (1) is adjustable. 2. Apparatus according to claim # 1, d a d u r c h g e -k e n n z e i c h n e t that the mating means (corners of 2) of a perforated plate (2) complementary Fitting elements (inner edges of 3) of the fitting device (3) in pairs with point symmetry are attached in such a way that this perforated plate (2) in different orientation directions (Fig. 3 to 6) can be combined with the fitting device (3). 3. Apparatus according to claim 2, d a d u r c h g e -k e n n z e i c h n e t that the fitting means attached to a perforated plate (2) in relation to her Hole grids are arranged asymmetrically in such a way that when these are combined Perforated plate (2) with the fitting device (3) in different directions of orientation a different group of grid points of the basic grid (1) is recorded (Fig. 3 to 6). 4. Device according to one of the preceding claims, d a d u r c h g e k e n n n e i c h n e t that a perforated plate (2) is provided, the perforated grid of which has a grid division that is twice as large as that of the specified basic grid and that the registration means of the perforated plate in relation to the perforated grid in both coordinate directions In each case by the grid spacing of the basic grid and thus by half the grid spacing of the perforated grid are asymmetrically offset. 5. Device according to one of claims 1 to 3, d a -d u r c h g It is not noted that a perforated plate is provided, the distance between the holes in adjacent grid lines of the basic grid, the corresponding perforated plates are doubled The value correspond to the grid division of the basic grid, but line by line against each other are offset by the grid division of the basic grid, and that the fitting means of the perforated plate are offset by the same amount in relation to these rows of holes. 6. Device according to one of claims 3 to 5, d a -d u r c h g It is not noted that the perforated plate (2) or perforated plates are rectangular and their fitting means are formed by the panel corners and that the cor- responding Fitting device (3) attachable to an object carrying the basic grid (1) Frame part is formed in which the perforated plate or Perforated plates in at least two different directions of orientation can be used. 7. Apparatus according to claim 6, d a d u r c h g e -k e n n z e i c n e t that the perforated plate (2) resp. Perforated plates have a square shape and have a square receiving opening corresponding side length of the frame part (3) can be used. 8. Apparatus according to claim 6 or 7, d a d u r c h g e k e n n z e i c h n e t that on the frame part (3) markings (6, 7) for identification the coordinates of the basic grid are attached.