DE4313006C2 - Electrical conductor track, in particular made of bimetal - Google Patents

Description

The invention is based on an electrical conductor Railway with the specified in the preamble of claim 1 Characteristics. Such traces are through the DE 41 32 252 C1 became known.

It is known for electrical and electronic construction elements and assemblies that are manufactured in series, from metal strips, in particular from bimetallic strips, Punch arrangements of traces to fit them into one Insert housing, which z. B. by injection molding is made of plastic. The conductor track arrangements serve currents and voltages into the housing to lead and / or distribute in it. To the operation inserting the conductor track arrangements into one or to facilitate multiple housings, it is state of the art so several conductor tracks or conductor track arrangements  punch that they remain connected to a side carrier strip. You can then hang a subsequent work on this carrier strip stuff fed and z. B. overmolded with plastic. Only after, after positioning in the subsequent tool or after embedding in a Housing, the side strip that is then no longer required is separated.

In order to facilitate the separation, it is known from prior use, a debit break point to be provided by two wedge-shaped arranged in mirror image Notches is formed. The unnecessary edge strip can be found along the notches broken by repeated bending if necessary. The disadvantage here is that this creates metallic chips that do not necessarily fall off, but through the bending process leading to breakage is pressed against the flanks of the notches will. The chips are small, but can cause the electronic components or assemblies to be inserted into the housing lead if they also get into the housing. This danger is special relevant if hybrid assemblies in the housing with the conductor tracks through receipt to be connected.

The generic DE-41 32 252 C1 discloses predetermined breaking points in the form of tapered, one-sided notches on contact pins of components are soldered onto a circuit board. The predetermined breaking points are intended for the purposes of Re cycling make it easier to dismantle the printed circuit board. On an Abbre The contact pins without the formation of chips do not occur at all on.

Conductor structures with connection areas in the form of essentially V-shaped one-sided predetermined breaking points are known from DE-AS 1 297 176. Conductor structures that can be punched out by a  circumferential frames are temporarily held are from DE-OS 23 05 883 known.

The present invention has for its object the risk posed by the when breaking the formation of the metallic chips NEN for the function of the electronics to be connected to the conductor tracks going to decrease.

This object is achieved by a conductor track with the specified in claim 1 characteristics. Beneficial  Further developments of the invention are the subject of the dependent against claims.

According to the invention, there is one in particular in the conductor track Wise designed breaking point provided that Addressing the problem in two ways at the same time:

For one, the formation of metal chips becomes practical completely prevented, and secondly there is provision for being hit by breaking into rare In such cases, chips that do not form on the flanks of the Notch of the predetermined breaking point and pressed against it get stuck, but stay loose and therefore when Breaking or willingly falling after breaking, so that it is no longer dragged into the interior of the housing can be.

Due to the special training of the predetermined breaking point a distinctly asymmetrical notch, the one flan of which ke is very steep and with a very small Radius passes into the second flank, which is concave and from the apex of the notch towards the Top of the conductor track has a decreasing curvature (the radius of curvature increases with approximation to the upper side), it is achieved that the break along a single crack line occurs, which on a sharp defined point, namely from the vertex the notch runs out. This is in contrast to the stand the technology: in the known, i. w. symmetrical, wedge shaped notches to form a predetermined breaking point two tear lines, preferably in line with the two  Flank each notch, causing it in the throat when bending back and forth to separate areas comes, which is pushed up and pressed on the flanks will. Peel off for such chip formation de areas are those designed according to the invention Breakage point no reason, and not only because of the precisely defined position of the only crack line, but also because of the concave formation of some Edge, which has the consequence that even if the two sections of the ladder adjacent to the notch are bent so far that the concave flank touches the upper edge of the opposite flank, in underlying area between the two flanks especially near the apex of the notch yet is ample scope so that it is in the vicinity of the Crest to no significant material displacement comes what reason for a detachment of material could be sufficient and could therefore be used for chip formation. Should a chip nevertheless form there, he because of the space between the two Flanks not pressed against one of the two flanks, but can fall off easily.

The first edge is preferably i. w. flat and runs so steep that you hit the top of the track measured angle at least 70 °, even better 80 ° to Is 85 °.

The smaller the radius of curvature at the transition from the first to the second flank, the sharper the crack line,  along which the break takes place, marked. Before preferably the smallest radius of curvature is the second, concave flank only 0.01 to 0.5 mm, better still less than 0.1 mm in size. To ensure enough play during the bending process To keep space between the two flanks is the Radius of curvature of the second flank, starting from that smallest radius in the area of the apex when approaching to the top of the trace gradually increasing, with on the one hand there is the possibility of the radius of curvature from top to top of the track steady to increase (this variant is special favorable for achieving sufficient scope between the two flanks); on the other hand it is possible the curved area does not have the full height of the notch to extend, but the curved area from one a certain height into a flat area, this transition being continuous, i. H. without kink should, so that there is no further crack line. For the angle between the flat area of the second Flank and the top of the trace is a value of 30 ° to 70 ° well suited; preferably the angle chosen from 40 ° to 50 °; under a corresponding win The concave flank on the upper should be more appropriate side of the trace when the concave flank comes on their entire height is curved.

The curved area of the second flank goes into one flat area above, then for its largest radius (in the transition area) a value between 0.2 mm and 1.5 mm well suited.

Known predetermined breaking points in conductor tracks not only have symmetrically designed notches, but are both on the  Notched bottom as well as top, where both notches are symmetrical to each other. Such Education is undesirable according to the invention. It has shown that it is much better, the predetermined breaking point too regarding between the bottom and top of the ladder path-running middle plane pronounced asymmetrical train, e.g. B. by having the / in one side of the ladder notch stamped in the path close to the opposite one Page that is left flat, ends. In particular re with thicker conductor tracks it is cheaper, however Not only notch conductor tracks on one side, but also an on on the opposite side to provide embossing. This has the advantage that the target breakage becomes sufficiently thin and through the embossing process also becomes hard and brittle so that it is easily broken that can. The opposite of the notch should be used Imprint should be much flatter than the notch, so the tear line and thus the break its exit from the shit tel the notch, but not from the opposite Side takes. The impression is preferably given Shape of a cylinder jacket section with a radius from 0.5 mm to 5 mm, preferably from 1 mm to 3 mm, wherein the location of the impression is best chosen so that the immediately below the apex of the notch to the Imprinted (imaginary) tangential surface parallel runs to the top and bottom of the conductor track. This is the best way to ensure that the dated The apex of the notch outgoing crack line on the shortest Path the one on the opposite side embossing achieved.  

It has been shown that one can apply the invention with minimal effort a fairly smooth, same can produce moderate fracture surface on which no late ne stick. The fracture areas are reproducible Shape, so that rework on the fractured surfaces is not required are. Because of the reproducible ratio It is also the force that is exerted when severing must be reproducible within narrow limits, can be predetermined and thus simplify the tool design.

To further explain the invention, drawings are in added which different predetermined breaking points in electrical Show conductor tracks greatly enlarged.

Fig. 5 shows an oblique view of a conventional breaking point,

Fig. 1 shows an oblique view of a erfindungsge Permitted predetermined breaking point, wherein the second concave edge has a curved and an adjoining flat portion,

1 Fig. 3 shows the breaking point of FIG. In a side view;

FIG. 2 shows the predetermined breaking point from FIG. 3 after the conductor track has been bent, and

Fig. 4 shows an oblique view of another, he predetermined breaking point according to the invention, in which the concave flank of the notch has a decreasing curvature from the apex to the top.

In the various drawings, the same or one other corresponding parts with the same reference designated numbers.

Fig. 5 (conventional technique) shows a conductive path formed by punching out a tape. The longitudinal direction of the strip from which the conductor track is punched out is indicated by arrow 1 . From the conductor track, two sections 2 and 3 are shown, which are separated by the predetermined breaking point 4 , which extends over the full width of the conductor track. Section 2 hangs on a side strip (not shown) that extends in the longitudinal direction 1 of the strip, from which the strip is punched out. Section 3 of the conductor track is part of a conductor track structure that is to be used in an electrical or electronic component or assembly, whereas section 2 is intended for separation after the assembly of the conductor track structure. The conductor track structure consists of an electrically highly conductive material, e.g. B. from a copper-tin-bronze CuSn6, which in the area of section 3 on the top with a bondable metal 5 , z. B. is clad with aluminum.

The predetermined breaking point 4 is formed by two wedge-shaped notches 6 and 7 , which are essentially the same and arranged in mirror image, which are embossed in the top 8 and bottom 9 of the conductor track. To abort the sections 2 and 3 are mutually verbo gene. As a result, the web 10 remaining between the notches 6 and 7 next to the next breaks preferably in the alignment of the flanks 11 and 12 and 13 and 14 of the notches 6 and 7 , finally to break. The tear lines are shown in dashed lines. The bending movement results in material displacement in gusset-shaped transition areas 15 between the flanks 11 to 14 and the grooves 16 and 17 , which leads to material areas detaching there and pushing up on the flanks 11 to 14 , the chips thus formed from the opposite flank.

In contrast, in the predetermined breaking point shown in FIG. 1, an asymmetrical notch 6 , the first flank 20 of which is very steep, is embossed into the conductor track from one side (here referred to as the upper side 8 ) and extends over most of the thickness of the conductor track. namely at an angle of 85 ° to the top 8 runs ver. The notch 8 has a sharply defined apex 21 , at which the first flank 20 merges into the second flank 22 , in the region of the apex with a very small radius, which gradually increases in size in the direction of the top side 8 until it comes on the point 23 merges into a flat surface 24 which extends at an angle of 45 ° to the top 8 . The transition from the flat surface 24 to the lower curved surface 25 takes place continuously.

In the bottom 9 there is a flat impression 26 which has the shape of a cylinder jacket section and runs parallel to the notch 6 . It is arranged that immediately below the apex 21, the imaginary tangential surface to the contour of the impression 26 runs parallel to the top 8 and bottom 9 . At such a predetermined breaking point, the break takes place along a tear line 27 , which starts from the apex 21 and leads to the impression 26 in the shortest way.

Due to the chosen concave design of the second flange 22, there is sufficient clearance between the two flanks 20 and 22 , as shown in FIG. 3, especially in the vicinity of the apex 21 .

The predetermined breaking point shown in Fig. 4 differs from that shown in Fig. 1 in that the two te flank 22 of the notch 6 is concavely curved in the entire area from the apex 21 to the top 8 , with a radius of curvature which is from the apex 21 gradually increases to top 8 .

Claims (11)

1. Electrical conductor, in particular made of bimetal, with a Verbindungsbe rich in the form of a predetermined breaking point, which is designed essentially as a tapering notch ( 6 ), characterized in that the notch ( 6 ) has two flanks ( 20 , 22 ) meet in a rectilinear apex ( 21 ) that the first flank is steeper than the second flank ( 22 ) and that the second flank ( 22 ) has at least a partial area with a decreasing curvature adjacent to the apex ( 21 ) . 2. Conductor according to claim 1, characterized in that the first edge ( 20 ) iw is rectilinear. 3. conductor track according to claim 2, characterized in that the angle (α) between the first flank ( 20 ) and the top ( 8 ) of the conductor track is 70 ° to 88 °, preferably 80 ° to 85 °. 4. Conductor according to one of the preceding claims, characterized in that the smallest radius of curvature of the second flank ( 22 ) is 0.01 mm to 0.5 mm, preferably less than 0.1 mm. 5. trace according to one of the preceding claims, characterized in that the curved region ( 25 ) of the second flank ( 22 ) in a win angle (β) of 30 ° to 70 °, preferably 40 ° to 50 °, to the top ( 8 ) runs. 6. conductor track according to claim 5, characterized in that the rectilinear region ( 24 ) of the second flank ( 22 ) at an angle (β) of 30 ° to 70 °, preferably before 40 ° to 50 °, to the top ( 8 ) . 7. Conductor track according to claim 5 or 6, characterized in that the curved region ( 25 ) of the second flank ( 22 ) with a radius between 0.2 mm and 1.5 mm in the rectilinear region ( 24 ) of the second flank ( 22 ) passes. 8. conductor track according to one of claims 1 to 4, characterized in that the second flank ( 22 ) up to the top ( 8 ) of the conductor track is curved. 9. Conductor according to one of the preceding claims, characterized in that it is provided on the underside ( 9 ) parallel to the apex ( 21 ) and this opposite ge with a groove-like impression ( 26 ) which penetrates flatter into the conductor track than the notch ( 6 ). 10. The conductor track according to claim 9, characterized in that the impression ( 26 ) has the shape of a cylinder jacket section with a radius of 0.5 mm to 5 mm, preferably 1 mm to 3 mm. 11. Conductor track according to claim 9 or 10, characterized in that the embossing ( 26 ) in its region closest to the apex ( 21 ) has a tangential surface parallel to the upper side ( 8 ) and lower side ( 9 ).