DE3943261C2 - Electrical circuit - Google Patents

Description

 The invention relates to an electrical circuit in which a housing Has plastic prefabricated channels into which a metal foil in one separate process stamped conductor tracks for electrical connection of the Components of the circuit are used and fixed.

The use of circuit boards is used to manufacture electrical circuits known. These are plastic plates with copper on their surface for example, are formed by an etching process, which electrically connect the components of the circuit. It is also known this Pre-tinn the conductor tracks on the plastic plate by applying solder. All of these processes are cumbersome and technically complex.

In addition, it is known to manufacture electrical circuits conductor tracks punched out of a metal foil in the manner of a network or Grid. The metal foil can have a thickness, for example of 0.15 mm. The punched-out conductor track network is replaced by a Injection process embedded in a plastic housing, from the contact connections protrude from the interconnect network. The molding is also technically very complex.

An electrical circuit of the generic type is known from US Pat. No. 4,766,520 known. Adjacent conductor tracks are in their original state  before insertion into the housing connected by webs, which in the Connection to the insertion of the conductor tracks in the prefabricated channels can be separated by a conventional metal shearing process. So far the prefabricated channels are arranged on different levels the transition of adjacent channels from the higher level in the lower level in a common cross-sectional level, so the danger not excluded from arcing and contact bridges between the conductor tracks can be.

From AT-PS 237 717 is an electrical circuit of the type specified Kind known in which a plastic plate on the top in a regular Arrangement knobs has. On top of this plastic plate a metal foil is put on, the holes corresponding to the knobs having. The metal foil runs between the knobs. Around the conductor tracks To give a certain course, webs can be made from the metal foil between the holes or between the knobs of the plastic plate either can be punched out manually or automatically.

In this electrical circuit, the space between adjacent and non-electrically interconnected conductor tracks in particular be very large in the area of the punched-out flaps or Avoid contact bridges. In addition, with the well-known electrical Circuit complicated circuit diagrams not possible.

From US-PS 4,356,627 is a method for producing an electrical Circuit known in which the conductor tracks in channels of a plastic plate run. For this purpose, the first is with a flat surface Provided plastic plate firmly coated with a metal foil. A stamp with the conductor track profile is then on the top of the so with the Metal foil coated plastic plate that is pressed by an upper side Deformation of the plastic plate channels are formed. The bottom of this Channels have conductor tracks through the stamp made of the metal foil have been punched out.  

In this known electrical circuit, the metal foil remains in the area the plastic plate, where there are no channels without them Purpose accomplished. The known method for producing an electrical Circuit is therefore unused with a large amount of material Metal connected. In addition, adjacent conductor tracks must be one Have a minimum distance to avoid flashovers or contact bridges. Compact circuits cannot therefore be created. Finally is not known in the known method that contact bridges are not between the conductor tracks and the metal foil remaining on the top Remain if the stamp when pressing down, for example when pressing down if the edge is worn, do not cut the metal foil without any gaps.

From DE-OS 27 35 124 an electrical circuit is known in which the Conductors are stamped out of a metal foil in the original state. In order to increase the stability of this interconnect network, there are adjacent ones In the initial state, interconnects are connected to one another by webs. This conductor track network thus stabilized is cast in plastic. After this If the plastic hardens, the webs are cut through subsequently.

This electrical circuit is also very expensive connected. So after embedding the conductor network in plastic the webs are cut through a separate operation. In addition, here too the conductor tracks must be avoided to avoid flashovers or contact bridges have a minimum distance, which the Compactness of the electrical limits.

Based on the electrical circuit of the type specified at the beginning is the object of the invention, the electrical circuit to develop further in such a way that by means of a technically simple and secure manufacture of a compact arrangement of the conductor tracks of the electrical Circuit is possible without the risk of flashovers and There are contact bridges between the conductor tracks.  

As a technical solution, the invention proposes that at least next to each other partial areas of the floors are adjacent to each other Channels are arranged on different levels and that the each other neighboring conductor tracks in the original state before insertion into the Housing are connected to each other by webs that when inserting the Conductor tracks in channels with floors arranged on different levels be severed, with the channel on the higher one to sever the webs Level in the adjacent channel on the lower level via a tear-off edge transforms.

According to the invention, the bottoms of the channels and thus the conductor tracks used on different levels can be very compact circuits be created. Two or more levels can be provided be, in the latter case extremely complicated circuit diagrams on a very small Space can be created. The channels can be different Layers are laid out by these channels at different depths are. The network is used to insert the conductor track network into the housing by means of a corresponding negative stamp, first in the upper, first Level pressed. In a subsequent second step, parts of the Conductor grid by means of a corresponding second negative stamp in pressed the lower, second level. The course of the conductor tracks on different Layers have the advantage that one between the conductor tracks large distance can be created, which would then not exist, if the neighboring tracks are on the same level and the There is a risk of rollovers or contact bridges. With this principle are adjacent interconnects in their original state before installation preferably connected to each other by webs which when inserting the Conductor tracks in channels with floors on different levels be severed. The connecting webs have the advantage that Before inserting the interconnect through the connections is relatively stable, but tear or cut these webs after insertion and thereby the electrical independence of the neighboring Conductor tracks is made.  

To cut through the webs, the channel goes to the neighboring level on the higher level Channel on the lower level over a tear-off edge. This Tear-off edge causes that in the second step, when the conductor tracks in the lower level are pressed, the connecting webs are severed.

In a further development of the principle, the channels are in the range from Kinks preferably widened. This creates a balance, though pressed a section of a conductor track from an upper to a lower level will, because of the height difference, the conductor tracks of an extension subject to.

The channels preferably have an essentially U-shaped cross-sectional profile on. The channels preferably expand upwards funnel-shaped, so that the insertion of the conductor tracks into the channels is simplified is.

In a first alternative, the width of the channels can be equal to or less than that Width of the conductor tracks. The width is preferably slight smaller. In this way, the conductor tracks in the press fit within the Channels kept.

In a second alternative it is proposed that the width of the channels is equal to or greater than the width of the conductor tracks and that the conductor tracks have laterally protruding tips, which occur when the conductor tracks are inserted claw into the channels in their side walls. Here too is preferred the width of the channels is only slightly larger than the width of the conductor tracks. By digging in the small tips in the side walls of the canals the conductor tracks are held securely in the channels without the danger there is that the conductor tracks come out.  

In a further development it is proposed that in the channels Contact pins are arranged on the eye-shaped contact elements of the conductor tracks with their openings below electrical contacts are attached. These contact pins place fixed points when inserting the conductor tracks into the channels The protruding contact pins as well as those from Conductor network down or up contact folded Additional sets can also be used for contacting printed circuit boards to be used.

Finally, it is proposed in a further training that several housings with inserted conductor tracks one above the other are arranged so that there are also very complicated circuit diagrams due to the large number of interconnect networks.

An embodiment of an electrical according to the invention Circuit is described below with reference to the drawings. In these shows:

Figure 1 is a view of a conductor network after punching out of a metal foil.

FIG. 2 shows an enlarged detail of the conductor track network in FIG. 1;

3 shows a section along the line III-III in Fig 1 in an enlarged scale..;

Fig. 4 is a plastic housing with channels, in which the conductor network of Figure 1 after removal of the used over schüssigen metal foil parts.

FIG. 5 shows a schematic side view of the housing in FIG. 4 to illustrate the different levels in which the bottoms of the channels run;

6 shows a section along the line VI-VI in Figure 4 in the region of the transition of a bottom of a channel from an upper level to a lower level with an inserted conductor..;

Fig. 7 is a section along the line VII-VII in Figure 4 on an enlarged scale, and also with an inserted conductor.

Fig. 8 is a section of a conductor network in the area of a bend of a channel;

9 shows the end of a conductor track in the region of a contact element with a circular opening.

Fig. 10 is an illustration corresponding to FIG. 9, but with a cloverleaf-shaped opening.

In Fig. 1, a conductor rail system 1 is illustrated after punching out of a metal foil. In particular, the individual conductor tracks 2 can be seen which have eye-shaped contact elements 3 with central openings 4 at their ends. Furthermore, the conductor tracks 2 have, at their left ends in the drawing, connecting pins 5 with which contacting is possible, for example on a printed circuit board. Instead, it is also possible to plug a corresponding plug socket onto these connection pins 5 .

The enlarged detail of the conductor track network 1 in FIG. 2 also shows that adjacent conductor tracks 2 are connected to one another by webs 6 . These give the interconnect network 1 a relative stability and, since the interconnects 2 temporarily interconnected by the webs 6 must ultimately be electrically insulated from one another, severed in a manner to be described below. Finally, the conductor tracks 2 also have lateral tips 7 , the meaning of which will also be explained below.

Fig. 3 shows a section through a connecting pin 5 , the flat initial state after punching out of the metal foil is shown in broken lines, while the solid line shows the situation after bending about an axis parallel to the longitudinal extent.

In FIG. 4, a housing 8 is shown made from plastic, into which the wiring net 1 with its conductor paths 2 after removal of the excess portions of the metal foil is used. For this purpose, the housing 8 is provided with channels 9 which correspond to the course of the conductor tracks 2 and which have an essentially U-shaped cross-sectional profile and widen upwards in a funnel shape, as shown, for example, in the sectional view according to FIG. 7. The channels 9 each have a bottom 10 and side walls 11 , the width of the channels 9 being equal or slightly larger than the width of the conductor tracks 2 . The channels 9 are widened in the region of bends 12 , as can be seen in FIG. 8.

In the area of the eye-shaped contact elements 3 of the conductor tracks 2 , contact pins 13 extending vertically upward are arranged in the channels 9 .

A special feature of the channels 9 is shown in FIGS. 6 and 7. Subareas of the channels 9 are namely deeper so that a total of two levels are formed, namely an upper level E1 and a lower level E2. The lower level E2 is shown in dashed lines in FIG. 4. The different levels E1 and E2 have the advantage that the distance between adjacent conductor tracks 2 is increased, so that the risk of contact bridges or arcing is reduced.

To insert the conductor track network 1 into the housing 8 , the conductor track network 1 is first guided on the belt over the housing 8 , in that the openings 4 of the contact elements 3 of the conductor tracks 2 come to lie exactly over the contact pins 13 . The conductor tracks 2 of the conductor track network 1 are pressed into the upper level E1 of the channels 9 by means of a correspondingly designed negative stamp. The tips 7 of the conductor tracks 2 cling to the side walls 11 of the housing 8 , so that the conductor tracks 2 are held securely within the channels 9 . At the same time, the contact elements 3 of the conductor tracks 2 are pressed onto the contact pins to produce an electrical contact, as is indicated, for example, in FIG. 7 at a later stage.

After the conductor track network 1 has been pressed into the upper level E1 in the manner described, in a subsequent second step in the areas of the channels 9 shaded in FIG. 4, the conductor tracks 2 are pressed into the lower level E2 by means of a corresponding negative stamp the floors 10 of the channels 9 are lowered, as can be seen in FIGS. 6 and 7. The webs 6 tear between adjacent conductor tracks 2 formed between adjacent channels 9 from tear edges 14 , as shown in Fig. 7.

In the schematic side view of the housing 8 in FIG. 5, the two levels E1 and E2 are indicated schematically.

Since when transferring the conductor tracks 2 from the upper level E1 to the lower level E2 and vice versa, a greater length of the corresponding conductor track sections would be required due to the larger path, the channels 9 are widened in the area of the bends 12 to create a length compensation, as a length compensation Fig. 8 reveals. The "normal width" of the channel 9 is indicated by dashed lines. In addition, it is possible that the conductor track 2 can be slightly stretched for length compensation in order to be able to compensate for the larger path of the two different levels E1 and E2.

Finally, two embodiments of the openings 4 of the contact elements 3 of the conductor tracks 2 are shown in FIGS. 9 and 10. Here Fig 9 shows. The simplest embodiment in which the opening 4 is circular and the contact pin 13 having a square cross-section. In Fig. 10, the perforation 4 is formed substantially as a four-leaf clover, whereby the directed into the center tabs 15 of the contact member 3 come into contact with the contact pin 13, which also has a square cross section.

Reference list

1 interconnect network
2 conductor tracks
3 contact element
4 breakthrough
5 connector pin
6 bridge
7 top
8 housing
9 channel
10 floor
11 side wall
12 kink
13 contact pin
14 tear-off edge
15 rags
E1 upper level
E2 lower level

Claims (8)

1. Electrical circuit, in which a housing ( 8 ) made of plastic prefabricated channels ( 9 ) in which stamped out of a metal foil in a separate process conductor tracks ( 2 ) for, electrical connection of the components of the circuit are inserted and fixed, characterized ,
that at least adjacent areas of the floors ( 10 ) of adjacent channels ( 9 ) are arranged on different levels (E1, E2) and
that the mutually adjacent conductor tracks ( 2 ) are connected to one another in the original state before being inserted into the housing ( 8 ) by webs ( 6 ) which, when the conductor tracks ( 2 ) are inserted into channels ( 9 ), are at different levels (E1, E2) arranged floors ( 10 ) are severed, whereby
to cut through the webs ( 6 ) the channel ( 9 ) on the higher level (E1) merges into the adjacent channel ( 9 ) on the lower level (E2) via a tear-off edge ( 14 ). 2. Electrical circuit according to claim 1, characterized in that the channels ( 9 ) in the region of kinks ( 12 ) are widened. 3. Electrical circuit according to one of claims 1 or 2, characterized in that the channels ( 9 ) have a substantially U-shaped cross-sectional profile. 4. Electrical circuit according to one of claims 1 to 3, characterized in that the channels ( 9 ) expand funnel-shaped upwards. 5. Electrical circuit according to one of claims 1 to 4, characterized in that the width of the channels ( 9 ) is equal to or less than the width of the conductor tracks ( 2 ). 6. Electrical circuit according to one of claims 1 to 4, characterized in that the width of the channels ( 9 ) is equal to or greater than the width of the conductor tracks ( 2 ) and that the conductor tracks ( 2 ) have laterally projecting tips ( 7 ), which claw in the side walls ( 11 ) when the conductor tracks ( 2 ) are inserted into the channels ( 9 ). 7. Electrical circuit according to one of claims 1 to 6, characterized in that in the channels ( 9 ) contact pins ( 13 ) are arranged on the eye-shaped contact elements ( 3 ) of the conductor tracks ( 2 ) with their openings ( 4 ) with electrical contact are attached. 8. Electrical circuit according to one of claims 1 to 7, characterized in that a plurality of housings ( 8 ) with inserted conductor tracks ( 2 ) are arranged one above the other.