DE19717882A1 - Circuit carrier in form of injection moulded plastic connector - Google Patents

Abstract

The circuit carrier is a moulded interconnect device or MID with an electrically conducting coating to make electrical contact with contact pins. A contact pin holder on the base surface (1) of the circuit carrier is at least partially coated with the conducting material (9). The contact pin holder (2) is designed to at least partially engage around a pin (6) on the component (7) with which contact is to be made so that the holder makes electrical contact with the pin. The holder is a pair of clamping yokes protruding from the base surface and acting together as a clamp.

Description

The present invention relates to circuit carriers in the form of an injection molded part its plastic connecting part (MID = molded interconnect device) the preamble of claim 1.

MID components are circuit carriers in the form of injection molded its plastic connecting parts with a metallic coating. Such Plastic fasteners can today because of the performance Injection molding process in practically any three-dimensional shape will. Then these injection molded components with a metallic cover. Because of this coating, the MID components in electrical contact with other electromechanical components to be brought.

Electromechanical components are prior to the development of MID components conventionally on printed circuit boards or on plastic encapsulated Stamped parts have been soldered. Conventional solderless ones are also known Contacting procedure using so-called plug-in parts, which are in one Printed circuit board are pressed. The plug-in parts are sleeves shaped metal parts, which are essentially only a unidirectional Ver allow sliding of a contact pin to be inserted. The connections of the electromechanical component are then plugged into these plug-in parts thereby providing an electrical contact.

MID components are increasingly replacing known components such as printed circuit boards or stamped parts overmolded with plastic. To the MID components with electro To connect mechanical components can be known Techniques for making an electrically conductive connection be gripped.  

A disadvantage of the techniques previously used in the field of MID components for making electrical connections, however, is the fact that associated mostly insufficient mechanical connections have been. This problem occurs especially when conventional MID components do not adequately coat the metallization layers on the underlying plastic carrier layer stick, so that it is stronger mechanical stress on the contact points to detach the metal layer together with attached contact pins from the plastic carrier layer can come.

The object of the present invention is therefore to provide MID components propose an improved electrical and mechanical connection of the Contact areas on these MID components with other electromechanical Enable components.

This object is solved by independent claim 1. The one of them dependent claims relate to advantageous embodiments.

The advantages and features of the present invention also result from the following embodiments in connection with the drawing mentions.

Show it:

FIG. 1a is a section through a contact element of a first MID exporting approximate shape of a circuit carrier according to the invention to be introduced together with the contact pin therein;

Figure 1b is a section through that shown in Figure 1a MID contact element together introduced therein contact pin..;

FIG. 1c is a plan view of an example shown in Fig 1a MID contact element together with an associated device via a contact pin.

FIG. 2a shows a section through a contact element of a second MID exporting approximate shape of a circuit carrier according to the invention to be introduced together with the contact pin therein;

Figure 2b is a section through that shown in Figure 2a MID contact element together introduced therein contact pin..;

Fig. 2c is a plan view of an example shown in Fig 2a MID contact element together with an associated device via a contact pin.

FIG. 3a shows a section through a contact element of a third MID exporting approximate shape of a circuit carrier according to the invention to be introduced together with the contact pin therein;

Figure 3b is a section through that shown in Figure 3a MID contact element together introduced therein contact pin..;

3c is a top view of a in Figure 3a shown MID contact element together with an associated device via a contact pin..; and

Fig. 4 shows a section through a MID contact element of a fourth embodiment of a circuit carrier according to the invention together with a component connected thereto via a contact pin.

Fig. 1a shows a section through a MID contact element of a first embodiment of a circuit carrier according to the invention including to be introduced therein contact pin 6 of a electromechanical component (reference characters 7 in Fig. 1c), which is connected to the MID contact element to be connected.

A MID contact element in the form of a contact pin receptacle 2 is applied to a base area 1 of a circuit carrier in the form of an injection-molded plastic part. The base 1 and / or the contact pin 2 are covered with an electrically conductive coating 9 at least in sections. The contact pin receptacle 2 is designed so that it can receive a matching contact pin 6 of an electromechanical component to be connected to the MID component, producing an electrical connection. This is done in that a contact pin is provided as a contact pin 2 , which is designed in the form of a pair of base 1 standing up and clamp-like cooperating clamping bracket 3 , 5 , whose noses 3 a, 5 a spread apart when a contact pin 6 is inserted to thereby clamp the pin between them electrically conductive, and that the other jump log uplifting between the two clamping brackets 3, 5 of the base Auflagevor provided. 4

FIG. 1b shows how comes to lie between the two clamping strap 3, 5 inserted contact pin 6 with its end face 6a on the support projection 4.

If the clear space between the top of the support projection 4 and the inside of the lugs 3 a, 5 a of the clamping bracket 3 , 5 is matched to the length a of the contact pin 6 to be inserted, then this is firmly clamped between the lugs and the support projection. This results in a stable mechanical connection between the contact pin 7 and the contact pin receptacle 2 of the MID component.

Since the surfaces of the MID component continue to be provided with an electrically conductive coating 9 at least in the area of the lugs 3 a, 5 a and the support projection 4 , a good electrical connection between the contact pin 7 and the contact pin receptacle 2 of the MID component is also achieved .

Fig. 1c shows in comparison with the illustration in Fig. 1 rotated through 90 ° schematic view of an example shown in Fig. 1a MID contact element together with an associated via a contact pin 6 electromechanical component 7. It can be seen again that the lugs 3 a, 5 a of the clamping bracket 3 , 5 encompass the contact pin and thereby create a good electromechanical connection.

FIGS. 2a-2c show in FIGS. 1a-1c are corresponding views of a MID contact element according to a second embodiment of a erfindungsge MAESSEN circuit carrier. This second embodiment largely corresponds to the first embodiment shown in FIGS . 1a-1c, with the exception of an additional collar 8 . This collar stands up from the base surface 1 in the direction of the clamping bracket 3 , 5 and is largely self-contained along its circumference, it encompassing the entire contact pin receptacle 2 .

This collar 8 is broken only along an area in the lengthening of the space between the two lugs 3 a, 5 a, which also makes it possible in this embodiment, as shown in FIGS. 2 b and 2 c, an elongated contact pin 7 between the two Insert clamps 3 , 5 .

This collar 8 has the advantage that it can serve as a receptacle for a sealing compound which can be poured into the space 11 between the collar and the contact pin receptacle 2 . Depending on the chosen properties of such a potting compound, a better mechanical connection between the contact pin 6 and the clamping brackets 3 , 5 , an electrical insulation of the contact areas or else a larger and thus ultimately lower-impedance electrical connection between the contact pin embedded in the potting compound 6 and the base area 1 and contact pin receptacle 2 provided with an electrically conductive coating, or several of these goals can be achieved simultaneously.

FIGS. 3a-3c show in FIGS. 1a-1c are corresponding views of a MID contact element according to a third embodiment of a erfindungsge MAESSEN circuit carrier.

Here, the contact pin receptacle 2 consists only of a substantially U-shaped receiving profile, in which a contact pin 6 of a component 7 to be brought into mechanical and electrical connection is inserted. The actual mechanical and electrical connection between the contact pin receptacle 2 and the contact pin 6 is achieved in that the contact pin is glued or soldered in a manner known per se. Through the electrically conductive adhesive or the electrically conductive solder, the remaining space between the profile legs 13 , 15 of the contact pin receptacle 2 is filled and the contact pin 6 embedded therein. Here, both the inside of the profile legs 13 , 15 and the lying between them bearing surface 17 of the profile in contact with the inserted contact pin 6 and encompass it from three sides, so that in contrast to a simple placement on an exclusively flat surface of a MID contact element again results in an improved electrical and mechanical connection.

In contrast to the two first embodiments shown in FIGS. 1a-2c, this embodiment has the advantage that if the profile recess 12 between the two profile legs 13 , 15 is sufficiently large, contact pins of various sizes can be inserted into the contact pin receptacle without it the necessary adjustment of the dimensions of the contact pin receptacle and the contact pin necessary to achieve a sufficient clamping effect in the first two embodiments.

In this respect, the third embodiment shown in FIGS . 3a-3c can be used more universally than the first two embodiments.

Fig. 4 shows a section through a MID contact element according to a fourth embodiment of a circuit carrier according to the invention together with a connected thereto via a contact pin 6 component 7. The contact pin receptacles consist of through-bores in a base plate 1 of the injection-molded plastic part, which is covered at least in sections with the electrically conductive coating 9 . Furthermore, metal sleeves (so-called plug-in parts) 10 as contact pin receptacles 2 are pressed into these perforations, which are used to receive contact pins 6 of an electromechanical component 7 to be connected to the MID contact element. The mechanical connection is effected here by the clamping action of the metallic sleeve shaft on the inserted contact pin.

An improvement in the mechanical connection results from the fact that in addition, gluing or soldering takes place in the region between the end of the sleeve shaft (located in FIG. 4) and the contact pin.

Regardless of this, the clamping effect can also be improved in that the sleeve shaft tapers downwards and / or that in the circumferential wall of the sleeve shaft there are inwardly raised tongues which are pushed outwards when the contact pin is inserted, so that it can be inserted easily. When trying to pull the contact pin out again, however, these leaf spring tongues jam with the edges of their free ends in the jacket of the contact pin and thus prevent the same from being pulled out of the shaft. A similar effect is shown by the edge 16 at the end (in FIG. 4 below) of a tapered sleeve shaft.

Overall, these constructive measures mean that essentially only a unidirectional displacement of a contact pin 6 to be inserted into the metal sleeve 10 is possible, that is to say it is readily possible to insert a contact pin into the metal sleeve, but it is very difficult to pull it out again.

In summary, it can be said that based on technology injection molded and metallized plastic connectors (MID) invented Accordingly, the following options for the realization of circuit strä gladly surrender:

a) snapping and possibly gluing (see in particular Fig. 1a-1c)

The contact pins 6 of an electromechanical component 7 are snapped into correspondingly designed contact pin receptacles 2 , as a result of which the contacts of the electromechanical component are mechanically fixed. The contact pin receptacle 2 is provided with a conductive coating 9 in the corresponding area. Before mounting the electromechanical component, the contact pin receptacle 2 can additionally be provided with a conductive adhesive. By the clamping action of the clamping brackets 3, 5 on the inserted between them contact pin 6 and through the optional additional use of a conductive adhesive of the electromechanical component is an electrically conductive and mechanically stable connection between the contact pin 6 of the component 7 and the contact pin receptacle 2 during assembly produced.

b) snapping in and potting (see in particular FIGS . 2a-2c)

A contact pin receptacle 2 in the form of a contact block with clamping brackets 3 , 5 and a support projection 4 is also used here. The geometry of the contact block is designed so that the contact pins 6 of the elec tromechanical component are locked in place in the contact block after assembly and are thus mechanically fixed. Furthermore, a clamping force acts on the contact pin 6 of the component 7 through the contact block. For better protection against extreme external influences, the entire contact area located within a circumferential collar 8 can be encapsulated, as a result of which greater resistance to external influences and, at the same time, sealing is aimed at.

c) soldering or gluing (see in particular Fig. 3a-3c)

A metallized contact pin holder is also used in this variant. The electromechanical component 7 is mounted so that the contact pins 6 of the electromechanical component come to rest in a recess in the contact pin receptacle. The contact between the metallization of the plastic part and the contact pin of the electromechanical component to be connected is made, for. B. by means of conventional solder or by means of a conductive adhesive.

d) plug-in version (see FIG. 4)

The plug-in component 10 (metallic sleeve, which only allows unidirectional movement of a contact pin in its interior) is pressed into a metal-coated bore of a plastic carrier 1 . During the assembly of the electromechanical component, a contact pin 6 of the same is pushed into the plug-in component 10 . Due to e.g. B. spring tongues in the plug-in component, a reliable electrical contact between the metallic conductive plastic and the electromechanical component and at the same time ei ne stable mechanical connection is effected.

Claims (9)

1. Circuit carrier in the form of an injection-molded plastic connec tion part (MID = molded interconnect device) with an electrically conductive cover for producing electrical contacts with contact pins to be connected thereto, characterized in that on a base ( 1 ) of the circuit carrier one with the electrically conductive coating ( 9 ) at least partially covered contact pin receptacle ( 2 , 10 ) is provided, which is designed so that it is a correct sponding contact pin ( 6 ) of an electromechanical component ( 7 ) to be connected to the contact pin receptacle, at least partially mechanically establishing an electrical connection can embrace. 2. Circuit carrier according to claim 1, characterized in
that as a contact pin receptacle ( 2 ) a contact block is provided, which is in the form of a pair of base ( 1 ) standing up and klammerar term cooperating clamping bracket ( 3 , 5 ), which are spread when inserting a contact pin ( 6 ) to be inserted and the contact Pin the pin ( 6 ) between them in an electrically conductive manner, and
a between the two clamping brackets ( 3 , 5 ) of the Grundfla surface ( 1 ) rising support projection ( 4 ) on which an end face ( 6 a) of a contact pin ( 6 ) can come to rest. 3. Circuit carrier according to claim 2, characterized in that the support projection ( 4 ) of the contact block with the electrically conductive coating ( 9 ) is covered at least in sections so that it with the resting end face ( 6 a) of an inserted contact pin ( 6 ) an electri can form a connection. 4. Circuit carrier according to claim 2 or 3, characterized in that the contact block of a in the direction of the clamping bracket ( 3 , 5 ) standing up and along its circumference largely self-contained collar ( 8 ) is included, the insertion of a contact pin ( 6 ) in the contact block. 5. Circuit carrier according to claim 1, characterized in that the contact pin receptacle ( 2 ) consists of perforations in the surface ( 1 ) of the plastic part, which are at least partially covered with the electrically conductive coating ( 9 ), metal sleeves ( 10 ) in these perforations. are pressed in, which serve to receive contact pins ( 6 ) egg nes to be connected to the circuit carrier electromechanical component ( 7 ). 6. A circuit carrier according to claim 5, characterized in that in the shaft of the metal sleeve ( 10 ) leaf spring elements and / or a conical taper are attached to one end of the shaft, which only allow unidirectional displacement of a contact pin to be introduced Kon ( 6 ). 7. Circuit carrier according to one of the preceding claims, wherein the electrical and / or mechanical connection between an inserted contact pin ( 6 ) and the contact pin receptacle ( 2 , 10 ) is additionally improved by soldering, gluing or pouring a sealant in the area of the connection point. 8. A circuit carrier according to claim 7, wherein an electrically conductive Glue or an electrically conductive sealant to improve the Connection has been used. 9. A circuit carrier according to claim 7, wherein an electrically insulating Sealant has been used to improve the connection.