DE8318896U1 - Multiple connector - Google Patents

Description

Electro-mechanical works Jakob Preh Nachf. GmbH & Co. Schweinfurter Strasse 5

8740 Bad Neustadt / Saale, June 29th, 1983

8/83 GM
Bsch / Hi

Multiple connector

The innovation is based on a multiple plug connection according to the generic term of claim 1 from.

For some printed circuits it is desirable to have the circuits to be able to push into the plug connections without force. This is intended to ensure that the conductor tracks or the contact points on the printed circuits, be protected from damage, especially if they are plugged in several times. This is important for printed circuits, where a high Contact pressure is required, or in circuits in which the conductor tracks or contact points are very thin. Printed circuits e.g. consist of a ceramic substrate, have manufacturing-related lengths or Thickness tolerances. In particular, such circuit boards are not completely flat, but rather they have slight curvatures. To also at To be able to guarantee a secure contact connection due to critical tolerances in terms of thickness, one chooses a relative for the contact springs high contact pressure. In addition, the edge of such a circuit board is usually very sharp-edged due to the manufacturing process, so that the conductor tracks or contact points are easily rubbed through, in particular when the circuit board is plugged in several times, reliable contact is no longer guaranteed is.

In the case of printed circuits in the form of flexible membrane circuits, sina the conductor tracks are very thin, so that there is also a risk of damage if they are plugged in several times.

A socket strip for force-free plug connection for circuit boards is already known from DE-OS 28 56 071. In a housing there are contact springs which are arranged in pairs along a slot and are used for insertion and pulling out the circuit board can be spread against their spring force.

This is achieved with an adjustment device. The contact spring ends are for this purpose bent outwards and provided with an inclined surface. Between

the inclined surface and the contact arm of the contact spring are vertically adjustable Elements arranged. These elements can be displaced by slide elements which can be moved longitudinally in the socket housing. Are located the elements in their lower position, the contact springs are closest to each other. In the upper position, the elements cause the Contact springs so that the circuit board can be inserted without any force. Due to the complex adjustment device, the housing consists of several parts.

A terminal soldered into a circuit board for a lead wire to be contacted is known from DE-OS 31 18 057. A contact spring is accommodated in a chamber in a housing which is displaceable. Two legs of the contact spring are connected to one another by a substantially U-shaped apex web which has a through opening for the lead wire. In the area of the push-through opening there are tongues, the lugs of which are designed as clamping lugs. The contact spring is fastened in the housing by a locking tongue which is notched outwards and which protrudes into a slot in the housing. The narrowing of the through-opening is achieved in that one leg 'Jer contact spring can be moved towards one another relative to the other leg. For this purpose, one leg has a projection which interacts with an inclined surface ή in the housing. If the housing is moved towards the circuit board, <3, the inclined surface causes one leg to move towards the, |

other too. The result is that the through opening is reduced, so U

that the lead wire is clamped between the Kletrann noses. $

The task of the present innovation is to provide a simple and therefore cost-effective J to create favorable multiple plug connection according to the type mentioned, both in S and in P design for flexible foil circuits suitable is.

An S version should be understood to mean a plug connection which the plug-in direction is perpendicular to the circuit board. In the same way, the plug-in direction of the P version is parallel to the circuit board. 35

This task is renewed by the in the characterizing part of the Claim 1 specified features solved.

Further advantageous refinements of the innovation are the subclaims refer to.

The innovation is explained below with reference to the drawings for several examples ) 5.

% Of the figures shows

ή Figure 1 is a perspective view of a multiple plug connection , partially cut Ϊ 10,

'Figure 2 is a side view of a section through the multiple plug connection ί (Version S),

FIG. 3 shows a side view of a section through a multiple plug connection (Version P),

Figure 4 is a perspective view of a contact element, Figure 5 is a perspective view of a contact element, Figure 6 is a perspective view of a contact element.

The multiple plug connection shown in perspective in FIG from an insulating housing 3 and a flexible foil circuit 1. The one-piece rectangular housing made of plastic is flat and elongated. It has a longitudinal wall 6 and a side wall 5 each. A continuous elongated slot extends between the two longitudinal walls 22, into which the flexible foil circuit 1 is inserted up to a stop can be. Furthermore, a plurality of chambers 4, in which contact elements 7 are arranged, are recessed in the housing. The flexible membrane circuit 1 is made of a thin polyester or polycarbonate film of the conductor tracks 2 in the screen printing process up to the edge on one or both sides are upset. Polyester films are, for example, called "MyIar" films distributed by Du Pont. Their strength is about 100 μm. Your dimensional stability and their modulus of electricity make these foils a stable carrier. In addition, the foil is dimensionally stable at temperatures of 120 to 130 ° Celsius. This is important because the curing of the conductor pastes and printing inks must take place at these temperatures.

Ih the flexible membrane circuit siiid notches 23, which are extend inward from the edge, and their depth is approximately the depth of insertion of the flexible membrane circuit in the housing. These incisions together with the two side walls 5 form a kind of stop for the flexible membrane circuit.

The contact elements 7 inserted into the chambers 4 of the housing are U-shaped. In FIGS. 2 and 3, there are two different embodiments shown with regard to the insatia. FIG. 2 shows the so-called S version and FIG. 3 the P version. In both cases however, each contact element consists of a first contact spring arm 9, which is essentially flat, a second contact spring arm 10 and the connection lug 8. In contrast to the S version the terminal lug 8 is bent at a right angle in the P version. With the help of this terminal lug, the contact element 7 is in a PCB 24 soldered in. Since it is a multiple plug connection, there are several connecting lugs in a row next to each other in the Printed circuit board attached. The housing 3 is relatively displaceable with respect to the contact elements 7.

In order to fix each contact element in the housing, the first contact spring arm 9 has a raised barb 11 which protrudes into a recess 12. The recess 12 has a length corresponding to the relative stroke of the housing / contact element. The first contact spring arm 9 is at the free end an inwardly facing impression 13 is provided.

As can be seen from Figures 4 to 6, the second contact locking arm 10 made by folding. The terminal lug 8 is thus double-layered. A solution is also conceivable in which the second contact spring arm is soldered, welded or otherwise attached to the first. However, such an embodiment is not shown in the figures. In the case of the two-piece design of the contact element, the respective Use materials that are suitable for the intended purpose. The second contact spring arm should, for example, be more mechanically stressed under certain circumstances will be made of a good spring material.

As FIGS. 2 and 3 show, the second contact spring arm 10 is through a slight slope away from the first contact spring arm 9. Around in

• ■ ·

a bulge 14 is provided in the middle of its length. This bulge cooperates with one or more projections 15 in the housing in such a way that when the housing is moved, the distance between the second of the first contact spring arm is changed. An end section 16 is formed by the bulge towards the free end. This end section is bent inward and it has a certain profiling 17 at the free end at the insertion opening. The counterpart of the profiling is the impression 13 of the first contact spring arm 9.

The various types of profiling are summarized in FIGS. 4 to 6 partly shown again. For a better overview, only the contact elements are shown. The profilings themselves are marked 17, 18 and 19.

List of reference symbols

• · I · · ι

1 flexible membrane circuit

2 conductor tracks

3 insulated housing

4 chamber

5 side wall

6 longitudinal wall

7 contact element

8 terminal lug

9 first contact spring arm

10 second contact spring arm

11 barbs

12 recess

13 Embossing

14 bulge

15 head start

16 end section

17 first profiling

18 second profiling

19 third profiling

22 slot

23 incisions

24 circuit board

Claims (1)

f1.JMultiple plug connection for connecting the edge of a flexible membrane circuit with a socket strip soldered into a printed circuit, consisting of an insulating housing in its interconnected chambers are Kcntaktelemente that are soldered with their terminal lugs in the printed circuit, the housing opposite the Contact elements is relatively displaceable, characterized in that that only a flat, rectangular elongated and one-piece housing part (3) is present, the two side walls (5) of which on the narrow side U3V. Form stop for the open to the edge of the flexible membrane circuit (1): -. Incisions (23) in the flexible foil circuit (1) and that the KonUktelement (7) is U-shaped. 2. Multiple connector according to claim 1,
characterized, that the first contact spring arm (9) of the contact element (7) is flat is. 3. Multiple connector according to claim 2,
characterized, that the first contact spring arm (9) is angled out of the plane to the outside Has a barb (11) which protrudes into a recess (12) in the housing (3). 25th Multiple plug connection according to claim 3, characterized, that the length of the recess (12) in the housing (3) corresponds to the relative stroke of the Housing (3) corresponds to the contact element (7). 5. Multiple plug connection according to claim 2, characterized in that that the free end of the first contact spring arm (9) at the insertion opening has an inwardly facing impression (13). 5 6. Multiple plug connection according to claim 1, characterized in that the second contact spring arm (10) spaced apart from the first contact spring arm (9) has approximately centrally an outwardly pointing, protruding bulge (14) which is connected to a projection (15) of the housing (3) cooperates in such a way that when the bulge (14) slides along the projection (15), the insertion opening is reduced so that contact between the contact element (7) and conductor tracks (2) of the flexible foil circuit (1) is achieved. 7. Multiple plug connection according to claim 1 and 6, characterized in that that the end portion (16) extending from the bulge (14) to the free end is bent inward. 8. Multiple plug connection according to claim 7, characterized in that that the free end of the end section (16) has a profile (17, 18, 1S).
25th 9. Multiple plug connection according to claim 1, characterized in that that the contact element is formed in two pieces, the first contact spring arm and the connecting lug made of one material in one piece are made, and the second contact spring arm from another Connect material with the first contact spring arm on the connecting piece of the first contact spring arm / connecting lug: *, is. 10. Multiple plug connection according to claim 1, characterized in that that the contact element (7) is formed in one piece by folding, the connecting lug (8) being double-layered. -