WO2013060756A1

WO2013060756A1 - Plug connection with a shield contact spring

Info

Publication number: WO2013060756A1
Application number: PCT/EP2012/071108
Authority: WO
Inventors: Alexander Schmid; Marco Weiss
Original assignee: Hirschmann Automotive Gmbh
Priority date: 2011-10-28
Filing date: 2012-10-25
Publication date: 2013-05-02
Also published as: EP2771949B1; ES2673696T3; EP2771949A1; DE102012219509A1

Abstract

Plug connection (1) with a shield contact spring (6), wherein the shield contact spring (6) is suitable and constructed to establish an electrical connection between a plug connector (2) and a mating plug connector (3) for shielding purposes, characterised in that the shield contact spring comprises a first and second (6) radially circumferential outer edge (9, 10), a plurality of connecting webs (8) being arranged between the edges (9, 10).

Description

Plug connection with a shield contact spring

description

The invention relates to a connector with a shield contact spring, wherein the shield contact spring, wherein the shield contact spring is adapted and adapted to produce an electrical connection between a connector and a mating connector for the purpose of shielding, according to the features of the preamble of claim 1.

From the generic DE 37 41 467 A1 discloses a connector is known which has a connector and a mating connector, said connector plugged together form the connector. The connector and the mating connector are each located at the end of a multi-core cable, wherein the cable is formed as a shielded cable. Via the electrical conductors within the cable signals are transmitted, wherein the electrical conductors are surrounded within the cable in a conventional manner by a shield. This shielding is particularly important when high-frequency signals are transmitted via the electrical conductors, in order to prevent spurious signals from the electrical conductors or external interference signals from being fed into the electrical conductors. In order to realize a continuous shielding between the two cables via the connectors, it is necessary that when assembled connector and the Shielding of the two cables is connected together. For this purpose, in DE 37 41 467 A1 a simple etallring available, which has not been proven in practice in terms of durability under consideration of the required contact.

The invention is therefore based on the object to provide a connector with a shield contact spring, which is improved in terms of the generic state of the art. In particular, the shielding effect when using the shield contact spring is to be improved while simultaneously producing the shield contact spring.

This object is solved by the features of claim 1.

According to the invention it is provided that the shield contact spring has a first and second radially encircling outer edge, wherein a plurality of connecting webs is arranged between the edges. This embodiment of the shield contact spring has an elasticity in an advantageous manner, which has an advantageous effect on the contacting of the two shields of the cable. At the same time it is possible by the certain elastic resilience of the shield contact spring in a simple manner, this set on the connector or on the mating connector. Due to the resilience of the shield contact spring, which thus has spring properties, the durability of the electrical contact for the purpose of shielding effect is also favorably influenced. In addition, this can compensate for tolerances of the components involved. Another advantage is the fact that the construction with the first and second radially outer peripheral edge and the connecting webs arranged therebetween, between which in each case a gap is formed, the shielding effect can be improved with reduced use of materials, since high-frequency signals can not penetrate through the gaps in the direction of the electrical conductors or from these outwards to the outside or come out.

In development of the invention it is provided that at least one spring bar is arranged between two connecting webs, which is arranged on only one of the two outer edges. By these spring bars, which can be arranged either all on one edge or all on the other edge or part of the spring bars on one edge and a further part of the spring bars on the other edge, the contact force is increased, with which the shields of both cables are contacted electrically. In addition, results from the spring action not only an increased contact force, but also a tolerance compensation and compensation of the forces acting on the connector during operation forces (for example in the form of mechanical stress, temperature fluctuations and the like), so thereby permanently the electrical contact for the purpose of shielding effect is significantly improved. In addition, the spring bars may be designed so that they interact with the mating connector or the connector, in particular their contact carrier, so that they are thereby fixed to their respective connector, so that they are fixed in position.

In a further development of the invention, a gap is formed between two connecting webs and / or between a connecting web and a spring bar, wherein the width of the gap is less than or equal to 25 percent of the width of a connecting web (or a spring bar). The connecting webs and / or the spring webs, which are advantageously elongated, thus forming in Connection of the gap lying between them on the one hand, a reduction of the cost of materials for Hersteilung the shield contact spring, on the other hand, the required shielding effect, since then when the width of the gap is less than or equal to 25 percent of the width of a connecting web or a spring bar is selected, the electromagnetic waves can not pass this gap. Thus, the desired EMC shield is guaranteed despite the column of the shield contact spring.

In a further development of the invention, the connector and / or the mating connector on a circumferential ridge, wherein the shield contact spring is arranged coaxially over the web and fixed in position. Due to the interplay of the circumferential ridge of the connector or the mating connector with the connecting webs of the shield contact spring this can be easily pushed over the web and fixed there in position due to the spring action of the connecting webs. For a particularly simple and easy mountability of the shield contact spring is given.

In a further development of the invention, the connecting webs and / or the spring webs in their axial course at least once an angling. By this bending a spring effect is achieved in particular when only connecting webs (and no spring bars) are present. This spring effect is further enhanced in an advantageous manner, although spring bars are present, in which case only a portion of the connecting webs or only part of the spring bars or all connecting webs or all spring bars or all connecting webs and spring bars in their axial course at least once the angling exhibit. In a further development of the invention, the shield contact spring is a stamped and bent part. This has the advantage that the shield contact spring in the simplest way, especially in large quantities, can be produced. In particular, it is furthermore advantageous that the punch bending process for producing the umbrella contact spring can be automated. In a special stamping bending process, a shield contact spring having a round cross-section in the final state is produced by forming an oblong piece of metal! is processed in a punch bending process by the two outer edges and the intermediate connecting webs are formed (wherein the intermediate areas are punched out). If spring bars are also to be provided, they too can be manufactured in the simplest manner in the stamping and bending process. The thus prepared elongated piece of metal is then subjected to a rolling process, wherein the two front ends of the elongated piece are connected together in a connecting region. This can be done by force and / or positive engagement. The connection area of the shield contact spring, in which the two end faces of the elongated piece of metal are brought together, for example! locked or soldered. This is only an exemplary list, with each connection comes into consideration by means of force and / or positive fit.

The invention will be explained in more detail below with reference to an embodiment.

Show it:

FIG. 1: a plug connection,

FIG. 2 shows a contact carrier with a screen contact spring arranged thereon; Figure 3: The details of the shield contact spring according to the invention.

Figure 1 shows, as far as shown in detail, a connector 1, which comprises a connector 2 and a mating connector 3 in the assembled state. The connector 2 is arranged, for example, at the end of a cable, not shown, wherein the mating connector 3 may also be arranged at the end of a cable or, as shown in Figure 1, may be an aggregate connection. In any case, both connectors 2, 3 corresponding contact partners (in Figure 1, only the contact partner 4 of the mating connector 3 are shown in principle). Also, with respect to the connector 2, a contact carrier 5 is shown, which is arranged in a conventional manner, the contact carrier at the end of the cable and receives the contact partner of the connector 2. Optionally, the contact carrier of a respective connector 2 or 3 may also have a housing.

In the connector 1 is ensured by a shield contact spring 6 that this continuously contacted the shield on the part of the connector 2 with a shield of the mating connector 3 and thus durchschleift. For example, the shield contact spring 6 may be connected on the side of the connector 2 with a shield (for example, a shielding braid) of the cable, wherein the electrical contact to the shield of the mating connector 3 then takes place when the connector 2 is inserted with its shield contact spring 6 in the mating connector 3 becomes. In this case shown in FIG. 1, the outer housing of the mating connector 3 is made of a metallic material (alternatively also an electrically conductive plastic), Thus, the shield of the connector 2 via the mating connector 3 to its unit (for example, an actuator, a sensor or a control unit or the like) is realized. If the mating connector 3 is also a connector arranged at one end of a cable, the electrical contacting can take place via the shield contact spring in the same way.

In Figure 2, the arrangement of the shield contact spring 6 on the contact carrier 5 of the connector 2 is shown. Here it can be seen that the shield contact spring 6 is arranged coaxially over a radially encircling web 7 (see FIG. 1). As a result of the design of the shield contact spring 6 shown in FIG. 2, the shield contact spring 6 is thus arranged above the web 7 and fixed in its position. 2, a circumferential ring can still be seen to the right of the circumferential end of the shield contact spring 6, which ensures that the shield contact spring 6 can not be moved over the web 7 when the plug connector 2 is inserted into the mating connector 5.

In Figure 3, the details of the structure of the shield contact spring 6 are shown. A plurality of connecting webs 8 (at least 10 connecting webs 8), a first outer edge 9 and a second outer edge 10 of the shield contact spring 6 are connected together. This results in a high-frequency moderately closed component in the form of an annular shield contact spring 6, since 8 gaps are formed between the connecting webs, which are not permeable to high-frequency signals. To improve the shielding effect and to increase the contact forces and contact action 8 spring bars 11 are present between two connecting webs. These spring bars 11 are in the embodiment attached according to Figure 3 only on the second outer edge 10. In addition, it is supplementary or alternatively grateful that the spring bars 11 are arranged only on the first outer edge 9 or the arrangement takes place uniformly or non-uniformly alternately from one another at one edge 10 and the other edge 9. Particularly preferred is a symmetrical arrangement of the connecting webs 8 and the spring webs 11, as shown in Figure 3 in an alternating arrangement. It can also be seen in FIG. 3 that the connecting webs 8 and / or the spring webs 11 at least once have an angling in their axial course. In Figure 3 it can be seen that the connecting webs 8 have an angled portion, wherein the spring webs 11 in its axial course first an angling and in the end region has a contrast opposite bending. This ensures that when sliding the shield contact spring 6 on the web 7, the shield contact spring 6 is fixed in position and at the same time prevents that by the protruding end portion of the spring bars 11 is tilted. For this purpose, by the way, the web 7 is also provided with a radially encircling bevel (anvil). Finally, FIG. 3 also shows the connecting region 12 which is produced by producing the shield contact spring 6 from an elongate metal part (sheet metal strip) in a stamped bending process and then bringing the front ends of the strip together. This creates the connection region 12 which, as here, for example, is brought together with a dovetail joint. As an alternative to such a positive connection, it is conceivable that the front ends of the strip in a joining process (for example, welding, soldering or the like) are permanently brought together. While in Figures 1 to 3, the particularly advantageous embodiment of round connectors and accordingly a shield contact spring 6 is shown with a round cross section, of course, other cross-sectional shapes (oval, but also angular in the sense of radially encircling) are conceivable.

Reference number list

1. plug connection

2. Connector

3. mating connector

4. Contact partner

5. Contact carrier

6. Shield contact spring

7th bridge

8. Connecting bridge

9. First outer edge

10. Second outer edge

11. Spring bar

12. Connection area

Claims

claims

A connector (1) having a shield contact spring (6), wherein the shield contact spring (6) is adapted and adapted to provide an electrical connection between a connector (2) and a mating connector (3) for the purpose of shielding, characterized in that the Shield contact spring (6) has a first and second radially encircling outer edge (9, 10), wherein between the edges (9, 10) a plurality of connecting webs (8) is arranged.

2. Plug connection (1) according to claim 1, characterized in that between two connecting webs (8) at least one spring bar (11) is arranged, which is arranged on only one of the two outer edges (9, 10).

3. Plug connection (1) according to claim 1 or 2, characterized in that between two connecting webs (8) and / or between a connecting web (8) and a spring bar (11), a gap is formed, wherein the width of the gap is smaller or equal 25 percent of the width of a connecting web (8) is.

4. Plug connection (1) according to claim 1, 2 or 3, characterized in that the connector (2) and / or the mating connector (3) has a circumferential ridge (7), wherein the shield contact spring (6) coaxially over the web ( 7) is arranged and fixed in position.

5. Plug connection (1) according to one of the preceding claims, characterized in that the connecting webs (8) and / or the spring webs (11) have at least once in their axial course an angling.

6. Plug connection (1) according to one of the preceding claims, characterized in that the shield contact spring (6) is a stamped and bent part.

7. Plug connection (1) according to claim 5, characterized in that the

Shield contact spring (6) has a connection region (12).