NL1012694C2 - Connector and plug or socket for use therein. - Google Patents

Abstract

The invention pertains to a connector comprising a header and a receptacle, each comprising a housing provided with at least one contact element and with a conductive coating which, at least upon mating, forms a shield. The header and/or the receptacle comprises a spring contact attached to its conductive coating parallel to the surface of the housing, which spring contact serves, upon mating of the header and the receptacle, to establish an electrical connection between the respective conductive coatings. Further, the spring contact is attached to a protrusion or a recess respectively on or in the housing. <IMAGE>

Description

Connector and plug or socket for use therein.

The invention relates to a connector comprising a plug and a mating plug, each comprising a housing provided with at least one contact element and with a conductive cover layer which, at least when interlocking, forms a shield, which shield is connected or connectable with a ground contact or electrode, the plug and / or mating plug comprising a spring contact attached to the conductive coating parallel to the surface of the housing, the spring contact serving to interlock the plug and mating connector establishing an electrical connection between the respective conductive coatings.

It is known to use a metal leaf spring attached to the outside of a metalized plastic housing of a connector plug or receptacle such that this spring abuts an adjacent metallized plastic housing of the connector receptacle or plug, respectively. Thus, a good electrical and mechanical connection is established between the respective metal coatings and a shielding envelope is established to ensure good integrity of signals within the connector.

However, loading the spring, which usually results in a normal force of, for example, 50 g, leads, among other things, to considerable tensile forces in the connection of the spring contact with the housing. In many cases, these forces will lead to the metal coating flaking off the housing.

The object of the invention is to provide a connector of the type described above which does not show the said drawback or in which the said drawback is at least substantially reduced.

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To this end, the invention has the feature that the spring contact is additionally attached to a projection or a recess, respectively on or in the housing.

Thus, at least a portion of the tensile forces 5 is replaced by shear forces parallel to the boundary layer between the metal cover layer and the housing and by compressive forces, none of which pose a major threat to the integrity of the connection between the spring contact and the housing.

In a preferred embodiment, at least a part of the contact surface between the spring contact and the housing makes an angle with that part of the spring contact that is parallel to the housing, which angle is greater than 45 °. It is particularly preferred that at least part of the contact surface between the spring contact and the housing is perpendicular or substantially perpendicular to that part of the spring contact that is parallel to the housing.

Such a configuration permits both simple attachment of the spring contact to the housing and effective absorption of bending moments and forces applied to the spring contact. After all, a considerable part of the exfoliation forces have now been replaced by shear and compressive forces which are much better tolerated by the conductive coating and which can even contribute to a strong connection between the spring contact and the housing.

It is further preferred that the contact surface between the spring contact and the housing comprises at least two parallel or substantially parallel parts, which make an angle of preferably about 90 ° with that part of the spring contact which is parallel to the housing. Thus it becomes possible to clamp or press the spring contact to the housing.

The invention will be further elucidated with reference to the drawings which schematically show an embodiment of the spring contact according to the present invention.

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Figure 1 shows a cross section of a connector comprising a spring contact according to the prior art.

Figure 2 shows the spring contact according to Figure 1 in more detail.

Figure 3 shows a spring contact according to the present invention.

Figure 1 shows on the left a plug 1 comprising a housing 2 which is attached to a substrate 3 and which is provided with five contact elements 10 4. The housing 2 is made of plastic, for instance a liquid crystalline polymer (LCP) or nylon (for example PA6), and is provided with an electrically conductive metal coating (not shown). Such coatings are known to the person skilled in the art and can for instance comprise a copper layer with a thickness of, for example, 1 to 2 µm on which a nickel aluminum layer of, for example, 2 to 3 µm is deposited. The metal coating on the housing 2 is electrically connected to a ground electrode (not shown).

Figure 1 further shows a socket 5 which comprises a housing 6 in which five contact elements 7 are placed. The housing 6 can be made of the same material as the housing 2 of the plug 1 and is provided with a comparable electrically conductive coating. A metal spring contact 8 is arranged on this metal cover layer, which, when the plug 1 and the mating plug 5 interlock, establishes an electrical and mechanical connection between the respective metal cover layers.

Figure 2 shows the spring contact in more detail. It further shows a force F2 exerted on the spring contact 8 during the interlocking of the plug 1 and the mating connector 5, and a force F1 exerted on the metal spring during and after the interlocking. The force F2 will mainly result in a shearing force at the contact surface between the spring contact 8 and the housing 6, while the force F1 will result in a bending moment M and a peeling force at the said surface, which in turn often will result in failure of the connection between the spring contact 8 and the metal coating on the housing 6.

Figure 3 shows a metal spring contact 9 according to the present invention. This spring contact 9 is provided with a clamp or clip 10 with two parallel legs 11. The spring contact 9 is clamped by means of these parallel legs 11 on a countersunk protrusion which is arranged on the housing 6.

The aforementioned force F2 will now in particular be carried by the left flank 13 of the countersunk projection 12, while the force F1 and the bending moment M are distributed over the entire countersunk projection 12 and mainly in compressive forces on the right flank of the countersunk projection 12 result.

As a result of this construction, the spring contact 9 is securely attached to the housing 6, and repeated engagement and disconnection of the plug 1 and the receptacle 5 without compromising the integrity of the metal cover to compromise the housing 6.

The spring contact 9 is preferably made of a metal, more specifically of a copper alloy such as phosphor bronze or beryllium copper.

Although the protrusion or recess can be provided after the conductive coating has been applied to the housing, it is preferred that the protrusion or recess be provided so that the surface of the protrusion or recess is completely covered by the conductive coating.

It is further preferred that after the connection between the spring contact and the housing has been established, an amount of solder is applied so as to make the connection airtight or substantially airtight.

The present invention further relates to separate plugs and mating plugs for use in the connectors as described above.

The invention is not limited to the above-described embodiments which can be varied in a number of ways within the scope of the claims. The housing or the plug and / or the mating plug can for instance form a single unit, which is obtained for example by means of injection molding, but they can also be composed of two or more parts.

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Claims (10)

Connector comprising a plug (1) and a socket (5), each of which comprises a housing (2, 6) which is provided with at least one contact element (4, 7) and with a conductive coating which, at least at the interlocking, forming a shield, the plug (1) and / or the mating plug (5) comprising a spring contact mounted parallel to the surface of the housing (2, 6) to the conductive coating, which spring contact serves to when the plug (1) and the mating plug (5) are interlocked, an electrical connection is made between the respective conductive cover layers, characterized in that the spring contact (9) is further attached to a projection ( 12) or a recess on or in the housing (6). Connector according to claim 1, wherein at least a part of the contact surface between the spring contact (9) and the housing (6) is angled with that part of the spring contact (9) which is parallel to the housing (6) angle is greater than 45 °. Connector according to claim 2, wherein at least part of the contact surface between the spring contact (9) and the housing (6) is perpendicular or substantially perpendicular to that part of the spring contact (9) which is parallel to the housing (6 ). Connector according to any of the preceding claims, wherein the contact surface between the spring contact (9) and the housing (6) comprises at least two parallel or substantially parallel parts (11), which are at an angle to that part of the spring contact ( 9) 30 running parallel to the housing (6). Connector according to any of the preceding claims, wherein the surface of the protrusion (12) or the recess is entirely covered with the conductive coating. 10 1 2 6 9 4 Connector according to any of the preceding claims, wherein the spring contact (9) is attached to a countersunk protrusion (12) on the housing (6). Connector according to any of the preceding 5 claims, wherein the spring contact (9) is clamped to the housing (6). Connector according to any of the preceding claims, wherein the spring contact (9) is welded to the housing (6). Connector according to any of the preceding claims, wherein solder is arranged at the connection between the spring contact (9) and the housing (6). 10. Plug or socket for use in the connector according to any of the preceding claims, comprising a housing (6) and wherein the spring contact (9) is attached to a projection (12) or a recess respectively on or in the housing ( 6). 10 1 2 6 9 4