DE4139100C1 - Plug and socket appts. - has elastic deformable damping piece(s) radially tensioned against contact support as well as socket when coupled together - Google Patents

Abstract

The plug part includes a contact carrier with at least one laminar contact element (7) whose lamellae rest against the inner wall of the jack or socket part when the plug is inserted. The laminar contact element (7) is positioned between two annular slots (8), in each of which an O-ring (9) made of an elastically deformable amt vibration-damping material is positioned. Each ring protrudes over the outer wall surface of the contact carrier (5) to rest against the inner wall (2) when the plug and socket connection (1,4) is made.

Description

The invention relates to a plug contact arrangement, consisting from a plug part and a socket part, the plug partly a contact carrier with at least one lamella contact has element, the lamellae with manufactured Steckver Binding lie on the inner wall of the socket part (EP 04 29 734 A1).

The invention has for its object a plug contact improve arrangement of the type mentioned above. These Task solves a plug contact arrangement with the features of Claim 1.

The damping body made of an elastically deformable, swing on the one hand contributes to the plug to keep part in the target position with respect to the socket part, in the usual rotationally symmetrical design of the connector  part and the socket part so the connector part with respect to Center the socket part. It also dampens vibrations, which the plug part transverse to the plug direction if necessary executes. Both functions of the damping body relieve the Slats of the slat contact element and thus contribute significantly contribute to ver the life of the lamella contact element prolong.

It would also be possible to have individual damping bodies in the circumference to be arranged offset. But the advantage is Damping body designed as an annular body. If there is one Ring body made of an electrically insulating material, then he can also perform a sealing function at the same time, esp special form an electrical seal.

In principle, the damping body on the plug part or on Be socket part arranged. Provided at least two damping body are present, even the one on the plug part and the other can be provided on the socket part. In a preferred one Embodiment is the sealing body, and if little there are at least two sealing bodies, each sealing body arranged on the contact carrier.

When the damping body is designed as an annular body it is expedient to have it engage in an annular groove. Man can then use an O-ring, for example, as a ring body.

The damping body can also have a conical contact surface define with which he is plugged into a correspondingly designed conical surface with preload is present. However, in this case the plug part in inserted state kept under an axial preload be so that the damping body under pressure on the corres  there is a bonding conical surface.

The lamella contact element is preferably between two dampers arranged. If at least in the direction of insertion two lamella contact elements are arranged side by side, however, it is then not necessary for each of the slats to arrange contact elements between two damping bodies.

The invention is based on in the drawing illustrated embodiments explained in detail.

Show it

Fig. 1 is a half in longitudinal section and half in side view of plug illustrated in part and the receiving it, in the longitudinal cut Rich socket part shown tung a first embodiment,

Fig. 2 is a half in longitudinal section and half in side view of plug illustrated in part and the receiving it, in the longitudinal cut Rich socket part shown tung a second embodiment,

Fig. 3 is a part shown in half in longitudinal section and half in side view of the connector and receiving it, shown in longitudinal direction cut female part of a third embodiment.

A plug contact arrangement, as used for example for cable plugs of medium-voltage cables, has, as shown in FIG. 1, a pot-shaped socket part 1 made of a contact material that has a cylindrical inner wall 2 with a short conical inlet 3 at the open end.

A together with the socket part 1, the plug contact arrangement forming the plug part 4 has a hollow cylindrical contact carrier 5 made of electrically highly conductive material, which in the exemplary embodiment is placed concentrically on a bolt 6 and is firmly connected to it. For this purpose, the bolt 6 has a frustoconical centering section and an end section provided with an external thread. The latter engages in the threaded central bore of the contact carrier 5 .

In its central zone, the contact carrier 5 carries a lamella contact element 7, often referred to as a multi-contact. To fix this sleeve-shaped lamella contact element 7 on the contact carrier 5 , the latter is provided with an annular groove in which the lamella contact element 7 engages. Its lamellae protrude radially beyond the contact carrier 5 and, when the plug connection has been produced, are pretensioned to form numerous line contacts on the inner wall 2 of the socket part 1 .

As Fig. 1 shows, the plate contact member 7 is arranged between the two annular grooves 8 which are inserted from the outside into the support contact 5. In both ring grooves 8 there is an O-ring 9 made of an elastically deformable and vibration-damping material. Since the O-rings 9 are commercially available O-rings in the exemplary embodiment, the material is also electrically insulating.

The O-rings 9 are over the outer surface of the contact carrier 5 and are therefore with radial preload on the inner wall 2 when the connector part 4 is inserted into the socket part 1 , as shown in FIG. 1. The O-rings 9 thus contribute to the centering of the plug part 4 in the socket part 1 and also dampen vibrations of the plug part 4 transversely to the plug-in direction, that is to say in the radial direction, which the latter may execute relative to the socket part 1 . Additional mechanical loads are largely kept away from the lamellae of the lamella contact element 7 here .

The exemplary embodiment shown in FIG. 2 differs from that according to FIG. 1 only in that the annular grooves 108 which are pierced from the outside into the contact carrier 105 have a profile which is trapezoidal in cross section and which narrows radially outward. Further, instead of the O-rings 9 Dämp Fung rings 109 in the two annular grooves 108 used whose lying in the annular groove 108 has a part adapted to the cross-sectional profile of the annular groove 108 cross-sectional profile.

The damping rings 109 protrude radially slightly beyond the outer surface of the contact carrier 105 so that they abut against the inner wall 102 of the socket part 101 when the plug connection has been produced and thus contribute to centering the plug part 104 in the socket part 101 and, if appropriate, vibrations occurring transversely to Steam plug direction.

Since the rest of the second embodiment as the first Embodiment is formed, because of further individual on the explanations of the first embodiment Referred.  

The exemplary embodiment shown in FIG. 3 is modified compared to the exemplary embodiment according to FIG. 1 in that the contact carrier 205 tapers conically at the end facing the bottom of the socket part 201 when the plug connection is made. In this conical end portion an annular groove is inserted from the outside, into which a damping ring 210 is inserted, which projects beyond the conical outer surface of the end portion of the contact carrier 205 and here also forms a conical outer surface 210 '. When the plug connection is produced, this conical outer surface 210 'is pressed onto a bearing surface 201 ' of the bushing part 201 which forms a corresponding cone. The damping ring 210 therefore also contributes to the centering of the plug part 204 in the socket part 201 and, since it consists of a material suitable for this purpose, dampens any vibrations that occur transversely to the plug direction.

A second annular groove 208 , between which and the damping ring 210, the lamellar contact element 207 is arranged, takes on an O-ring 209 , which protrudes beyond the outer circumferential surface of the contact carrier 205 , so that it also has a connection produced with radial preload on the inner wall 202 of the Socket part 201 is present. Of course, instead of the O-ring 209 , a damping ring could also be used which, like the damping rings 109 , is positively fixed radially outward in the associated ring groove.

Limit the foregoing description and drawings referring only to the specification of characteristics for the example wise embodiment of the invention are essential.

Claims (9)

1. Plug contact arrangement, consisting of a plug part and a socket part, the plug part having a contact carrier with at least one lamella contact element, the lamellae of which, when a plug connection is made, bear against the inner wall of the socket part, characterized by at least one damping body ( 9 ; 109 ; 209 , 210 ) an elastically deformable, vibration-damping material, which is supported both on the contact carrier ( 5 ; 105 ; 205 ) and on the socket part ( 1 ; 101 ; 201 ) in the case of a plug connection with radial preload. 2. Arrangement according to claim 1, characterized in that the damping body is formed as an annular body ( 9 ; 109 ; 209 , 210 ). 3. Arrangement according to claim 1 or 2, characterized in that the damping body ( 9 ; 109 ; 209 , 210 ) is arranged on the contact carrier ( 5 ; 105 ; 205 ). 4. Arrangement according to one of claims 2 or 3, characterized in that the annular body ( 9 ; 109 ; 209 , 210 ) engages in an annular groove ( 8 ; 108 ; 208 ). 5. Arrangement according to one of claims 2 to 4, characterized in that the ring body is in the form of an O-ring ( 9 ; 209 ). 6. Arrangement according to one of claims 1 to 4, characterized in that the damping body ( 210 ) defines a conical contact surface ( 210 ') with which it bears with a plug connection produced on a correspondingly shaped conical surface ( 201 ') with bias. 7. Arrangement according to one of claims 1 to 6, characterized in that the damping body ( 109 ) is positively connected in the radially outward direction with the contact body ( 105 ). 8. Arrangement according to claim 7, characterized in that in the case of an annular groove ( 108 ) this has an outwardly narrowing cross-sectional profile and the cross-sectional profile of the damping body ( 109 ) in the area in the annular groove ( 108 ) to that of the annular groove ( 108 ) is adjusted. 9. Arrangement according to one of claims 1 to 8, characterized in that the lamella contact element ( 7 ) between two of the damping body ( 9 ; 109 ; 209 , 210 ) is arranged.