DE3538193C2 - - Google Patents

Description

The invention relates to a connector having the features of the preamble of claim 1.

Establishing a connection between two components a medium voltage or high voltage power supply network, for example between two switching devices or between a switching device and a sleeve, has been done so far usually with the help of cables. Provided the components for are equipped with a plug connection, which is already the case with a Plenty of these components are the two Ver cable ends with the appropriate plug-in fittings see. However, it must be noted that different Connector systems are on the market. So there is, for example as cable connector according to the so-called inner cone system which the plug contact body connects to an insulating body, which forms an outer cone, and those after the so-called Outside cone system (DE-OS 27 26 403, Elektrodienst 27 (1985) booklet 3, pages 18 and 19), in which the insulating body one for  Forms plug end open inner cone into which the plug contact body protrudes. In this case the isolator forms of the mating connector, which contains the socket, one outer cone adapted to the inner cone, whereas the Inner cone system the socket at the inner end of one of the Insulator of the mating connector formed inner cone is arranged.

A known connecting device (DE-PS 32 47 482) allows making a wireless connection between two of the components in question, but only then if both a socket of the known inner cone system for cable connectors. But this requirement is often not met. In addition, this is known connection device integrates a current transformer, which in many Connections are not needed and then use this Excludes connecting device for cost reasons.

An inner cone system also has another known plug connector of the type mentioned (DD-PS 1 42 831). This differs from the usual inner cone design Plug connector on the one hand in that when the plug is inserted a uniform between the inner cone and the outer cone There is a gap, so an electrically tight closure is missing. To the insulating material in the field of control electronics the fault points free of voltage breakdowns and internal mechanical stresses close in the case of the plug part having the plug pin to a frusto-conical approach of a first insulating body under Intermediate layer of a sealing ring is a truncated cone second insulator on that of the first insulator facing end a funnel-shaped recess for receiving of the sealing ring and the frustoconical approach  of the first insulating body, being between the jacket surface of the recess and the outer surfaces of the seal ring and the frustoconical approach with a metallic covering for field control are provided, an air gap is present. Not just in terms of this construction, but also because of the modification of the The usual design of the inner cone system is the application this known connector is low.

The invention has for its object a connector for establishing a wireless connection between one component and one in one of the usual designs Executed mating connector having another compo element of a medium voltage or high voltage energy ver to create care network with the least possible effort the connection to connector parts of different types and different systems allowed. This task solves a connector with the features of claim 1.

Because both the insulating body and the contact body separate components, which with the isolator and corresponding to the rod-shaped body lying in it Requirements can be combined, one comes with a small number of different insulating bodies and Contact bodies from the connector part of one To adapt the component to that of the other component, so that both components are directly connected to each other can. For example, assigns one component to one usual socket according to the inner cone system the insulating body of the connector only a correspon the outer cone. Accordingly, one Adaptation to the shape of the contact body.  

The dimensionally stable insulator, which is preferably made of cast resin and to which a component can be molded, so not trained as a component to be connected to this component det needs to be in a preferred embodiment form the shape of a truncated cone because this shape is an electrical dense, air trapping system of the elastic Insulated body favored on the insulator. For the stated purpose as well as for a simple determination of the depth of penetration of the Isolators in the insulator is an education of this expedient two parts according to claim 3.

To easily isolate the isolator with different Being able to combine contact bodies is an education of the rod-shaped lying in the longitudinal axis of the insulator Body according to claims 4 and 5 advantageous.

In a preferred embodiment, the insulating body contains a field control body so that the isolator to form a Connector apart from the adapter possibly a con tactile body in the form of a plug or socket needed.

To achieve an electrically tight seal the insulating body preferably made of a silicone rubber, such as he also use for the known cable connector systems finds.

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

Fig an adapter of a first exporting. 1 in partial sectional view and partly in longitudinal shown approximately example,

Fig. 2 is a longitudinal section of the first embodiment,

Fig. 3 shows a longitudinal section of a second embodiment,

Fig. 4 shows a longitudinal section of the adapter of FIG. 1 in conjunction with the third embodiment,

Fig. 5 shows a longitudinal section of a fourth embodiment,

Fig. 6 shows a longitudinal section of a fifth embodiment,

Fig. 7 shows a longitudinal section of a sixth embodiment.

An insulating body, designated as a whole by 1 , of an adapter for producing plug connections between two devices or the like. A medium-voltage power supply network consists of silicone rubber and, as shown in FIG. 1, has a rotationally symmetrical shape. The outer lateral surface formed on an up to an end face 2 extending part of the length of the insulating body 1 has an outer cone 3, which tapers towards the end face 2. At the larger diameter end of this outer cone 3 there is an annular groove 4 , the flanks of which are rounded and the bottom of which is conical in the same sense as the outer cone 3 . The end section 20 extending from this annular groove 4 to the other end face 5 has a cylindrical outer surface. A central channel which completely penetrates the insulating body 1 forms in the part opening into the end face 2 a slightly conically widening the channel section 6 towards this end face. The length of this channel section is less than half the axial length of the outer cone 3 . The channel section 6 is followed by a field control body 7 , which is arranged concentrically to the channel and partially embedded in the insulating body 1 and has a central, cylindrical through opening 8 which forms that part of the wall of the channel in which the channel has its smallest inside diameter. The field control body 7 , which consists of an electrically conductive silicone rubber, extends in the direction towards the end face 5 beyond the cylindrical through opening 8 and delimits the inner end section of a channel section which widens conically towards the end face 5 and which forms an inner cone 9 , which also forms part of the inner cone a fillet opens into the end face 5 . The annular groove 4 , the outer surface of the Endab section 20 , the inner surface of the channel section 6 , the facing end face and the central through opening 8 delimiting inner surface of the field control body 7 are each provided with a conductive silicone layer 10 .

The connector system, to which the adapter belongs, also has a device on a device made of cast resin isolator 11 , which is designed as a protruding truncated cone from the device and is therefore also referred to as a device cone. The cone angle corresponds to that of the inner cone 9 , and the strongly rounded transition of the conical surface into the annular shoulder surrounding the ball foot corresponds to the rounded transition to the end face 5 of the insulating body 1 . In the longitudinal axis of the insulator 11 is a rohrför shaped conductor 13 which terminates with the free end of the insulator 1 and is provided with an internal thread. As Fig. 2 shows the inner cone of the insulating body 1 attached to the insulator 11 9. An electrically conductive connecting bolt 12 , the outer diameter of which is smaller than the inner diameter of the through opening 8 of the field control body 7 , is screwed into the threaded bore of the conductor 13 at one end. Its other end section, which is provided with an external thread, projects beyond the end face 2 of the insulating body 1 . A patch on this end portion, and mechanically strong and electrically good conductor associated plug contact body 14 which is matched in its shape on the contact body a recess provided on the other device socket, presses a via the connecting pin 12 pushed sleeve 15 of electrically highly conductive material against the exposed End face of the conductor 13 of the insulator 11 . The outer diameter of this sleeve 15 is chosen so that the field control body 7 bears against it with radial pressure. The sleeve 15 presses by means of a ring shoulder a ring 16 inserted into the channel end section 6 against the field control body 7 .

The plug formed in this way enables a direct bare plug connection between the device or the like. With which the insulator 11 is firmly connected, and a second device or the like, not shown. In the exemplary embodiment, a connecting flange 23 engaging the insulator 11 enables the production of a Screw connection between the plug shown in Fig. 2 and the socket, not shown. The insulating body 1 ensures an electrically tight connection both to the insulator 11 and to the contact surface of the mating connector of the component to be connected.

As shown in Fig. 3, the insulator 11 can also be completed in such a way that the sleeve-shaped extension 17 of a contact body 18 in the form of a socket is screwed onto the connecting bolt 12 which is screwed into the conductor 13 , if at the other Device in a socket body with a conical interior is a connector pin.

An insulator 11 ' , which has the same shape as the insulator 11 , as shown in FIG. 4, can also be provided at one end of a busbar 19 , the conductor (not shown ) lying in the longitudinal axis of the insulator 11' being electrically conductive with the busbar is connected. With an insulating body 1 'is formed, which, like the insulator 1, the insulator 11 can be' complete a plug connector part in the same manner as be above for the embodiments shown in FIGS. 2 and 3 is written.

Fig. 5 shows a protruding from a device insulator 11 '' , which is designed as the insulator 11 . In the in the longitudinal axis of the insulator 11 '' lying a connector pin 14 '' is screwed. The insulating body 1 ' forming the adapter differs from the insulating body 1 only in that the conical channel section 6''of the central, the insulating body penetrating channel has the usual shape and size in cable connectors with an outer cone system. A corre sponding shape and size also has in the channel section 6 '' projecting part of the connector pin 14 '' . The plug formed from the insulator 11 '' , the insulating body 1 '' and the plug pin 14 '' is therefore in a provided on another device or the like. Socket of the outer cone system insertable bar.

As the exemplary embodiments according to FIGS . 6 and 7 show, not only straight-line plug connections, but also angled plug connections can be produced with the plug-in connection system. In the Ausführungsbei of FIG game. 6 which is provided an apparatus or the like. With a protruding insulator 111, which has len the same shape and size as in the previously described Ausführungsbeispie, so also is a device cone. Coupled to this and the conductor, not shown in its longitudinal axis, is an angle piece, designated as a whole by 120 , which has a metallic, tubular housing 121 , each with a connecting flange at both ends. In the longitudinal axis of the housing 121 is embedded in casting resin, a rod-shaped conductor 122 , one end of which is formed for connection to the conductor of the insulator 111 . Over the other end of the housing 121 is an integrally formed with the, the rod-shaped conductor 122 around casting resin insulator 111 ' , which has the same shape and size as the device cone of the previously described embodiments. This device cone 111 ' is in the embodiment by means of an insulating body 101 , which is designed as the insulating body 1 , and a plug contact body 114 in the same manner as the exemplary embodiment according to FIG. 2 to a plug according to the known inner cone system. The plug can be inserted into a corresponding socket which is present on the other device or the like.

In the exemplary embodiment shown in FIG. 7, the insulating body 201 serving as an adapter is located in an angled, tubular housing 221 which, like the housing 121, is provided at both ends with a connecting flange. The end of the insulating body 201 to be plugged onto an insulator 211 is provided with an inner cone which has the shape of the inner cone 9 of the insulating body 1 , since the insulator 211 , which projects from a device or the like, has the same shape as the insulator 11 . In the longitudinal axis of the insulating body 201 made of silicone rubber there is a rod-shaped conductor 222 , one end of which can be connected to the conductor lying in the insulator 211 . The other end of the insulating body 201 forms an inner cone 206 , which has the same shape and size as in the known plugs of the outer cone system. The end portion of the conductor 222 protruding into the inner cone 206 is shaped and shaped like the plug pin of a known plug, and therefore a plug connection can be made with a socket provided on another device or the like of the outer cone system.

Claims (9)

1. Plug connector for the production of a wireless connection between a component and a component of a medium-voltage or high-voltage power supply network, which has a mating connector designed in one of the usual designs, with

• a) a dimensionally stable insulator ( 11, 11 ', 11'', 111, 211 ) which can be attached to the component,
• b) one in the longitudinal axis of the insulator ( 11, 11 ', 11'', 111, 211 ) adjoining this insulating body ( 1, 1', 1 '', 101, 201 ),
• c) one in the longitudinal axis of the insulator ( 11, 11 ', 11'', 111, 211 ) and the insulating body ( 1, 1', 1 '', 101, 201 ) in a both coaxially penetrating through channel, electrically good conductive , rod-shaped body ( 13 ) having a contact body ( 14, 18, 14 '', 114, 222 ) at its free end,

characterized by the following features:

• d) the insulating body ( 1, 1 ', 1'', 101, 201 ) consists of elastically deformable material, it is replaceable on the insulator ( 11, 11', 11 '', 111, 211 ) under electrically tight system and has a contact surface adapted to the contact surface of the respective mating connector,
• e) the contact body ( 14, 14 '', 18, 114, 222 ) is a separate component with a shape adapted to the contact element of the respective mating connector and is interchangeably connected to the conductive, rod-shaped body ( 13 ).

2. Connector according to claim 1, characterized in that the insulator ( 11, 11 ', 11'';111; 211 ) has the shape of a truncated cone. 3. Connector according to claim 2, characterized by a rounded transition from the foot end of the outer surface of the truncated cone to an annular shoulder surface, and a correspondingly formed inner surface of the insulating body ( 1; 1 ';1'';111'; 211 ), 4. Connector according to one of claims 1 to 3, characterized in that in the longitudinal axis of the insulator ( 11; 11 ';11'';111'; 2111 ) lying, electrically well-conductive body ( 13 ) has a central bore with a Has thread into which the contact body ( 14 '' ) can be screwed. 5. Connector according to one of claims 1 to 3, characterized in that in the longitudinal axis of the insulator ( 11, 11 ', 11'',111', 211 ) lying, well conductive, rod-shaped body ( 13 ) has a central bore has a thread into which a connecting bolt ( 12 ) carrying the contact body ( 14, 18 ) can be screwed. 6. Connector according to one of claims 1 to 5, characterized in that the insulating body ( 1 ) contains a concentrically arranged to its central channel field control body ( 7 ) which connects to the insulator ( 11 ). 7. Connector according to one of claims 1 to 6, characterized in that the insulating body ( 1 ) has a conically ver against its end facing away from the insulator ( 2 ) ver tapering outer surface ( 3 ) to which concentrically one to the same end ( 2 ) is a conically widening inner lateral surface, which forms the wall of one end section ( 6 ) of the central channel. 8. Connector according to one of claims 1 to 7, characterized in that the insulator ( 1; 1 ';1'';101; 201 ) consists of silicone rubber.