EP1424750A1 - Electromecanical connection with rotary output cable - Google Patents

Abstract

The device has a plug connector (1) including an outgoing cable part (8) with a circuit substrate and a contact carrying drum. The drum possesses one plug contacts (24) having one abutment type contact faces provided on axial rear side of the cable part. The faces cooperate with another abutment type contact faces such that the cable part is able to be positioned at different angular settings in relation to the drum.

Description

The present invention relates to an electromechanical Plug-in device, the one for electrical and mechanical Connection formed with a connector counterpart Connector having, with a rotatable Kabelabgangsteil Is provided.

In electromechanical connectors is often the problem that the cable going out of the connector, especially if it is an angle plug, a has unfavorable course and with neighboring components collided. This applies, for example, for plug-in devices to be used in the electrical contacting of sensors in Connection with position sensing for fluid operated Drives are used. Often then the outgoing Cable strongly bent to avoid obstacles which can lead to damage.

It is therefore the object of the present invention to provide an electromechanical To provide plug-in device through the the risk of damage in connection with that of the connector reduce outgoing cables.

This task is solved by an electromechanical Plug-in device with a connector for electrical and mechanical connection with a connector counterpart is formed and the cable outlet part with one for electrical connection to an outgoing cable provided circuit carrier and one at the cable outlet part About its longitudinal axis rotatably mounted contact carrier drum has, wherein the contact carrier drum over the first Has plug contacts, which at the cable outgoing part pioneering axial front of the contact carrier drum accessible are to move in the direction of the longitudinal axis the contact carrier drum plugging movement with second Plug contacts of the connector counterpart electrically to be contactable and facing at the cable outlet part axial back of the contact carrier drum with first Berührkontaktflächen are provided, regardless of the currently between the cable outlet part and the contact carrier drum assumed relative rotational position with axially opposite provided on the circuit carrier second Berührkontaktflächen contacted or contacted.

When manufactured electromechanical connection is thus only the relative position between the first plug contacts having contact carrier drum and the contacted Connector counterpart fixed, while the cable outlet part relative to the contact carrier drum and therefore also variable angle of rotation relative to the connector counterpart is positionable to the outgoing cable as desired align. The twistability is indeed already at Contact carrier drum coaxial cable outlet advantage, because twisting the outgoing cable can be avoided. However, the arrangement is particularly advantageous for connectors, are formed as an angle plug, so that the Cable outlet oriented transversely to the longitudinal axis of the contact carrier drum is. The electrical connection between the contact carrier drum and the Kabelabgangsteil done by first and second Berührkontaktflächen on the one of the axial Rear side of the contact carrier drum and the other one with the outgoing cable connected or interconnected circuit board of the connector, wherein associated with each other Pairing first and second touch pads both a permanent contact is possible or just a contact at produced electromechanical connection, wherein previously, during the angular orientation of the cable outlet part, To avoid wear nor any electrical Contact between the first and second contact pads is present.

Advantageous developments of the invention will become apparent from the dependent claims out.

Expediently, the first and / or second Berührkontaktflächen at least partially circular or circular arc-shaped with lying on the longitudinal axis of the contact carrier drum Curvature center formed.

By correspondingly variable configuration of the circuit carrier can easily realize different layout variants become. The circuit carrier can, for example, as Printed circuit board or formed as a 3D MID carrier structure (MID = Molded Interconnect Device).

Particularly advantageous is an embodiment in which a angularly unlimited twistability between the cable outlet part and the contact carrier drum is given. Thereby becomes an unrestricted angular positioning allows.

In a preferred embodiment, the contact carrier drum in the direction of its longitudinal axis with respect to the cable outlet part limited mobility, where they are not permanently connected Connector counterpart so from the circuit board axially moved away is that the first and second Berührkontaktflächen do not touch. The axial mobility may for example be a few tenths of a millimeter. The Cable outlet part can be easily twisted in this state and be positioned. Only at the final fixing of the Connector counterpart is the contact carrier drum through the connector counterpart in the direction of the circuit carrier shifted so that the first and second touch contacts establishing an electrical connection pressed against each other. Through this mutual pressing can at the same time a certain rotationally fixed fixation the Kabelabgangsteils achieved with respect to the contact carrier drum so that wear-promoting constant minimal Rotational movements are excluded.

The angular fixation can be supported by that at the contact carrier drum an engagement contour is provided in the through the connector counterpart acted state of the contact carrier drum in positive Anti-rotation locking engagement with the cable outlet part arrives.

There is in principle the possibility of the first plug contacts the contact carrier drum in punch-bending technique or in Design of inserted metal bushings. An essential better variability in the integration of the first However, plug contacts is achieved by the one Cartridge drum performs as a 3D-MID component, in the the first plug contacts at least partially by using MID technology formed by structured electrical conductors are.

The plug-in device can be designed so that the Connector has channel-like plug-in receptacles, the refer to pin-like second plug contacts of the connector counterpart put on. It is also possible a reverse design with contact pins on the contacting drum, in the production of the connector in socket-like second plug contacts of the connector counterpart plunge.

Between on the one hand the cable outlet part and on the other hand both the contact carrier drum and the connector counterpart can be relatively simple, by training annular Sealing projections on the cable outlet part, reliable Sealing measures are implemented, which prevent intrusion Impurities or liquid in terms of Contacting sensitive areas of the plug-in device prevent. You can at least the tightness standard in this way IP 65 guarantee.

Overall, the plug-in device allows compliance with a small height in the direction of the longitudinal axis of the contact carrier drum. In addition, if necessary, the number of required items are kept very low.

Figur 1

eine erste Bauform eines als Winkelstecker ausgebildeten Steckverbinders der erfindungsgemäßen Steckvorrichtung, in einer perspektivischen Darstellung in einer Ansicht schräg von unten,

Figur 2

den Steckverbinder aus Figur 1 in einer Seitenansicht,

Figur 3

eine Unteransicht des Steckverbinders aus Figuren 1 und 2 mit Blickrichtung gemäß Pfeil III aus Figur 2,

Figur 4

in perspektivischer Darstellung einen Längsschnitt durch die Steckvorrichtung mit auf ein Steckverbinder-Gegenstück aufgestecktem Steckverbinder vor dem Festziehen und dem daraus resultierenden axialen Verspannen von Steckverbinder und Steckverbinder-Gegenstück,

Figur 5

die Anordnung aus Figur 4 in einer zweidimensionalen Schnittdarstellung,

Figur 6

eine vergrößerte Darstellung des Kontaktierungsbereiches zwischen Steckverbinder und Steckverbinder-Gegenstück aus der Anordnung gemäß Figuren 4 und 5, wobei die mechanische Verbindung festgezogen ist, sodass Steckverbinder und Steckverbinder-Gegenstück axial verspannt sind,

Figur 7

eine Einzeldarstellung der bei der Anordnung gemäß Figuren 1 bis 6 vorhandenen Kontaktträgertrommel, die als Zweikomponenten-MID-Spritzgußteil ausgebildet ist, in einer Ansicht schräg von oben auf die axiale Rückseite,

Figur 8

eine Seitenansicht der in Figur 7 abgebildeten Kontaktträgertrommel,

Figur 9

eine Unteransicht der Kontaktträgertrommel mit Blickrichtung gemäß Pfeil IX aus Figur 8 auf die axiale Vorderseite,

Figur 10

eine Draufsicht auf die Kontaktträgertrommel der Figuren 7 bis 9 mit Blickrichtung gemäß Pfeil X aus Figur 8 auf die axiale Rückseite,

Figur 11

einen Querschnitt durch die Kontaktträgertrommel der Figuren 7 bis 10 gemäß Schnitt Linie XI-XI aus Figur 8,

Figur 12

eine Variante der elektromechanischen Steckvorrichtung, wobei lediglich der Schaltungsträger und die Kontaktträgertrommel des Steckverbinders abgebildet sind und wobei der Schaltungsträger als 3D-MID-Komponente ausgebildet ist,

Figur 13

eine Einzeldarstellung des 3D-MID-Schaltungsträgers aus Figur 12 in einer perspektivischen Ansicht schräg von unten,

Figur 14

die bei der Variante gemäß Figur 12 verwendete Kontaktträgertrommel in einer perspektivischen Einzeldarstellung,

Figur 15

eine Draufsicht der Kontaktträgertrommel aus Figur 14 mit Blickrichtung gemäß Pfeil XV auf die axiale Rückseite,

Figur 16

eine weitere mögliche Bauform der Kontaktträgertrommel in einer perspektivischen Einzeldarstellung, wobei die an ihr vorgesehenen ersten Berührkontaktflächen ringförmig ausgebildet sind und aus einem dauerelastischen Kontaktwerkstoff bestehen,

Figur 17

die Kontaktträgertrommel aus Figur 16 in einer Explosionsdarstellung zur Verdeutlichung eines bevorzugten Mehrkomponenten-Aufbaus mit einem zentralen Kern und zwei von entgegengesetzten Stirnseiten her aufgesetzten Kopfteilen, .

Figur 18

den ebenfalls als Winkelstecker ausgebildeten Steckverbinder einer weiteren Variante der erfindungsgemäßen Steckvorrichtung in einer perspektivischen Darstellung mit Ansicht schräg von unten, wobei abweichend zu den bisherigen Bauformen die zur Kontaktierung mit dem Steckverbinder-Gegenstück ausgebildeten Bestandteile der ersten Signalkontakte als Kontaktstifte ausgebildet sind, die zum Einstecken in buchsenartige zweite Steckkontakte des nicht dargestellten Steckverbinder-Gegenstückes dienen, und

Figur 19

eine Einzeldarstellung der bei dem Steckverbinder gemäß Figur 18 integrierten Kontaktträgertrommel in einer perspektivischen Darstellung.

The invention will be explained in more detail with reference to the accompanying drawings. In this show:

FIG. 1

a first design of a plug formed as an angle connector of the plug-in device according to the invention, in a perspective view in a view obliquely from below,

FIG. 2

the connector of Figure 1 in a side view,

FIG. 3

3 shows a bottom view of the connector from FIGS. 1 and 2, looking in the direction of arrow III from FIG. 2,

FIG. 4

a perspective view of a longitudinal section through the plug-in device with a plugged connector connector on a connector before tightening and the resulting axial distortion of connector and connector counterpart,

FIG. 5

the arrangement of Figure 4 in a two-dimensional sectional view,

FIG. 6

an enlarged view of the contacting region between the connector and the connector counterpart of the arrangement according to Figures 4 and 5, wherein the mechanical connection is tightened so that the connector and connector counterpart are axially braced,

FIG. 7

an individual view of the existing in the arrangement of Figures 1 to 6 contact carrier drum, which is designed as a two-component MID injection molded part, in a view obliquely from above to the axial rear side,

FIG. 8

a side view of the illustrated in Figure 7 contact carrier drum,

FIG. 9

8 is a bottom view of the contact carrier drum looking in the direction of arrow IX from FIG. 8 onto the axial front side;

FIG. 10

8 is a plan view of the contact carrier drum of FIGS. 7 to 9 looking in the direction of arrow X from FIG. 8 onto the axial rear side;

FIG. 11

3 shows a cross section through the contact carrier drum of FIGS. 7 to 10 according to section line XI-XI from FIG. 8,

FIG. 12

a variant of the electromechanical plug-in device, wherein only the circuit carrier and the contact carrier drum of the connector are shown and wherein the circuit carrier is designed as a 3D-MID component,

FIG. 13

1 is a detail view of the 3D-MID circuit carrier of Figure 12 in a perspective view obliquely from below,

FIG. 14

the contact carrier drum used in the variant according to FIG. 12 in a perspective individual representation,

FIG. 15

a top view of the contact carrier drum of Figure 14 viewed in accordance with arrow XV on the axial rear side,

FIG. 16

a further possible design of the contact carrier drum in a perspective individual representation, wherein the provided at her first Berührkontaktflächen are annular and consist of a permanently elastic contact material,

FIG. 17

the contact support drum of Figure 16 in an exploded view to illustrate a preferred multi-component structure with a central core and two from opposite end faces mounted headboards,.

FIG. 18

designed as an angle plug connector another variant of the plug-in device according to the invention in a perspective view with view obliquely from below, which deviating from the previous designs designed to make contact with the connector counterpart components of the first signal contacts are designed as contact pins for insertion in socket-like second plug contacts of the connector counterpart not shown serve, and

FIG. 19

an individual view of the integrated in the connector according to Figure 18 contact carrier drum in a perspective view.

Starting with the embodiment shown in Figures 1 to 11 the electromechanical plug is a connector 1, which provides a releasable electrical and mechanical Connection with a connector counterpart 2 can go down. The connector counterpart is for example Component of an electrical device that uses electrical Signals is to supply or even such electrical Outputs signals. It can be with the electrical device for example, a sensor or an electronic Act control device in the field of automation technology.

The connector counterpart 2 is cup-shaped and has a bottom 3 to which a sleeve-shaped Wall section 4 connects, with an external thread. 5 is provided. The bottom 3 is of several anchored therein second plug contacts 6 passes through the pin-like design are and the one end with the associated electrical Device are contacted (not shown) while using their front end portions axially in the from the bottom 3 and from sleeve-like wall section 4 bounded interior 7 of the Protruding connector counterpart 2.

The connector 1 is suitably as an angle plug educated. It contains, inter alia, a cable outlet part 8 and a contact carrier drum 12, wherein the contact carrier drum 12 with respect to its longitudinal axis 13 rotatable on the Cable outlet part 8 is mounted.

The cable outlet part 8 has a plastic material existing housing 14 into which a preferably plate-like trained circuit substrate 15 is embedded. He wears an electrical detail not shown in detail Circuit, for example, metallic conductive structures with or without additional electronic components, and is electrically connected to the wires 16 of an electrical cable 17, with one end in a cable outlet section 18 of the housing 14 is embedded and from there from the connector 1 goes off or leads away. The cable 17 and the wires 16 are indicated only by dash-dotted lines. The cable outlet section 18 is transverse and in particular rectangular aligned with the longitudinal axis 13.

The essentially cylindrical contact carrier drum 12 has two opposing forehead areas, hereinafter referred to as axial front 21 and axial Rear 22 are designated. The contact carrier drum 12 has a mono- or multi-part carrier body 23 Plastic material on the first electrical plug contacts 24th are arranged.

The first plug contacts 24 are at the cable outlet part 8 pioneering axial front 21 of the contact carrier drum 18 accessible to an electrical connector with the second plug contacts 6 of the connector counterpart 2 to allow. In the area of the axial rear side 22 of the contact carrier drum 12 are the first plug contacts 24 - in the embodiment of Figures 1 to 11 These are three pieces - each with at least one axially oriented first Berührkontaktfläche 25, each of which a facing second Berührkontaktfläche 26 in the direction of Longitudinal axis 13 opposite, in a contacting area 27 of the circuit substrate 15 are provided.

While the first Berührkontaktflächen 25 on to the first Plug contacts 24 belonging, axially resilient button contacts 28 are provided so that punctual contact surfaces result, the second Berührkontaktflächen 26 more with respect to the longitudinal axis 13 concentric with each other circular structures. According to the radial Distance between these annular second Berührkontaktflächen 26, the first touch pads 25 are different spaced far from the longitudinal axis 13. this has As a result, during a rotation of the contact carrier drum 12 about its longitudinal axis 13 with respect to the cable outlet part 8, the selectively distributed first Berührkontaktflächen 25 along the circumference of each opposite second contact pad 26 are moved. To this Way, there is the possibility through pairwise contact first and second touch pads 25, 26 regardless of the current angular orientation of the cable outlet part 8 with respect to the contact carrier drum 12 a electrical connection between the first plug contacts 24th the contact carrier drum 12 and with the second Berührkontaktflächen 26 connected circuit of the circuit carrier 15 produce.

Due to the circular shape of the second Berührkontaktflächen 26 is an angular unlimited twistability between the cable outlet part 8 and the contact carrier drum 12th given, wherein in each rotational angle position mentioned electrical connection is possible.

Is a first Berührkontaktfläche 25 on the Longitudinal axis 13 of the contact carrier drum 12, requires the associated second contact pad 26, as in the embodiment, no annular shape. It is sufficient then one simple punctual contact surface. Is an unlimited rotational angle Orientation not desired, may be in place annular second Berührkontaktflächen 26 also a not chosen in itself arcuate design become.

The free rotation of the Kabelabgangsteils 8 is given as long as until the connector 1 and the connector counterpart 2 mutually axially, that is in the direction of Longitudinal axis 13, are braced. This distortion is effected by a sleeve-like fastening nut 32, the rotatable on the housing 14 of the Kabelabgangsteils 8 and axially is fixed captive, taking the contact carrier drum 12 coaxially surrounds with radial distance. On its inner circumference is it with a male thread 5 complementary Internal thread 33 provided.

To produce the desired electrical connection is the connector 1 with the axial front of the contact carrier drum 12 in the interior of the connector counterpart 2 inserted, with the first and second Plug contacts 24, 6 get into plug-in engagement. In this condition the cable outlet part 8 is still relative to the contact carrier drum 12 rotatable, in turn, by the mentioned Plug-in engagement, with respect to the connector counterpart. 2 is rotationally fixed.

After the cable outlet part 8 in the desired rotational position has been brought, the fastening nut 32 is on the sleeve-like Wall section of the connector counterpart 2 screwed on and tightened. In the process, the axial insertion depth becomes between the first and second plug contacts 24, 6 further increases and at the same time the connector counterpart 2 in the direction of the longitudinal axis 13 to the housing 14 of Kabelabgangsteils 8 used, wherein it Contact carrier drum 12 presses against the circuit carrier 15, so that the first and second contact pads 25, 26 tightly clamped together. In this way, the set rotational position releasably firmly fixed.

While Figures 4 and 5 the only mated and not yet tightened by the fastening nut 32 State show the figure 6 discloses the state when tightened Mounting nut 32, so the electrical connection safely manufactured and fixed the set rotational position is.

The circuit carrier 15 of the design according to FIGS. 1 to 11 is a circuit board. However, it is also possible a design in the form of a preferably likewise plate-like, 3D-MID support structure, as in the circuit carrier 15a of Embodiment according to Figures 12 and 13 is the case. In the Manufacturing is the circuit board as needed with components and electrical conductors populated and in this state molded with the plastic material forming the housing 14. The housing material is expediently a soft, translucent material that respects the existing Requirements for kink protection and leakproofness optimized has been.

If a 3D MID circuit carrier is used, the - in place the contact carrier drum 12 - equipped with button contacts 28 is, for example, by means of laser structuring or hot stamping with the desired layout. Consequently can over a simple sprayed carrier a number of Variants of plug devices cost-effective equipped and adapted to changing requirements.

In the design of Figures 1 to 11 is the contact carrier drum 12 a in two-component injection molding of plastic material Manufactured component that is partially metallic in MID technology is coated to at least the essential ingredients to realize the first plug contacts 24.

In detail, the carrier body 23 has several along distributed circumferentially distributed groove-like recesses 35, each pass from the front 21, where they some places are covered radially on the outside. A first covered one Range results from the fact that the groove-like depressions 35 - at the same axial height - of first web sections 36 of the carrier body 23 are bridged so that resulting in axially continuous window-like openings 37.

Another covered area of the groove-like depressions 35 results from second web portions 38 of the carrier body 23, located in the region of the axial front side 21 the contact carrier drum 12 are located. They limit to the axial Front side 21 open channel-like plug-in receptacles 42nd over part of its length, in which the pin-like second Plug contacts 6 are inserted.

The groove-like recesses 35 are circumferentially metallic coated, wherein the metal layers first electrical conductors 43 form, the components of the first plug contacts 24th are. Preferably, the groove-like recesses 35 - like from Figure 11 shows - a trapezoidal contoured Cross-section, both their base and their Base face converging flanks to form the mentioned first electrical conductor 43 metallically lined are.

At the axial rear side 22, the first electrical occur Head 43 from the groove-like recesses 35 and lead to the front side in the support body 23 introduced receiving recesses 44, in which the already mentioned resilient button contacts 28, producing an electrically conductive Connection to the first electrical conductors 43, firmly inserted are.

The button contacts 28 may be made of a continuous molybdenum spring wire consist, which pressed into a cylindrical shape was and has resilient properties. In this way a very high contact reliability is achieved. If necessary the button contact 28 can be supplemented with a contact stamp or be replaced by a spring-stamp unit. It would also be conceivable, instead of the button contacts 28 a Permanently elastic contact material to be used in the Receiving recesses 44 of the carrier body 23 is dispenst whereby a fixing of the contacts by means of conductive adhesive is eliminated.

In order to further increase the contact security, in place button contacts 28 also conductive, point and / or annular Structures from the already mentioned permanently elastic contact material - For example, an electrically conductive Sealant or conductive adhesive - find use. The contact material can directly on the first electrical conductor 43 be applied. It is also possible with the contact material filled via on the corresponding first electrical conductor of the contact carrier drum 12.

The latter embodiment is in the variant according to Figures 16 and 17 realized. You recognize it there the axial front 21 in corresponding recesses 45th the support body 23 fixed contact material 46 and indicated Vias 47.

As an alternative to dispensing, also prefabricated rings and Balls or cylinders of conductive materials, for example O-rings installed to form the first touch pads 25 become.

The above statements apply accordingly for the second touch pads 26, if they correspond to be trained.

Does the plug-in device has a relatively high number of poles with respect to the diameter, for example in a four-pole Type of construction in M8 version, is particularly recommended Use of a MID circuit carrier, since the very convenient required spatially separated signal transmission with respect the contact carrier drum 12 is possible. This becomes clear in the construction shown in Figures 12 to 15, wherein the second Berührkontaktflächen 26 in the direction of the longitudinal axis 13th at different heights. A corresponding height gradation then results in the associated first Berührkontaktflächen 25 of the contact carrier drum 12th

It would be possible in principle to design the plug-and-socket device in such a way that that the Kabelabgangsteil 8 even when tightened Fixing nut 32 relative to the contacting drum 12th rotates remains. But that would mean a certain amount Wear problem, because of the sliding first and second touch pads 25, 26. Therefore, the already indicated construction considered advantageous in the the cable outlet part during the connection process by tightening the fastening nut - in particular a knurled nut - unverdrehbar is locked.

In this connection, the contact carrier drum 12 is a in Figure 5 indicated axial dimension "a" in the direction of Longitudinal axis 13 with respect to the cable outlet part 8 limited movable.

In the unmounted state, the contact carrier drum 12th thus apparent from Figures 4 and 5, axially from the circuit board 15 starting position withdrawn by the dimension "a" taking. In this position, the first and second Berührkontaktflächen 25, 26 by the mentioned measure "a" to each other spaced.

When installing the connector 1 dip the pin-shaped second plug contacts 6 in the channel-like plug-in receptacles 42, taking them under the second land sections 38 reach through and laterally in contact with the first electrical Ladders 43 arrive. Already by the resulting Friction the contact carrier drum 12 is taken and shifted in the direction of the circuit substrate 15.

This entrainment effect is supported in the embodiment nor in that the plug receptacles 42 in the direction to the axial rear side 22 of the contact carrier drum 12 in Rejuvenate cross section, so that the pin-like second plug contacts 6 gradually increases during the connection process against the groove-like recesses 35 lining first electrical conductor 43 are pressed. The rejuvenating Cross section results in the embodiment, that the depth of the groove-like recesses 35 axially in Direction to the circuit substrate 15 decreases towards, as shown in FIG 5 is indicated at 48.

If the mounting nut 32 on the connector counterpart 2 screwed and thus the cable outlet part. 8 pulled toward the connector counterpart 2, presses after reaching a certain screwing depth additionally the Bottom 3 of the connector counterpart 2 on the front End face 52 of the support body 23, so that it firmly against the circuit carrier 15 is biased (Figure 6).

The axial movement play "a" becomes the contact carrier drum 12 awarded for example by the fact that the contact carrier drum 12, with its axial back 22 ahead, rotatable and at the same time axially captive in one of a depression formed drum receptacle 53 of the housing 14 of the Kabelabgangsteils 8 is plugged, to which the second Berührkontaktflächen 26 having contacting region 27 of Circuit carrier 15 leads. The drum holder 53 has a circumferential radial recess 54 into which the contact carrier drum 12 with one or more radially outwardly projecting Holding projections 55 engages the axial dimensions smaller are as those of the radial recess 54. By the thus resulting undercut is the contact carrier drum 12 prevented from falling out. simultaneously allows the difference in length the desired adjustability by the measure "a".

It would be possible in principle, the first plug contacts 24 metallic sleeves or in punch-bending technique. The applied in the embodiment of two-component injection molding technology in MID technology, however, has manufacturing technology Advantages. So can the first electrical Ladder 43 forming metallizations very simply designed that will always be two, ideally three, however Contact surfaces during insertion of the particular cylindrical designed pin-like second plug contacts 6 in the trapezoidal contoured groove-like depressions 35 arise.

In the manufacture of the contact carrier drum 12 can first as a first component a plastic material, from the back 22 to approximately the front 21 through Central part of the carrier body 23 are injection-molded, in which the groove-like recesses 35 are formed, using the MID technique to obtain the first electrical Ladder 43 are metallized. On the outer circumference of such manufactured component is used as a second component of the carrier body 23 formed a sleeve-like outer part 57, wherein However, the groove-like depressions 35 remain free. It arise only the already mentioned bridging the groove-like recesses 35 through the outer part 57 belonging first and second land portions 36, 38.

In addition, the outer part 57 forms several preferably tongue-like formed, resilient holding elements 58, the the groove-like recesses 35 in the region of the channel-like Plug receptacles 42 following the second web sections 38 overlap at the open side. These retaining elements 58 are elastically resiliently spring back to the longitudinal axis 13 deformable.

When inserted into the connector counterpart 2, the Retaining elements 58 radially outward of the sleeve-like wall portion 4 of the connector counterpart 2 enclosed. So long the fastening nut 32 is not actuated, practice the Holding elements 58 no or at least a small contact pressure on the pin-like second plug contacts 6 across to the longitudinal axis 13. Thus, one results in the metallization layers gentle electrical contact.

If then the fastening nut 32 is screwed tight, dives the sleeve or collar-like Wall section 4 of the connector counterpart 2 axially in the fastening nut 32 and pushes axially over the the holding elements 58 having the front longitudinal section the contact carrier drum 12. In this movement, the Holding elements 58 on a suitably shaped Beaufschlagungspartie 62 - for example, a nose-like radial projection - acted upon by the sleeve-like wall portion 4 and after radially inward toward the base of the groove-like depressions 35 displaced. They act on the inserted ones second plug contacts 6 and press this reinforced against the first electrical conductor 43, so a very safe electrical contacting takes place.

Due to the inclined base of the groove-like depressions 35, the clamping effect is additionally supported.

On the holding elements 58 may be waived under certain circumstances, if in use of the plug device hardly vibrations are expected and by the other radial biasing measures a secure contact between the first and second plug contacts 24, 6 is ensured.

When tightened fastening nut 32 results in a reliable sealing of the drum holder 53 to the environment out. This results among other things from the fact that the sleeve-like Wall section 4 when pulling on the housing 14 with his the bottom 3 opposite front edge portion 63rd coaxial with a first annular sealing projection 64 is pressed, which is integral with the housing 14 of the Kabelabgangsteils 8 is formed and the drum holder 53rd concentrically encloses.

As a further sealing measure are the window-like openings 37, the channel-like plug receptacles 42 to the back 22 of the contact carrier drum 12 out to limit, with capillary introduced adhesive 65 sealed. Furthermore closes on the outer circumference of the contact carrier drum 12 second, on the housing 14 of the Kabelabgangsteils 8 trained annular sealing projection 66 the the circuit carrier 15 facing end portion of the drum receiving 53 for Environment down tight.

The above-described rotationally fixed locking between the Kabelabgangsteil 8 and the contact carrier drum 12 can alone based on frictional contact between both components. However, if necessary, as in the embodiment, provided an additional positive locking be.

To obtain the positive locking is on the contact carrier drum 12, in particular by one-piece Anformung received on the carrier body 23, a tooth-like Engaging contour 67, which is axially toward the cable outlet part 8 has and in the material of the housing 14th penetrates when the contact carrier drum 12 through the connector counterpart 2 is moved accordingly. Special Recesses on the housing 14 are unnecessary when the Housing material is sufficiently elastic to prevent penetration the engagement contour 67 to allow.

The design of Figures 12 to 15 corresponds to that of Figures 1 to 11, wherein only the circuit carrier 15a as well as the measures for the realization of the first and second Berührkontaktflächen 25, 26 in the manner already described differ and omitted by way of example on the holding elements 58 has been.

Figures 16 and 17 show a modified contact carrier drum 12, on the above in connection with a possible Design of the measures for the realization of the second Berührkontaktflächen 26 has already been briefly mentioned. Furthermore consists in this contact carrier drum 12 of the carrier body 23 of several components, and that of an elongated Kern 68, on the opposite ends two head parts 72, 73 are placed. The core 68 exists from the outer circumference originally completely metallized Plastic material from which by targeted material removal required for the realization of the first plug contacts 24 electrical conductors were structured (not shown). The structuring can be done, for example, by scratching the metal surfaces surrounding the outer surfaces take place. On the outer circumference of the core 68 is also a longitudinal extending positioning groove 74, in the inner periphery of the Head parts 72, 73 engage provided positioning projections, when the head parts 72, 73 are attached.

The design of Figures 18 and 19 finally corresponds basically those of Figures 1 to 11, wherein only at the first plug contacts 24 instead of channel-like Plug-in receptacles for pin-like second plug contacts of Connector counterpart 2 now contact pins 75 are provided are at the axial front 21 of the contact carrier drum 12 protrude and plug into complementary Socket-like second plug contacts of the connector counterpart 2 are formed. The connector 2 according to Figures 18 and 19 thus represents a jack while he at the other embodiments each formed as a plug is.

The first plug contacts 24 continue to contain first electrical conductors 43 in the groove-like recesses 35 on Extend the outer circumference of the carrier body 23 and through Web portions 76 are bridged locally, so that circumferentially completely closed insertion openings 77 result in the contact pins 75, with simultaneous contact the first electrical conductor 43, are firmly anchored. The contact pins 75, for example, shot or be inserted and fixed by gluing. Also a direct one Injection through the plastic material of the carrier body 23 is possible.

The contact pins 75 can by means of a suitable contact material, for example, solder or conductive adhesive, with the first electrical conductors 43 are connected. As already in the other embodiments are also here to Realization of electrical conductors stamping-bending parts usable.

When using a punch-bending technique instead of the MID technique Sheet can be punched in the desired shape, bent and to be overmoulded. The encapsulation can directly with the desired housing shape, but it is more convenient is to produce a preform as a core, which is the Punch-bending part carries and on which the punch-bending part in the desired individual conductor tracks is disconnected to it afterwards to overmold with the actual housing shape.

Alternatively, the first electrical conductors 43 may also be of the inner surfaces of metal bushings are formed, which one anchored in the carrier body 23 of the contact carrier drum 12. to Generation of a resilient clamping force, the metal bushings slotted at least partially.

Claims (21)

Electromechanical plug-in device, with a connector (1), for electrical and mechanical connection is formed with a connector counterpart (2) and a cable outlet part (8) with one for electrical Connection provided with an outgoing cable (17) Circuit carrier (15, 15a) and one at the cable outlet part (8) about its longitudinal axis (13) rotatably mounted contact carrier drum (12), wherein the contact carrier drum (12) has first plug contacts (24), which at the cable outlet part (8) groundbreaking axial front side (21) of Contact support drums (12) are accessible to under a in the direction of the longitudinal axis (13) of the contact carrier drum (12) taking plugging movement with second plug contacts (6) of the Connector counterpart (2) electrically contactable to be and at the cable outlet part (8) facing the axial Rear side (22) of the contact carrier drum (12) with first Berührkontaktflächen (25) are provided, regardless of currently between the cable outlet part (8) and the contact carrier drum (12) assumed relative rotational position with axially opposite to the circuit carrier (15, 15a) provided second Berührkontaktflächen (26) contacted or contacted are. Plug-in device according to claim 1, characterized in that the first and / or second Berührkontaktflächen (25, 26) are at least partially annular or circular arc formed on the longitudinal axis (13) of the contact support drum (12) lying center of curvature. Plug-in device according to claim 2, characterized in that the other Berührkontaktflächen cooperating with the circular or arcuate Berührkontaktflächen of resilient button contacts (28) are formed. Plug-in device according to claim 2 or 3, characterized in that the annular or circular arc-shaped Berührkontaktflächen (25, 26) are arranged concentrically with each other. Plug-in device according to claim 4, characterized in that the annular or arcuate Berührkontaktflächen (25, 26) are at the same or different axial height level. Plug-in device according to one of claims 1 to 5, characterized in that the circuit carrier (15) is a printed circuit board or a 3D-MID carrier structure. Plug-in device according to one of claims 1 to 6, characterized by an angularly unlimited rotatability between the cable outlet part (8) and the contact carrier drum (12). Plug-in device according to one of claims 1 to 7, characterized in that the contact carrier drum (12) in the direction of its longitudinal axis (13) with respect to the cable outlet part (8) is limitedly movable, such that they are to be connected from the connector counterpart (2) in the direction to the circuit carrier (15) is displaceable, wherein the first and second Berührkontaktflächen (25, 26) are pressed against each other. Plug-in device according to claim 8, characterized in that on the contact carrier drum (12), in particular on the axial rear side (22), a tooth-like engagement contour (67) is arranged in the by the connector counterpart (2) acted upon state of the contact carrier drum (12 ) passes in positive Verrehsicherungseingriff with the cable outlet part (8). Plug-in device according to one of claims 1 to 9, characterized in that the contact carrier drum (12) is a 3D-MID component whose first plug contacts (24) are at least partially formed by MID technology produced electrical conductors (43). Plug-in device according to one of claims 1 to 10, characterized in that the contact carrier drum (12) via the axial front (21) open channel-like plug receptacles (42), which is designed to receive pin-like second plug contacts (6) of the connector counterpart (2) are and the circumference with at least one of the first plug contacts (24) belonging electrical conductor (43) are provided, which can be contacted by the inserted second plug contact (6). Plug-in device according to claim 11, characterized in that the channel-like plug-in receptacles (42) of in the region of the outer periphery of the contact carrier drum (12) placed resilient retaining means (58) are limited, which are acted upon by the connected connector counterpart (2) outside, so that they the in the respective socket (42) located pin-like second plug contact (6) can press radially inward into contact with the electrical conductors (43) of the first plug contacts (24). Plug-in device according to one of claims 11 or 12, characterized in that the channel-like plug-in receptacles (42) have a trapezoidal contoured cross-section, both its base and its converging to the base flanks with an electrical conductor (43) of the first signal contacts (24). are lined. Plug-in device according to one of claims 11 to 13, characterized in that the plug receptacles (42) in the direction of the axial rear side (22) to the contact carrier drum (12) taper in cross section, so that the pin-like second plug contacts (6) during the connection process increasingly against the laterally arranged electrical conductors (43) of the first plug contacts (24) are pressed. Plug-in device according to one of claims 1 to 10, characterized in that the contact carrier drum (12) to the first plug contacts (24) belonging contact pins (75) projecting on the axial front side (21) and engaging in female second plug contacts of the connector Counterpart (2) are formed. Plug-in device according to one of claims 1 to 15, characterized in that the first and / or second Berührkontaktflächen (25, 26) consist of a permanently elastic contact material (46), for example an electrically conductive sealant or a conductive adhesive. Plug-in device according to one of claims 1 to 16, characterized in that the cable outlet part (8) comprises a housing made of plastic material (14), in which the circuit carrier (15) - in particular by encapsulation - is embedded and the one to the second Berührkontaktflächen (26) having contacting region (27) of the circuit carrier (15) leading drum receptacle (53) into which the contact carrier drum (12), with its axial rear side (22) ahead, rotatably inserted and at the same time axially captive. Plug-in device according to claim 17, characterized in that on the housing (14) within the drum receptacle (53) a contact support drum (12) concentrically enclosing first annular sealing projection (64) is formed, to which the connector counterpart (2) in the connected state with a contact carrier drum (12) enclosing sleeve-shaped wall portion (4) is pressed under sealing. Plug-in device according to claim 17 or 18, characterized in that on the housing (14) within the drum receptacle (53) a the contact carrier drum (12) with sealing contact enclosing the second annular Dichtüngsvorsprung (66) is formed. Plug-in device according to one of Claims 1 to 18, characterized by a contact carrier drum (12) having a multipart carrier body (23) with a core (68) completely metallized in the initial state and structured by mechanical processing to obtain the first signal contacts (24) opposite end faces are two head parts (72, 73) are placed, of which in the region of the axial rear side (22) located head portion (72) carries the first Berührkontaktflächen (25). Plug-in device according to one of claims 1 to 20, characterized in that the plug connector (1) is designed as an angle plug.

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