EP2417675B1 - Plug system housing for multi-core cables - Google Patents

Plug system housing for multi-core cables Download PDF

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Publication number
EP2417675B1
EP2417675B1 EP10715684.6A EP10715684A EP2417675B1 EP 2417675 B1 EP2417675 B1 EP 2417675B1 EP 10715684 A EP10715684 A EP 10715684A EP 2417675 B1 EP2417675 B1 EP 2417675B1
Authority
EP
European Patent Office
Prior art keywords
plug
contacts
housing
cable
circuit board
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP10715684.6A
Other languages
German (de)
French (fr)
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EP2417675A1 (en
Inventor
Ernst Klees
Joachim Zellner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Harting Electronics GmbH and Co KG
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Harting Electronics GmbH and Co KG
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Publication date
Application filed by Harting Electronics GmbH and Co KG filed Critical Harting Electronics GmbH and Co KG
Priority to PL10715684T priority Critical patent/PL2417675T3/en
Publication of EP2417675A1 publication Critical patent/EP2417675A1/en
Application granted granted Critical
Publication of EP2417675B1 publication Critical patent/EP2417675B1/en
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Anticipated expiration legal-status Critical

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/24Connections using contact members penetrating or cutting insulation or cable strands
    • H01R4/2416Connections using contact members penetrating or cutting insulation or cable strands the contact members having insulation-cutting edges, e.g. of tuning fork type
    • H01R4/242Connections using contact members penetrating or cutting insulation or cable strands the contact members having insulation-cutting edges, e.g. of tuning fork type the contact members being plates having a single slot
    • H01R4/2425Flat plates, e.g. multi-layered flat plates
    • H01R4/2429Flat plates, e.g. multi-layered flat plates mounted in an insulating base
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/66Structural association with built-in electrical component
    • H01R13/665Structural association with built-in electrical component with built-in electronic circuit
    • H01R13/6658Structural association with built-in electrical component with built-in electronic circuit on printed circuit board
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R24/00Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure
    • H01R24/60Contacts spaced along planar side wall transverse to longitudinal axis of engagement
    • H01R24/62Sliding engagements with one side only, e.g. modular jack coupling devices
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/646Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00 specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
    • H01R13/6461Means for preventing cross-talk
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R2107/00Four or more poles

Definitions

  • the invention relates to a multi-pin connector system housing for multi-core cable with a socket and a plug for the electrical and mechanical connection of electrical conductors.
  • the plug system according to the invention is particularly suitable for building cabling, but is also used in otherwise conventional manner.
  • the plug system according to the invention is provided in particular for building cabling of the class E.
  • This class determines the transmission quality of electrical signals from transmission links or transmission systems from one end point to the other.
  • Corresponding standards such as EN 50 173, specify, for example, the limit values for maximum damping, for crosstalk, for reflections, etc., as well as for the highest permissible frequencies.
  • EN 50 173 specifies, for example, the limit values for maximum damping, for crosstalk, for reflections, etc., as well as for the highest permissible frequencies.
  • class E and future classes it is planned to work with frequencies around 500 MHz.
  • Plug systems are currently in use, with the so-called RJ-11, RJ-12, RJ-45, EC-7, Tera, M12 designations, where the cable length is quite problematic.
  • plug-socket systems are quite expensive to handle in the connection technology and burdened with corresponding error rates.
  • Another problem is at frequencies above 500 MHz, when the internal connection technology, the shield is not or can not be up to the plug contacts.
  • the publication US2009 / 0068883 A1 discloses a multi-pin connector system for multi-core cable with a socket and a plug for electrically and mechanically connecting isolated electrical wires, wherein a trained as a cable bushing block is inserted into a receiving portion in a connector system housing, with receptacles for individual wires of a cable In approximately at right angles to the cable extension having lateral openings through which insulation displacement contacts contact the conductors of the wires after severing the insulation of the wires, being provided on a printed circuit board as a means for contacting the insulation displacement contacts of the cable socket contact surfaces, with further arranged on the circuit board socket contacts in a carrier housing are disposed within the plug system housing, and wherein the block formed as a cable bushing for releasably receiving and fastening is provided with the device.
  • the invention has for its object to present a low-cost and easy to install connector system housing in which the individual wires of a multi-core cable are first to contact with a kind of adapter plug, the cabling can be laid in advance, and the adapter plug then in a trained accordingly Plug connector can be used, wherein the mating face and the connection technology are freely combinable, so that in a multi-core cable, on the individual conductors different signals are transmitted, transmit the signals to the desired end users with different mating faces connector.
  • the adapter plug is only locally connected to the required end plug.
  • the object of the present invention is further, a relation to the prior art improved connector system with the frequencies of over 500 MHz are transmitted securely, with a simplified handling is provided in the assembly.
  • the said socket is designed as a device for inserting the cable connector into a plug-in system housing in which it comprises an inner housing in which the printed circuit board perpendicular autde Steckerab fortune token are arranged for contacting the cable connector recorded insulation displacement contacts, and wherein continue on the circuit board angularly curved, electrical contacts for contacting with a mating connector are arranged, wherein both contacts are interconnected by means of conductor tracks on the circuit board.
  • the plug block with the lateral openings on insertion slots for the insulation displacement contacts, wherein the insertion slots are in turn arranged in grooves along the plug block.
  • the connector system housing having a corresponding carrier housing for receiving plug and socket has a plug receiving portion and a socket receiving portion; wherein the housing has a retaining cover for attaching the plug of the incoming cable to the socket and a socket receiving portion for receiving the socket board with removal contacts and bent socket contacts on a support on a circuit board, wherein upon insertion of the socket and the cable connector in the connector system housing a conductive connection between the Cable is made with the plug and the socket and fixed
  • the bushing is received in a bushing sub-housing adapted for insertion into the bushing housing to facilitate handling of the circuit board and to protect the bushing from mechanical damage.
  • the Buchsensubgeophuse arranged as an inner housing device is arranged in the carrier housing, in which the Steckerab Spotifyonge are used together with a circuit board, for receiving the plug block.
  • the insulation displacement contacts have a preferred embodiment in a substantially right-angled two-pronged fork.
  • a strain relief is provided on the housing, which at the same time takes place a connection of the protective braid and the shield to the housing.
  • the individual components are shaped and designed such that an automation for mounting such a connector system, including the connection of the isolated wires to the connector block, can be made.
  • the plug system housing 1 here comprises an elongated, almost square carrier housing 10 with a plug-in area 11 designed as a sleeve and a half-open insertion area 12, which can be closed by means of a rotatably mounted housing cover 13.
  • a separate housing bottom 14 is provided, which closes the carrier housing 10 on the bottom side latched.
  • a device consisting of a separate inner housing 20 is provided with a formed of three side walls contact portion 21, in whose opposite side walls 22 guide grooves 23 are inserted for Steckerab fortune token 38, one end of the Steckerab fortune token 38 is electrically connected to a circuit board 30 , which is arranged here below the inner housing 20, while the second end of rounded, spherical contact zones 39 have.
  • transfer contacts 34 are further arranged for a mating connector, which are electrically connected by means not shown here conductor tracks with the Steckerab fortunecard 38.
  • angled and beveled transfer contacts 34 are provided, which correspond to a so-called RJ-45 configuration.
  • the addressed contacts can be soldered or pressed on the circuit board.
  • the printed circuit board 30 is inserted with the Steckerab fortune token 38 in the inner housing 20, wherein the Steckerab fortune token 38 insert themselves into the guide grooves 23 in the inner housing 20, and at the same time the transfer contacts 34 are disposed within an opening 26 in a shoulder surface 24 of the inner housing 20.
  • a support 36 for stabilizing the obliquely placed transfer contacts 34 is fixed directly on the printed circuit board 30, while the inner housing 20 is connected by means of pressable fixing pins 28 to the circuit board 30.
  • the inner housing 20 is inserted into the carrier housing 10 and finally fixed with the housing bottom 14 latchable to the carrier housing 10.
  • Insulating a insulating plate 17 is disposed between the circuit board 30 and the housing bottom 14.
  • the multicore cable 60 is provided by means of a two-part strain relief sleeve 19 - integrally formed or separately on the carrier housing 10 - and an attacking, not shown here, kink protection to prevent accidental tearing and kinking of the cable 60 and the individual wires.
  • two resilient ground contacts 16 are further arranged opposite to ensure the transfer of ground-related signals from the connector to a mating connector.
  • the Fig. 2 shows the separately inserted into the carrier housing 10 inner housing 20 with various elements, for the realization of a plug connection within the carrier housing.
  • the inner housing 20 essentially has a contact area 21 enclosed by three side walls and a contact surface 24 with a rectangular opening 26. Wherein the lug surface 24 is disposed outside of the three side walls.
  • the two opposite side walls 22 have on the inside a plurality of vertical guide grooves 23 in which the pin contacts 38 are guided, which are fixed on the circuit board 30 by means of soldering or pressing.
  • transfer contacts 34 are further arranged - connected by conductor tracks with the Steckerab fortune token 38 - which are provided for contacting with a mating connector.
  • they are contacts for an RJ-45 interface, which is provided with a support 36 in which a comb-shaped edge structure is provided in order to stabilize the individual transfer contacts 34.
  • the inner housing 20 is held together with the printed circuit board 30 with fixing pins 28 which can be pressed into holes provided in the printed circuit board 30 for this purpose.
  • an insulating plate 17 is inserted during assembly of the inner housing 20 in the carrier body 10 between the circuit board 30 and the latchable on the carrier body 10 housing bottom 14.
  • the Fig. 3 shows a connector block 40 in which each of the isolated wires 62 of the multi-core cable 60 are fixable.
  • the plug block 40 is shaped as a cube, wherein here several through holes 44, in pairs side by side and one above the other, are arranged. Each of the through-openings 44 is in turn connected to an insertion slot 46 for an insulation-displacement contact 50 arranged perpendicular thereto. And each of the insertion slots 46 is embedded in a groove 42 engaging the respective cube side.
  • the insulation displacement contacts 50 to be inserted are angled at two stages by about 90 °, wherein one limb comprises the two insulation displacement clamps 54 as such and the second limb has a back flank 52 which is used for contacting is provided with the pin contacts 38 in the contact region 21 inner housing 20.
  • an insulation displacement contact 50 is inserted with its cutting edges ahead into a corresponding insertion slot 46.
  • the grooves 42 are shaped such that an inserted and contacting insulation displacement contact 50 with its back flank 52 sinks slightly into the respective groove 42.
  • passage openings 44 and the insulation displacement contacts 50 are coordinated so that z. B. a threaded in the lower, first passage opening 44 wire 62 is cut by the insulation displacement of the insulation displacement contact 54, the angled back flank 52 reaches the height of the second passage opening 44 ', while the second passage opening 44' with a 180 ° rotated cutting terminal 50th is fitted, so that the back edge 52 extends into the region of the lower, first passage opening 44.
  • both back flanks 52 are arranged so uniformly in a row.
  • a polarization groove 42 is provided between the inner grooves 42 in the plug block 40, which serves for fixing the plug block in the inner housing 20 at the same time.
  • Fig. 4 the connector system housing 1 is shown in a perspective view, wherein a cable 60 already assembled with the connector block 40 for insertion into the inner housing 20 is shown.
  • the inner housing 20 With the opening of the housing cover 13 of the carrier housing 10, the inner housing 20 is visible, in which the Steckerab fortune token 38 are arranged in guide grooves 23. Whereby the crowned contact zones 39 of the plug removal contacts 38 corresponding to the arrangement of the electrical contacts 50 and the back edge 52 are arranged in the plug block 40.
  • the transfer contacts 34 which are not visible here, are also electrically contacted by means of the printed circuit board 30 arranged in the housing bottom 32 in the plug-in region 11 of the carrier housing 10. By closing the carrier housing, the connector is ready to use.

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  • Engineering & Computer Science (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Details Of Connecting Devices For Male And Female Coupling (AREA)
  • Coupling Device And Connection With Printed Circuit (AREA)
  • Multi-Conductor Connections (AREA)

Description

Die Erfindung betrifft ein mehrpoliges Steckersystemgehäuse für mehradrige Kabel mit einer Buchse und einem Stecker zum elektrischen und mechanischen Verbinden von elektrischen Leitern.The invention relates to a multi-pin connector system housing for multi-core cable with a socket and a plug for the electrical and mechanical connection of electrical conductors.

Das erfindungsgemäße Steckersystem eignet sich besonders für die Gebäudeverkabelung, ist aber auch in sonst üblicher Weise einzusetzen.The plug system according to the invention is particularly suitable for building cabling, but is also used in otherwise conventional manner.

Das erfindungsgemäße Steckersystem ist insbesondere für Gebäudeverkabelungen der Klasse E vorgesehen.The plug system according to the invention is provided in particular for building cabling of the class E.

Diese Klasse legt die Übertragungsgüte von elektrischen Signalen von Übertragungsstrecken oder Übertragungssystemen von einem zum anderen Endpunkt fest.This class determines the transmission quality of electrical signals from transmission links or transmission systems from one end point to the other.

In entsprechenden Normen, wie der EN 50 173, sind zum Beispiel die Grenzwerte für die maximale Dämpfung, für ein Nebensprechen, für Reflexionen, etc. sowie für höchste zulässige Frequenzen festgelegt. Für die Klasse E und zukünftige Klassen ist vorgesehen, mit Frequenzen um die 500 MHz zu arbeiten.Corresponding standards, such as EN 50 173, specify, for example, the limit values for maximum damping, for crosstalk, for reflections, etc., as well as for the highest permissible frequencies. For class E and future classes it is planned to work with frequencies around 500 MHz.

Bei der Gebäudeverkabelung ist es zunehmend erwünscht, nicht mehr einzelne Kabel für Informationen und Daten aller verfügbaren Dienste wie Telefon, EDV-Anlagen oder Audio- und Videoanlagen zu verlegen, sondern ein einheitliches Gebäudeverkabelungsnetz vorzusehen.In building cabling, it is increasingly desirable to no longer lay individual cables for information and data of all available services such as telephone, computer equipment or audio and video equipment, but to provide a unified building cabling network.

Gebäudeverkabelungen für den vorgenannten Zweck werden üblicherweise mit abgeschirmten Kabeln mit vier oder acht Adernpaaren erstellt, wobei jeweils zwei Adern verdrillt und abgeschirmt sind.Building cabling for the aforementioned purpose is usually made with shielded cables with four or eight wire pairs, with two wires are twisted and shielded.

Zur Zeit werden Steckersystem genutzt, mit so genannten RJ-11, RJ-12, RJ-45, EC-7, Tera, M12 Bezeichnungen, bei denen die Kabellänge durchaus problematisch ist.Plug systems are currently in use, with the so-called RJ-11, RJ-12, RJ-45, EC-7, Tera, M12 designations, where the cable length is quite problematic.

Weiterhin sind die Stecker-Buchsen-Systeme recht aufwendig in der Anschlusstechnik zu handhaben und mit entsprechenden Fehlerquoten belastet. Ein weiteres Problem liegt bei Frequenzen oberhalb von 500 MHz, wenn bei der internen Anschlusstechnik die Abschirmung nicht bis zu den Steckkontakten geführt wird oder werden kann.Furthermore, the plug-socket systems are quite expensive to handle in the connection technology and burdened with corresponding error rates. Another problem is at frequencies above 500 MHz, when the internal connection technology, the shield is not or can not be up to the plug contacts.

Die Druckschrift US2009/0068883 A1 offenbart ein mehrpoliges Steckersystem für mehradrige Kabel mit einer Buchse und einem Stecker zum elektrischen und mechanischen Verbinden von vereinzelten elektrischen Adern, wobei einer als Kabelbuchse ausgebildeter Block vorgesehen ist, der in einen Aufnahmeabschnitt in ein Steckersystemgehäuse einsteckbar ist, mit Aufnahmen für einzelne Adern eines Kabels mit in etwa rechtwinklig zur Kabelerstreckung aufweisenden, seitlichen Öffnungen, durch welche Schneidklemmkontakte die Leiter der Adern nach Durchtrennen der Isolierung der Adern kontaktieren, wobei auf einer als Leiterplatte ausgeformten Einrichtung zur Kontaktierung der Schneidklemmkontakte der Kabelbuchse Kontaktflächen vorgesehen sind, wobei weitere auf der Leiterplatte angeordnete Buchsenkontakte in einem Trägergehäuse innerhalb des im Steckersystemgehäuses angeordnet sind, und wobei der als Kabelbuchse ausgebildete Block zur lösbaren Aufnahme und Befestigung mit der Einrichtung vorgesehen ist.The publication US2009 / 0068883 A1 discloses a multi-pin connector system for multi-core cable with a socket and a plug for electrically and mechanically connecting isolated electrical wires, wherein a trained as a cable bushing block is inserted into a receiving portion in a connector system housing, with receptacles for individual wires of a cable In approximately at right angles to the cable extension having lateral openings through which insulation displacement contacts contact the conductors of the wires after severing the insulation of the wires, being provided on a printed circuit board as a means for contacting the insulation displacement contacts of the cable socket contact surfaces, with further arranged on the circuit board socket contacts in a carrier housing are disposed within the plug system housing, and wherein the block formed as a cable bushing for releasably receiving and fastening is provided with the device.

Aufgabenstellungtask

Der Erfindung liegt die Aufgabe zugrunde, ein preisgünstiges und in der Montage einfaches Steckersystemgehäuse darzustellen, bei dem die Einzeladern eines mehradrigen Kabels zunächst mit einer Art Adapterstecker zu kontaktieren sind, wobei die Verkabelungsstrecke vorab verlegt werden kann, und wobei der Adapterstecker anschließend in einen entsprechend ausgebildeten Steckverbinder einsetzbar ist, wobei dessen Steckgesicht und die Anschlusstechnologie frei kombinierbar sind, so dass bei einem mehradrigen Kabel, auf dessen Einzelleitern unterschiedliche Signale übertragen werden, Stecker mit unterschiedlichen Steckgesichtern die Signale an die gewünschten Endverbraucher übertragen. Dabei wird der Adapterstecker erst örtlich bedingt mit dem erforderlichen Endstecker verbunden.The invention has for its object to present a low-cost and easy to install connector system housing in which the individual wires of a multi-core cable are first to contact with a kind of adapter plug, the cabling can be laid in advance, and the adapter plug then in a trained accordingly Plug connector can be used, wherein the mating face and the connection technology are freely combinable, so that in a multi-core cable, on the individual conductors different signals are transmitted, transmit the signals to the desired end users with different mating faces connector. In this case, the adapter plug is only locally connected to the required end plug.

Die Aufgabe der vorliegenden Erfindung ist weiterhin, ein gegenüber dem Stand der Technik verbessertes Steckverbindersystem mit dem auch Frequenzen von über 500 MHz sicher übertragen werden, wobei auch ein vereinfachtes Handling bei der Konfektionierung vorgesehen ist.The object of the present invention is further, a relation to the prior art improved connector system with the frequencies of over 500 MHz are transmitted securely, with a simplified handling is provided in the assembly.

Diese Aufgabe wird durch ein Steckersystem mit den Merkmalen des Anspruches 1 erreicht sowie durch vorteilhafte Weiterbildungen der abhängigen Ansprüche.This object is achieved by a plug system with the features of claim 1 and by advantageous developments of the dependent claims.

Dabei ist die genannte Buchse als Einrichtung zum Einstecken des Kabelsteckers in ein Stecksystemgehäuse ausgebildet, in dem sie ein Innengehäuse umfasst, in dem zur Leiterplatte senkrecht aufragende Steckerabnahmekontakte angeordnet sind, zur Kontaktierung der im Kabelstecker aufgenommenen Schneidklemmkontakte, und wobei auf der Leiterplatte weiterhin winkelförmig gebogene, elektrische Kontakte zur Kontaktierung mit einem Gegenstecker angeordnet sind, wobei beide Kontakte mittels Leiterbahnen auf der Leiterplatte miteinander verbunden sind.In this case, the said socket is designed as a device for inserting the cable connector into a plug-in system housing in which it comprises an inner housing in which the printed circuit board perpendicular aufragende Steckerabnahmekontakte are arranged for contacting the cable connector recorded insulation displacement contacts, and wherein continue on the circuit board angularly curved, electrical contacts for contacting with a mating connector are arranged, wherein both contacts are interconnected by means of conductor tracks on the circuit board.

Weiterhin weist der Steckerblock mit den seitlichen Öffnungen Einfügeschlitze für die Schneidklemmkontakte auf, wobei die Einfügeschlitze wiederum in Rillen längs des Steckerblockes angeordnet sind.Furthermore, the plug block with the lateral openings on insertion slots for the insulation displacement contacts, wherein the insertion slots are in turn arranged in grooves along the plug block.

Es kann sinnvoll sein, dass das Steckersystemgehäuse mit einem entsprechenden Trägergehäuse zur Aufnahme von Stecker und Buchse einen Steckeraufnahmeabschnitt sowie einen Buchsenaufnahmeabschnitt aufweist; wobei das Gehäuse einen Haltedeckel zur Befestigung des Steckers des ankommenden Kabels an der Buchse sowie einen Buchsenaufnahmeabschnitt zur Aufnahme der Buchsenplatine mit Abnahmekontakten und gebogenen Buchsenkontakten auf einer Auflage auf einer Leiterplatte aufweist, wobei bei Einstecken von Buchse und Kabelstecker in das Stecksystemgehäuse eine leitende Verbindung zwischen dem Kabel mit dem Stecker und der Buchse hergestellt und fixiert istIt may be useful that the connector system housing having a corresponding carrier housing for receiving plug and socket has a plug receiving portion and a socket receiving portion; wherein the housing has a retaining cover for attaching the plug of the incoming cable to the socket and a socket receiving portion for receiving the socket board with removal contacts and bent socket contacts on a support on a circuit board, wherein upon insertion of the socket and the cable connector in the connector system housing a conductive connection between the Cable is made with the plug and the socket and fixed

Vorteilhafterweise wird die Buchse in einem Buchsensubgehäuse, das zum Einbringen in das Buchsengehäuse ausgelegt ist, aufgenommen, um die Handhabung der Leiterplatte zu erleichtern und die Buchse vor mechanischer Beschädigung zu schützen.Advantageously, the bushing is received in a bushing sub-housing adapted for insertion into the bushing housing to facilitate handling of the circuit board and to protect the bushing from mechanical damage.

Dazu ist das Buchsensubgehäuse als Innengehäuse ausgebildete Einrichtung im Trägergehäuse angeordnet, in der die Steckerabnahmekontakte zusammen mit einer Leiterplatte eingesetzt sind, zur Aufnahme des Steckerblockes.For this purpose, the Buchsensubgehäuse arranged as an inner housing device is arranged in the carrier housing, in which the Steckerabnahmekontakte are used together with a circuit board, for receiving the plug block.

Die Schneidklemmkontakte haben eine bevorzugte Ausführungsform in einer im wesentlichen rechtwinklig gebogenen zweizinkigen Gabel.The insulation displacement contacts have a preferred embodiment in a substantially right-angled two-pronged fork.

Zur Entlastung der Kräfte zwischen Kabel und Steckverbindergehäuse ist üblicherweise eine Zugentlastung am Gehäuse vorgesehen, wobei damit gleichzeitig eine Anbindung des Schutzgeflechtes bzw. der Abschirmung an das Gehäuse erfolgt.To relieve the forces between the cable and connector housing usually a strain relief is provided on the housing, which at the same time takes place a connection of the protective braid and the shield to the housing.

Vorteilhafterweise sind die einzelnen Bauteile derartig geformt und ausgelegt, dass eine Automatisierung zur Montage eines derartigen Steckverbindersystems, eingeschlossen die Anbindung der vereinzelten Adern an den Steckerblock, vorgenommen werden kann.Advantageously, the individual components are shaped and designed such that an automation for mounting such a connector system, including the connection of the isolated wires to the connector block, can be made.

Ausführungsbeispielembodiment

Nachfolgend wir anhand der beiliegenden Zeichnung ein Ausführungsbeispiel, auf welche die Erfindung allerdings keinesfalls eingeschränkt ist sowie deren Verwendung näher beschrieben. Es zeigen

Fig.1
ein Trägergehäuse in einer auseinandergezogenen Darstellung,
Fig.2
ein Innengehäuse mit elektrischen Kontakten,
Fig.3
einen Steckerblock mit eingefügten Einzeladern, und
Fig.4
eine perspektivische Darstellung eines Steckersystemgehäuses.
Hereinafter, we will reference to the accompanying drawings an embodiment to which the invention, however, is in no way limited and their use described in detail. Show it
Fig.1
a carrier housing in an exploded view,
Fig.2
an inner housing with electrical contacts,
Figure 3
a plug block with inserted single wires, and
Figure 4
a perspective view of a connector system housing.

In der Fig. 1 ist ein Ausführungsbeispiel eines erfindungsgemäßen Steckersystemgehäuses in einer perspektivischen Explosionsansicht dargestellt. Das Steckersystemgehäuse 1 umfasst hier ein längliches, nahezu quadratisches Trägergehäuse 10 mit einer als Hülse ausgeführten Steckbereich 11 und einem halboffenen Einfügebereich 12, der mittels eines drehbar gelagerten Gehäusedeckels 13 verschließbar ist.In the Fig. 1 an embodiment of a plug system housing according to the invention is shown in a perspective exploded view. The plug system housing 1 here comprises an elongated, almost square carrier housing 10 with a plug-in area 11 designed as a sleeve and a half-open insertion area 12, which can be closed by means of a rotatably mounted housing cover 13.

Weiterhin ist ein separater Gehäuseboden 14 vorgesehen, der das Trägergehäuse 10 bodenseitig verrastbar abschließt.Furthermore, a separate housing bottom 14 is provided, which closes the carrier housing 10 on the bottom side latched.

Innerhalb des Trägergehäuses 10 ist eine Einrichtung, bestehend aus einem separaten Innengehäuse 20 mit einem aus drei Seitenwänden gebildeten Kontaktbereich 21 vorgesehen, in deren gegenüberliegenden Seitenwände 22 Führungsnuten 23 für Steckerabnahmekontakte 38 eingelassen sind, Dabei ist ein Ende der Steckerabnahmekontakte 38 mit einer Leiterplatte 30 elektrisch verbunden, die hier unterhalb des Innengehäuses 20 angeordnet ist, während deren zweites Ende verrundete, ballige Kontaktzonen 39 aufweisen.Within the carrier housing 10, a device consisting of a separate inner housing 20 is provided with a formed of three side walls contact portion 21, in whose opposite side walls 22 guide grooves 23 are inserted for Steckerabnahmekontakte 38, one end of the Steckerabnahmekontakte 38 is electrically connected to a circuit board 30 , which is arranged here below the inner housing 20, while the second end of rounded, spherical contact zones 39 have.

Auf der Leiterkarte 30 sind weiterhin Übergabekontakte 34 für einen Gegenstecker angeordnet, die mittels hier nicht gezeigter Leiterbahnen mit den Steckerabnahmekontakten 38 elektrisch verbunden sind.On the circuit board 30 transfer contacts 34 are further arranged for a mating connector, which are electrically connected by means not shown here conductor tracks with the Steckerabnahmekontakten 38.

In diesem Beispiel sind gewinkelte und abgeschrägte Übergabekontakte 34 vorgesehen, die einer so genannten RJ-45 Konfiguration entsprechen.In this example, angled and beveled transfer contacts 34 are provided, which correspond to a so-called RJ-45 configuration.

Die angesprochenen Kontakte können auf der Leiterplatte verlötet oder auch verpresst sein.The addressed contacts can be soldered or pressed on the circuit board.

Die Leiterplatte 30 wird mit den Steckerabnahmekontakten 38 in das Innengehäuse 20 eingefügt, wobei die Steckerabnahmekontakte 38 sich in die Führungsnuten 23 im Innengehäuse 20 einfügen, und gleichzeitig die Übergabekontakte 34 innerhalb einer Öffnung 26 in einer Ansatzfläche 24 des Innengehäuses 20 angeordnet sind.The printed circuit board 30 is inserted with the Steckerabnahmekontakten 38 in the inner housing 20, wherein the Steckerabnahmekontakte 38 insert themselves into the guide grooves 23 in the inner housing 20, and at the same time the transfer contacts 34 are disposed within an opening 26 in a shoulder surface 24 of the inner housing 20.

Eine Auflage 36 zur Stabilisierung der schräg aufgestellten Übergabekontakte 34 ist direkt auf der Leiterplatte 30 fixiert, während das Innengehäuse 20 mittels einpressbarer Fixierstifte 28 mit der Leiterplatte 30 verbunden ist.A support 36 for stabilizing the obliquely placed transfer contacts 34 is fixed directly on the printed circuit board 30, while the inner housing 20 is connected by means of pressable fixing pins 28 to the circuit board 30.

Das Innengehäuse 20 wird in das Trägergehäuse 10 eingesetzt und letztlich mit dem am Trägergehäuse 10 verrastbaren Gehäuseboden 14 fixiert. Isolierend ist zwischen der Leiterplatte 30 und dem Gehäuseboden 14 eine Isolierplatte 17 angeordnet.The inner housing 20 is inserted into the carrier housing 10 and finally fixed with the housing bottom 14 latchable to the carrier housing 10. Insulating a insulating plate 17 is disposed between the circuit board 30 and the housing bottom 14.

Das mehradrige Kabel 60 wird mittels einer zweigeteilten Zugentlastungshülse 19 - angeformt oder auch separat am Trägergehäuse 10 - und einem daran angreifenden, hier nicht gezeigten, Knickschutz versehen, um ein unbeabsichtigtes Abreißen und Abknicken des Kabels 60 bzw. der Einzeladern zu vermeiden.The multicore cable 60 is provided by means of a two-part strain relief sleeve 19 - integrally formed or separately on the carrier housing 10 - and an attacking, not shown here, kink protection to prevent accidental tearing and kinking of the cable 60 and the individual wires.

Im Steckbereich 11 des Trägergehäuses 10 sind weiterhin zwei federnde Massekontakte 16 gegenüberliegend angeordnet, um die Übergabe von massebezogenen Signalen vom Steckverbinder auf einen Gegenstecker zu gewährleisten.In the mating region 11 of the carrier housing 10, two resilient ground contacts 16 are further arranged opposite to ensure the transfer of ground-related signals from the connector to a mating connector.

Die Fig. 2 zeigt das separat in das Trägergehäuse 10 einzufügende Innengehäuse 20 mit diversen Elementen, zur Realisierung einer Steckverbindung innerhalb des Trägergehäuses.The Fig. 2 shows the separately inserted into the carrier housing 10 inner housing 20 with various elements, for the realization of a plug connection within the carrier housing.

Das Innengehäuse 20 weist im Wesentlichen einen von drei Seitenwänden umschlossenen Kontaktbereich 21 sowie eine Ansatzfläche 24 mit einer Rechtecköffnung 26 auf. Wobei die Ansatzfläche 24 außerhalb der drei Seitenwände angeordnet ist.The inner housing 20 essentially has a contact area 21 enclosed by three side walls and a contact surface 24 with a rectangular opening 26. Wherein the lug surface 24 is disposed outside of the three side walls.

Die beiden gegenüberliegenden Seitenwände 22 weisen auf der Innenseite mehrere senkrechte Führungsnuten 23 auf, in denen die Stiftkontakte 38 geführt sind, die auf der Leiterplatte 30 mittels Löten oder Einpressen fixiert sind. Auf der Leiterplatte 30 sind weiterhin Übergabekontakte 34 angeordnet - verbunden mittels Leiterbahnen mit den Steckerabnahmekontakten 38 - die zur Kontaktierung mit einem Gegenstecker vorgesehen sind.The two opposite side walls 22 have on the inside a plurality of vertical guide grooves 23 in which the pin contacts 38 are guided, which are fixed on the circuit board 30 by means of soldering or pressing. On the circuit board 30 transfer contacts 34 are further arranged - connected by conductor tracks with the Steckerabnahmekontakten 38 - which are provided for contacting with a mating connector.

In diesem Fall sind es Kontakte für eine RJ-45 Schnittstelle, die mit einer Auflage 36 in der eine kammförmige Kantenstruktur vorgesehen ist, um die einzelnen Übergabekontakte 34 zu stabilisieren.In this case, they are contacts for an RJ-45 interface, which is provided with a support 36 in which a comb-shaped edge structure is provided in order to stabilize the individual transfer contacts 34.

Zusammengehalten wird das Innengehäuse 20 mit der Leiterplatte 30 mit Fixierstiften 28, die in dazu vorgesehene Bohrungen in der Leiterplatte 30 einpressbar sind.The inner housing 20 is held together with the printed circuit board 30 with fixing pins 28 which can be pressed into holes provided in the printed circuit board 30 for this purpose.

Um letztlich eine versehentliche Kontaktierung der Signalspannungen mit dem elektrisch leitenden, auf Masseniveau liegenden Steckverbinder 1 zu vermeiden, wird bei der Montage des Innengehäuses 20 in den Trägerkörper 10 zwischen die Leiterplatte 30 und den auf den Trägerkörper 10 aufrastbaren Gehäuseboden 14 eine Isolierplatte 17 eingefügt.In order ultimately to avoid accidental contact of the signal voltages with the electrically conductive, lying at ground level connector 1, an insulating plate 17 is inserted during assembly of the inner housing 20 in the carrier body 10 between the circuit board 30 and the latchable on the carrier body 10 housing bottom 14.

Die Fig. 3 zeigt einen Steckerblock 40 in dem jeweils die vereinzelten Adern 62 des mehradrigen Kabels 60 fixierbar sind.The Fig. 3 shows a connector block 40 in which each of the isolated wires 62 of the multi-core cable 60 are fixable.

Der Steckerblock 40 ist als Würfel geformt, wobei hier mehrere Durchgangsöffnungen 44, jeweils paarweise neben- und übereinander, angeordnet sind. Jede der Durchgangsöffnungen 44 ist wiederum mit einem senkrecht dazu angeordneten Einfügeschlitz 46 für einen Schneidklemmkontakt 50 verbunden. Und jeder der Einfügeschlitze 46 ist in einer die jeweilige Würfelseite einnehmende Rille 42 eingebettet.The plug block 40 is shaped as a cube, wherein here several through holes 44, in pairs side by side and one above the other, are arranged. Each of the through-openings 44 is in turn connected to an insertion slot 46 for an insulation-displacement contact 50 arranged perpendicular thereto. And each of the insertion slots 46 is embedded in a groove 42 engaging the respective cube side.

Die einzufügenden Schneidklemmkontakte 50 sind zweischenklig um etwa 90° gewinkelt, wobei ein Schenkel die beiden Schneidklemmen 54 als solche umfasst und der zweite Schenkel eine Rückenflanke 52 aufweist, die zur Kontaktierung mit den Stiftkontakten 38 im Kontaktbereich 21 Innengehäuse 20 vorgesehen ist.The insulation displacement contacts 50 to be inserted are angled at two stages by about 90 °, wherein one limb comprises the two insulation displacement clamps 54 as such and the second limb has a back flank 52 which is used for contacting is provided with the pin contacts 38 in the contact region 21 inner housing 20.

So wie der Steckerblock 40 dargestellt ist, sind zunächst jeweils 2 Durchgangsöffnungen 44, 44' unmittelbar übereinander angeordnet und mit einem etwas größeren Abstand das nächste Paar der Durchgangsöffnungen.Just as the plug block 40 is shown, initially two through openings 44, 44 'are arranged directly above one another and with a slightly greater distance the next pair of through openings.

Zum Kontaktieren der in den Durchgangsöffnungen 44 einzuschiebenden Adern 62 wird jeweils ein Schneidklemmkontakt 50 mit seinen Schneiden voraus in einen entsprechenden Einfügeschlitz 46 eingeschoben. Wobei die Rillen 42 derartig geformt sind, dass ein eingefügter und kontaktierender Schneidklemmkontakt 50 mit seiner Rückenflanke 52 ein wenig in der jeweiligen Rille 42 versinkt.In order to contact the wires 62 to be inserted in the passage openings 44, an insulation displacement contact 50 is inserted with its cutting edges ahead into a corresponding insertion slot 46. Wherein the grooves 42 are shaped such that an inserted and contacting insulation displacement contact 50 with its back flank 52 sinks slightly into the respective groove 42.

Des Weiteren sind die Durchgangsöffnungen 44 und die Schneidklemmkontakte 50 so aufeinander abgestimmt, dass z. B. eine in der unteren, ersten Durchgangsöffnung 44 eingefädelte Ader 62 von den Schneidklemmen 54 des Schneidklemmkontaktes 50 geschnitten wird, deren abgewinkelte Rückenflanke 52 die Höhe der zweiten Durchgangsöffnung 44' erreicht, während die zweite Durchgangsöffnung 44' mit einer um 180° gedrehten Schneidklemme 50 bestückt wird, so dass die Rückenflanke 52 bis in den Bereich der unteren, ersten Durchgangsöffnung 44 reicht. Letztlich sind dabei beide Rückenflanken 52 so einheitlich in einer Reihe angeordnet.Furthermore, the passage openings 44 and the insulation displacement contacts 50 are coordinated so that z. B. a threaded in the lower, first passage opening 44 wire 62 is cut by the insulation displacement of the insulation displacement contact 54, the angled back flank 52 reaches the height of the second passage opening 44 ', while the second passage opening 44' with a 180 ° rotated cutting terminal 50th is fitted, so that the back edge 52 extends into the region of the lower, first passage opening 44. Ultimately, both back flanks 52 are arranged so uniformly in a row.

Analog gilt dies für die beiden unteren Durchgangsöffnungen - wie auch für die auf der anderen Seite des Steckerblockes vorgesehenen Durchgangsöffnungen.Analogously, this applies to the two lower through holes - as well as provided for on the other side of the plug block through holes.

Weiterhin ist zwischen den inneren Rillen 42 im Steckerblock 40 eine Polarisationsnut 42 vorgesehen, die gleichzeitig zum Fixieren des Steckerblockes im Innengehäuse 20 dient.Furthermore, a polarization groove 42 is provided between the inner grooves 42 in the plug block 40, which serves for fixing the plug block in the inner housing 20 at the same time.

In Fig. 4 ist das Steckersystemgehäuse 1 in einer perspektivischen Darstellung gezeigt, wobei ein bereits mit dem Steckerblock 40 konfektioniertes Kabel 60 zum Einfügen in das Innengehäuse 20 dargestellt ist.In Fig. 4 the connector system housing 1 is shown in a perspective view, wherein a cable 60 already assembled with the connector block 40 for insertion into the inner housing 20 is shown.

Mit dem Öffnen des Gehäusedeckels 13 des Trägergehäuses 10 wird das Innengehäuse 20 sichtbar, in dem die Steckerabnahmekontakte 38 in Führungsnuten 23 angeordnet sind. Wobei die balligen Kontaktzonen 39 der Stecker-Abnahmekontakte 38 entsprechend der Anordnung der elektrischen Kontakte 50 bzw. deren Rückenflanke 52 im Steckerblock 40 angeordnet sind.With the opening of the housing cover 13 of the carrier housing 10, the inner housing 20 is visible, in which the Steckerabnahmekontakte 38 are arranged in guide grooves 23. Whereby the crowned contact zones 39 of the plug removal contacts 38 corresponding to the arrangement of the electrical contacts 50 and the back edge 52 are arranged in the plug block 40.

Mit dem Einsetzen des mit einem mehradrigen Kabel 60 verbundenen Steckerblockes 40 werden gleichfalls, die hier nicht sichtbaren Übergabekontakte 34, mittels der im Gehäuseboden 32 angeordneten Leiterplatte 30, im Steckbereich 11 des Trägergehäuses 10 elektrisch kontaktiert. Mit dem Verschließen des Trägergehäuses ist der Steckverbinder gebrauchsfertig.With the insertion of the connector block 40 connected to a multicore cable 60, the transfer contacts 34, which are not visible here, are also electrically contacted by means of the printed circuit board 30 arranged in the housing bottom 32 in the plug-in region 11 of the carrier housing 10. By closing the carrier housing, the connector is ready to use.

Wobei hier noch einmal klar wird, dass prinzipiell jedes Steckgesicht eines Trägergehäuses mit einer derartigen Anordnung verbindbar ist.

1
Steckersystemgehäuse
10
Trägergehäuse, rechteckig
11
Steckbereich, hülsenförmig
12
Einfügebereich, halb offen
13
Gehäusedeckel, drehbar
14
Gehäuseboden
15
16
Massekontakte, federnd
17
Isolierplatte
19
Zugentlastungshülse
20
Innengehäuse (3-seitig geschlossen)
21
Kontaktbereich
22
Seitenwände
23
Führungsnuten für 38
24
Ansatzfläche
26
Öffnung
28
Fixierstifte
30
Leiterplatte
32
Bohrungen
34
Buchsenkontakte, gewinkelt
36
Auflage (für 34)
38
Steckerabnahmekontakte
39
Kontaktzone, ballig
40
Steckerblock
42
Rillen
44,44'
Durchgangsöffnungen, untere - obere
46,46'
Einfügeschlitze, links - rechts
48
Polarisierungsnut
50
elektrische Kontakte, winkelförmig
52
Rückenflanke
54
Schneidklemmen
60
Mehradriges Kabel
62
Einzeladern
64
Abschirmung
Here again it is clear that, in principle, any mating face of a carrier housing with such an arrangement is connectable.
1
Connector system housing
10
Carrier housing, rectangular
11
Plug-in area, sleeve-shaped
12
Insertion area, half open
13
Housing cover, rotatable
14
caseback
15
16
Ground contacts, springy
17
insulation
19
strain relief
20
Inner housing (closed on 3 sides)
21
contact area
22
side walls
23
Guide grooves for 38
24
approach surface
26
opening
28
pins
30
circuit board
32
drilling
34
Socket contacts, angled
36
Edition (for 34)
38
Plug decrease contacts
39
Contact zone, crowned
40
connector block
42
grooves
44.44 '
Through holes, lower - upper
46.46 '
Insertion slot, left - right
48
Polarisierungsnut
50
electrical contacts, angular
52
back edge
54
insulation displacement terminals
60
Multi-core cable
62
individual wires
64
shielding

Claims (11)

  1. A multi-pole plug system for multi-core cables (60), having a socket and a plug for electrically and mechanically connecting separated electric cores (62), a connector block (40) formed as a cable plug being provided which is adapted to be plugged into a plug receiving portion in a plug system housing (1), having accommodations for individual cores (62) of a cable (60), having lateral openings which are approximately at right angles to the extent of the cable and through which insulation displacement contacts (50) contact the conductors of the cores (62) after severing the insulation of the cores (62),
    wherein in a device (20) formed as socket, in which plug take-off contacts (38) are oriented essentially perpendicularly to a printed circuit board (30), are provided for contacting of the insulation displacement contacts (50) of the plug block formed a cable plug,
    further socket contacts (34) arranged on the printed circuit board (30) being arranged in a carrier housing (10) within the plug system housing (1), and
    the connector block (40) formed as the cable plug being provided for releasable accommodation and attachment with the device (20) shaped as the socket.
  2. The plug system according to claim 1, characterized in that in the carrier housing (10) of the plug system housing (1) with a plug-in area (11) for a mating plug, a device is formed in which a separate inner housing (20) for inserting the connector block (40) is provided, having a contact area (21) in which plug current supply contacts (38) are held which electrically contact a printed circuit board (30) beneath the inner housing (20) and which furthermore are connected to transfer contacts (34) in the plug-in area (11) of the housing (10) by means of conductor tracks on the printed circuit board (30),
    that the connector block (40) has passage openings (44, 44') provided therein in which the separated cores (62) of the multi-core cable (60) are contacted by means of the electrical contacts (50), the electrical contacts (50) being adapted to be inserted in lateral insertion slots (46, 46') in the connector block (40) almost at right angles to the extent of the cores, and
    that with the insertion of the connector block (40) into the inner housing (20), the cores (62) of the cable (60) contact the plug current supply contacts (38) by means of the electrical contacts (50) and are electrically connected to the transfer contacts (34) in the plug-in area (11) by means of the printed circuit board (30).
  3. The plug system according to claim 1, characterized in that the connector block (40) has flutes (42) provided therein in which insertion slots (46, 46') for electrical contacts (50) are provided.
  4. The plug system according to claim 1 or 2, characterized in that the electrical contacts (50) have an angular basic shape, with two insulation displacement terminals (54) and an angled back flank (52).
  5. The plug system according to any of the claims, characterized in that two electrical contacts (50) each, one of which is rotated in its plug-in axis by approximately 180 degrees, are adapted to be inserted into two insertion slots (46, 46') arranged side by side in the connector block (40) such that only one core (42) each is contacted in the passage openings (44, 44') arranged one above the other, the back flanks (52) of the insulation displacement contacts (50) being oriented in the same way side by side in the flutes (42).
  6. The plug system according to claim 1, characterized in that the inner housing (20) includes guide grooves (23) in which the plug current supply contacts (38) are guided.
  7. The plug system according to claim 5, characterized in that the plug current supply contacts (38) include a crowned contact zone (39) and are held in the printed circuit board (30) by means of a press fit or a soldered joint.
  8. The plug system according to claim 1, characterized in that oppositely arranged, resilient ground contacts (16) are provided in the plug-in area (11) of the carrier housing (10).
  9. The plug system according to claim 1, characterized in that the carrier housing (10) with the connector block (40) held therein is adapted to be closed on the cover side by means of a housing cover (13) which is rotatably held on the carrier housing (10).
  10. The plug system according to claim 1, characterized in that the carrier housing (10) is adapted to be closed on the bottom side by means of a housing bottom (14) adapted to be latched thereto.
  11. The plug system according to any of the preceding claims, characterized in that transmission frequencies of more than 500 MHz can be transmitted.
EP10715684.6A 2009-04-08 2010-04-01 Plug system housing for multi-core cables Active EP2417675B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PL10715684T PL2417675T3 (en) 2009-04-08 2010-04-01 Plug system housing for multi-core cables

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102009016875A DE102009016875B3 (en) 2009-04-08 2009-04-08 Multipole plug-in system and method for its production
PCT/EP2010/002126 WO2010115591A1 (en) 2009-04-08 2010-04-01 Plug system housing for multi-core cables

Publications (2)

Publication Number Publication Date
EP2417675A1 EP2417675A1 (en) 2012-02-15
EP2417675B1 true EP2417675B1 (en) 2014-05-14

Family

ID=42575734

Family Applications (1)

Application Number Title Priority Date Filing Date
EP10715684.6A Active EP2417675B1 (en) 2009-04-08 2010-04-01 Plug system housing for multi-core cables

Country Status (6)

Country Link
EP (1) EP2417675B1 (en)
DE (1) DE102009016875B3 (en)
DK (1) DK2417675T3 (en)
ES (1) ES2485816T3 (en)
PL (1) PL2417675T3 (en)
WO (1) WO2010115591A1 (en)

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DE102016106704A1 (en) 2016-04-12 2017-10-12 HARTING Electronics GmbH Connector with conductive rubber
US20220069492A1 (en) * 2018-12-17 2022-03-03 Amphenol Tuchel Industrial GmbH Multi-part printed circuit board adapter plug

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DE102011016563A1 (en) * 2011-04-08 2012-10-11 Yamaichi Electronics Deutschland Gmbh shielding
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DE102012218028A1 (en) * 2012-10-02 2014-04-03 Tyco Electronics Amp Gmbh Plug and kit for a plug

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Publication number Priority date Publication date Assignee Title
DE102016106704A1 (en) 2016-04-12 2017-10-12 HARTING Electronics GmbH Connector with conductive rubber
WO2017178007A1 (en) 2016-04-12 2017-10-19 HARTING Electronics GmbH Plug connector with a conductive rubber element
CN108886209A (en) * 2016-04-12 2018-11-23 浩亭电子有限公司 Connectors with conductive rubber
US11189950B2 (en) 2016-04-12 2021-11-30 HARTING Electronics GmbH Plug connector with a conductive rubber element
US20220069492A1 (en) * 2018-12-17 2022-03-03 Amphenol Tuchel Industrial GmbH Multi-part printed circuit board adapter plug
US11881645B2 (en) * 2018-12-17 2024-01-23 Amphenol Tuchel Industrial GmbH Multi-part printed circuit board adapter plug

Also Published As

Publication number Publication date
ES2485816T3 (en) 2014-08-14
WO2010115591A1 (en) 2010-10-14
DE102009016875B3 (en) 2010-11-04
EP2417675A1 (en) 2012-02-15
DK2417675T3 (en) 2014-08-11
PL2417675T3 (en) 2014-10-31

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