DE102011055509A1 - Plug-in connector for use as category five plug, has separating strips formed from metallic material in inner area of housing and formed between two of contact inserts that are arranged adjacent to each other - Google Patents

Abstract

The connector (1) has a metallic housing (2) and multiple contact inserts (4) that are arranged in an inner area (3) of the housing. One insert has a receiving area for a pair of wires (5) of a multi-pole cable (6) in which the pair of wires are connected with a contact element. Separating strips formed from a metallic material in the inner area of the housing are formed between two of the contact inserts that are arranged adjacent to each other. The strips protrude the contact inserts into an insertion area (18). A counter piece (27) is formed at a housing upper part (9). The pair of wires is shielded in the housing along a peripheral surface. A strain relief is directly integrated at a casing element.

Description

A connector of the generic type is for example from the WO 2011/086451 A1 known. The connector described there has a housing formed of a plastic, in which a plurality of contact inserts are arranged. Each contact insert has a receiving space for a wire pair of a multi-pole cable. Furthermore, each contact insert on a side hinged to the housing carrier and two contact elements. To form a receiving space a pair of wires is held in each case in a carrier and connected in each case with a contacting contact element. The contact inserts each have a mating face with two connection areas. The distance between two connection areas of a mating face of a contact insert corresponds to the distance between two contact inserts, wherein the distance is 2.5 mm. In the multi-pole cable to be used, the outer sheath is removed from the cable before insertion into the connector, first in the region of the insertion into the connector, so that here the shielding, for example in the form of a shielding braid enclosing all wire pairs arranged in the cable, is free. Where the cable or the wire pairs of the cable are inserted into the contact inserts, the shield is further removed, so that the individual pairs of wires can be separated from each other and each pair of wires can be inserted individually in each case a contact insert, wherein in the contacting Wire pairs with the contact elements also the surrounding a wire pair shield is removed. If the contact elements of the contact inserts are not formed as cutting contacts, but as spring terminal contacts or Schraubklemmkontakte, the surrounding each of the wires of a pair of wires insulation is also removed.

A disadvantage of the in the WO 2011/086451 A1 described connector is that at high data transfer rates so-called crosstalk or Nebenbesprech adjacent wire pairs occurs, which means that the signals of a wire pair influenced by the signals of a pair of adjacent wire arranged, in particular disturbed, are. Such a connector can therefore achieve a maximum data transmission rate of 1 gigabyte / second and is therefore only usable as a so-called CAT5 connector.

The invention is therefore based on the object to provide a connector, by means of which a significantly higher data transmission rate can be achieved at the same time significantly reduced, mutual influence adjacent vein pairs of a cable connected to the connector.

This object is achieved according to the invention with a connector, which has a metallic housing and a plurality of arranged in an interior of the housing contact inserts, wherein each contact insert has a receiving space for a wire pair of a multi-pole cable, in which the wire pairs are connected in contact with a contact element , wherein formed in the interior of the housing of a metallic material separating webs between each two adjacent to each other arranged contact inserts are formed.

Advantageous embodiments and advantageous developments of the invention are specified in the dependent claims.

The connector according to the invention is characterized by an improved shielding of the arranged in the contact inserts wire pairs of a multi-pole cable inserted into the connector, which can be significantly reduced by the improved shield interference or mutually adjacent pairs of wires. This is achieved in that the wire pairs are shielded in the housing of the connector along its entire peripheral surface, so that a so-called 360 ° shield is formed around the wire pairs. For this, the housing is completely formed of a metallic material and also arranged in the interior of the housing dividers are formed of a metallic material. The housing is preferably designed such that it completely encloses the inserted into the housing wire pairs. The contact inserts, in which the wire pairs are arranged, are thus surrounded on all four side areas of formed of a metallic material areas of the housing or the partitions of the housing. Only the two end faces of the contact inserts, on which the wire pairs are inserted and the mating face is formed, are substantially free and are covered only in small areas of the housing. By separating the separation of the arranged in the housing contact inserts is achieved. Up to the entry of the wire pairs in the contact inserts, the wire pairs have their own shield, which is arranged around the wire pairs around. There is a galvanic connection between this own shielding and the shield formed by the metallic housing, so that the shielding of the wire pairs and the shielding of the metallic housing lie on a common shielding potential. This is achieved by the formation of metallic dividers within the housing, which realize a separation of the individual pairs of wires in the housing, further supported. The metallic housing and the metallic separating webs may, for example, be made of diecasting, for example an aluminum die cast, or a sheet metal material.

Preferably, it is provided that the separating webs project beyond the contact inserts in an insertion region, via which the wire pairs are inserted into the contact inserts. The metallic separating webs are thus preferably longer in the direction in which the cable is inserted into the plug connector than the contact inserts, so that in the lead-in region and thus also in the region immediately before the wire pairs are inserted into the contact inserts, already through the separating webs Separate from each other and thus in this area a shielding of the wire pairs is formed, even if the own shielding of the wire pairs is already removed in this area. The dividers can thus replace or take over any shielding already removed from the pairs of wires. Thereby, the shielding of the cable within the connector can be further improved, so that the data transmission rates can be increased without the risk that a mutual interference of the individual signals of the various pairs of wires connected in the connector occurs.

Further, it is preferably provided that the housing has a formed of a metallic material, tongue-shaped cable support. The cable support is preferably formed integrally with the housing and preferably on an end face of the housing, through which the cable is inserted into the housing of the connector. Due to the tongue-shaped design of the cable support is the cable support, which is for example in the form of a laterally slightly curved, elongated web, from the end face of the housing, so that the cable support extends beyond the outer contour of the housing. The cable support ensures that the cable inserted into the connector can rest on the cable support in the area of the insertion into the housing of the connector. Due to the design in the form of a laterally slightly curved, elongated web, the cable support is adapted to the outer contour of the cable, so that the cable support can lie close to the outer surface of the cable. The cable support preferably rests against the region of the cable where the outer jacket of the cable has already been removed and the shield surrounding all the wire pairs and bundling the wire pairs, for example as a braided shield, is exposed, so that the cable with its shielding rests on the cable support rests. Through the metallic cable support a galvanic connection between the shield of the cable and the metallic housing of the connector can be formed, whereby the housing of the connector is adapted to the potential of the shield of the cable, so that the housing of the connector the same shielding potential is the shield of the Cable has. This makes it possible to further improve the shielding of the cable connected in the connector, whereby the data transmission rates can be further increased without the risk of interference between the individual signals of the various pairs of wires connected in the connector.

The housing is formed in two parts according to a preferred embodiment of the invention, so that the housing has an upper housing part and a lower housing part, wherein the upper housing part is pivotally mounted on the lower housing part. Due to the two-part design of the housing, both the positioning of the contact inserts within the interior of the housing and the positioning of the wire pairs can be facilitated within the contact inserts, as this, the upper housing part can be pivoted away from the lower housing part. As soon as the wire pairs are placed in contact in the receiving space of the contact inserts, the housing upper part can be pivoted onto the lower housing part by a pivoting movement, preferably a pivoting movement through 180 °, so that the upper housing part rests on the lower housing part. If the upper housing part is located on the lower housing part, the lower housing part and the upper housing part form a closed inner space, so that the contact inserts arranged in the inner space and the wire pairs inserted into the contact inserts are essentially completely enclosed by the housing or the upper housing part and the lower housing part.

It is preferably provided that on the lower housing part, the cable support and on the upper housing part a counterpart are formed, wherein the counterpart in a closed state of the housing, ie when the upper housing part rests on the lower housing part, the cable support opposite. The counterpart is preferably integrally formed with the upper housing part and also formed of a metallic material. The counterpart is preferably also formed as the cable support in the form of a laterally slightly curved, elongated web and projects from the end face of the housing or the upper housing part, so that the counterpart protrudes beyond the outer contour of the upper housing part. The lateral curvature of the counterpart is preferably formed stronger than the lateral curvature of the cable support, so that the counterpart is in the form of a receptacle, in which the Cable is inserted with its outer surface. The lateral curvature of the counterpart is thus preferably as well as the curvature of the cable support adapted to the outer surface of the cable, so that the counterpart close to the outer surface of the cable, in particular the shielding of the cable, abut. By the counterpart, which faces the cable support in the closed state of the housing, the cable can be pressed with its shielding particularly close to the cable support, so that a good and secure electrical connection between the cable support and thus the housing of the connector and the shielding of the cable can be formed, which is not interrupted even with impact stresses or vibrations. The shielding of the cable can be further improved.

In order to increase a contact pressure of the counterpart on the cable and thus of the cable to the cable support, it is further preferably provided that the counterpart has a pressure piece for pressing the cable to the cable support. The pressure piece is preferably formed on the inside of the counterpart, which is directed in the direction of the cable. The pressure piece may be formed, for example, in the form of a spring arm, which protrudes from the inside of the counterpart and applying a pressure on the cable at a resting of the counterpart on the cable. In this way, the galvanic connection between the cable support and thus the housing of the connector and the shield of the cable can be made even safer.

According to a further preferred embodiment of the invention, the connector has a coating element, which is pushed in the region of an introduction of the multi-pole cable into the housing on the housing and enclosing the housing at least partially. The coating element may be formed as well as the housing of a metallic material. But it is also possible that the coating element is formed of a plastic material. The coating element is preferably hood-shaped. Once the pairs of wires are arranged in contact in the contact inserts and the housing is closed by pivoting the upper housing part to the lower housing part, the coating element is pulled over the connected cable and the outer surface of the housing, so that the coating element rests tightly against the outer surface of the housing. By means of, for example, a latching connection, the coating element can be secured captively to the housing. The coating element is adapted in its dimensions so precisely to the outer surface of the housing that the coating element can be pushed onto the housing only when the arranged in the contact inserts wire pairs are arranged in the desired position, and thus contacting the wire pairs with the contact elements the contact inserts can be safely guaranteed.

It is preferably provided that a strain relief for the multi-pole cable is formed on the coating element. A strain relief is thus integrated directly on the coating element, so that additional component units for a strain relief are not necessary and therefore a strain relief can be realized to save space.

For this purpose, the coating element preferably has a cable feed-through opening, wherein the coating element has an external thread and wherein the coating element at a free end of the coating element has circularly arranged spring elements, wherein a union nut is pushed onto the spring elements and screwed onto the external thread to form the strain relief. The coating element is substantially rectangular according to the housing and has on a front side surface on a substantially cylindrical extension which serves as the cable passage opening and whose diameter is adapted to the outer peripheral surface of the cable, so that the cylindrical extension, on which the spring elements arranged in a circle are, with its inner surface can lie close to the outer peripheral surface of the cable. The external thread is likewise formed on the cylindrical extension or the cable feedthrough opening. If a union nut pushed onto the spring elements and screwed onto the external thread, the spring elements are pressed in the direction of the cable so that they press on the cable and thereby a strain relief for the cable is realized.

A further advantageous embodiment of the invention provides that each contact insert has a mating face with two connection regions, wherein the distance between two adjacent contact inserts is greater than the distance between two connection regions of a mating face of a contact insert. Preferably, the distance between two adjacent contact inserts is twice as large or more than twice as large as the distance between two terminal regions of a mating face of a contact insert. If, for example, the distance between two terminal regions of a plug face of a contact insert is 2.5 mm, then the distance between two contact inserts arranged adjacent to one another preferably has 5 mm. By a greater distance between the contact inserts to each other, the shield a multi-pole cable inserted into a connector can be further improved.

Furthermore, it is provided according to a preferred embodiment of the invention that the contact inserts are arranged in the interior of the housing in a row next to each other. As a result, the connector can be made particularly flat, so that the space required by the connector space can be reduced in height.

The invention will be explained in more detail below with reference to the accompanying drawings with reference to a preferred embodiment.

Show it:

1 a schematic representation of a connector according to the invention in an exploded view,

2 a schematic representation of a housing of in 1 shown connector in an open state,

3 a schematic representation of a housing of in 1 shown connector in a closed state and a multi-pole cable inserted therein,

4 a schematic representation of a as in 1 shown connector according to the invention in an assembled state together with a header, and

5 a schematic representation of the in 4 shown connector according to the invention in a plan view of the mating faces of the arranged in the connector contact inserts.

1 shows a connector 1 according to the invention in an exploded view. The connector 1 has a housing formed of a metallic material 2 and several in an interior 3 of the housing 2 arranged contact inserts 4 on. In the embodiment shown here are four contact inserts 4 provided, which are arranged side by side in a row. Within the contact inserts 4 become wire pairs 5 a multipolar cable 6 connected with contact elements, not shown here, contacting, wherein in each case a contact insert 4 a receiving space for a pair of wires 5 , which consists of two wires 40 consists, has.

In the in the connector 1 to be connected 6 is inserted in the connector before insertion 1 initially in the field of cable introduction 6 in the connector 1 the outer jacket of the cable 6 removed, so here's the shielding 7 , for example in the form of a braided shield, is exposed. Where the cable is 6 in the contact inserts 4 is introduced, is also the shield 7 removed so that the individual wire pairs 5 separated from each other and each wire pair 5 individually in the respective contact insert 4 can be introduced. Before that, the wire pairs are still in the area of the subsequent contacting 5 each a pair of wires 5 surrounding shielding 8th away. The in the contact inserts 4 arranged contact elements, which are not shown here, may be formed as a cutting contacts, but also as a spring terminal contacts or Schraubklemmkontakte, wherein when using a spring terminal contact or a Schraubklemmkontaktes also each a vein 40 a pair of wires 5 surrounding insulation is removed.

The case shown here 2 is from an upper housing part 9 and a housing lower part 10 formed, wherein the upper housing part 9 pivotable on the housing lower part 10 is stored.

In 2 is the case 2 shown in a detailed view without contact inserts. The lower housing part 10 has a bottom plate 11 on. At the lateral edges of the bottom plate 11 are two oppositely disposed side walls 12 . 13 vertical to the bottom plate 11 educated. Furthermore, at a lateral edge of the bottom plate 11 a frontal wall 14 vertical to the bottom plate 11 formed, wherein the end wall 14 the two side walls 12 . 13 connects with each other. At the front wall 14 are several recesses 15 introduced by which, as in 3 shown, mating faces 41 the contact inserts 4 be passed. The side walls 12 . 13 are, however, formed over the entire surface. Opposite to the front wall 14 is the lower housing part 10 formed open and therefore has no wall, as this over the wire pairs 5 of the cable 6 in the case 2 be introduced.

Between the side walls 12 . 13 are parallel to the side walls 12 . 13 aligned dividers 16 arranged, which at the bottom plate 11 fastened, preferably in one piece with the bottom plate 11 are trained. Through the dividers 16 there is a separation of the through the side walls 12 . 13 , the bottom plate 11 and the front wall 14 limited interior 3 of the housing 2 in the area of the housing base 10 , In through the dividers 16 separated areas 17 each becomes a contact insert 4 used, so that also in the contact inserts 4 imported pairs of wires 5 separated, in particular shielded, as in 1 is shown. The dividers 16 are as well as the bottom plate 11 , the side walls 12 . 13 and the front wall 14 formed of a metallic material. As in 1 further is shown, are the dividers 16 formed so long, the in an introduction area 18 over which the wire pairs 5 in the contact inserts 4 are introduced, the contact inserts 4 overtop.

On the outer surface of the side walls 12 . 13 is also in each case a detent 19 formed, which in the closed state of the housing 2 in which the upper housing part 9 on the housing base 10 rests, in each case one on the upper housing part 9 trained opening 20 hooked to the upper housing part 9 safely on the lower housing part 10 to keep as in 3 is shown.

At the bottom plate 11 of the housing base 10 is a formed of a metallic material, tongue-shaped cable support 21 integrally formed. The cable support 21 is centered on one of the front wall 14 opposite end face 22 of the housing lower part 10 formed over which the cable 6 in the case 2 of the connector 1 is introduced. The cable support 21 is in the form of a laterally slightly curved, elongated web and is from the front side surface 22 of the housing lower part 10 off, leaving the cable support 21 over the outer contour of the housing 2 protrudes. The cable support 21 serves that in the connector 1 inserted cables 6 in the field of introduction to the housing 2 of the connector 1 on the cable support 21 can rest. Due to the training in the form of a laterally slightly curved, elongated web, the cable support 21 to the outer contour of the cable 6 adjusted so that the cable support 21 close to the outer surface of the cable 6 can be present. The cable support 21 is preferably located at the area of the cable 6 where the outer jacket of the cable 6 already removed and the shielding 7 is free, so the cable 6 with its shielding 7 on the cable support 21 is particularly relevant in 3 is shown.

The upper housing part 9 is pivotable, preferably by 180 °, to the lower housing part 10 stored. The upper housing part 10 has two oppositely formed side walls 23 . 24 on which on a ceiling tile 25 of the upper housing part 9 are formed. On the side walls 23 . 24 are the openings 20 trained, in which the on the side walls 12 . 13 of the housing base 10 trained locking lugs 19 can intervene. The ceiling plate 25 serves to, in a closed state of the housing 2 in the contact inserts 4 imported pairs of wires 5 and at least partially the contact inserts 4 Cover yourself, such as in 3 is shown. At the ceiling plate 25 is also an end wall 26 formed, which the two side walls 23 . 24 connects with each other. The front wall 26 has an interruption in the middle, in which a counterpart 27 for the cable support 21 is trained.

The counterpart 27 is integral with the upper housing part 9 formed and also formed of a metallic material. The counterpart 27 is like the cable pad 21 in the form of a laterally slightly curved, elongated web and is formed by the end face of the upper housing part 9 where the front wall 26 is formed, starting, so that the counterpart 27 over the outer contour of the upper housing part 9 protrudes. The lateral curvature of the counterpart 27 is stronger than the lateral curvature of the cable support 21 because the bulge is an extension of the frontal wall 26 represents, so the counterpart 27 is formed in the form of a receptacle, in which in the closed state of the housing 2 the cable 6 with its outer surface, in particular the shielding 7 , is inserted. The lateral curvature of the counterpart 27 is as well as the curvature of the cable support 21 to the outer surface of the cable 6 adapted, so that also the counterpart 27 close to the shield 7 of the cable 6 is applied.

The counterpart 27 has a pressure piece 28 on, which is designed here in the form of a spring arm. To the highest possible spring action of the pressure piece 28 Achieving is the counterpart 27 to the pressure piece 28 around, a recess 29 educated. Is the counterpart 27 on the shield 7 of the cable 6 on, can by means of the pressure piece 28 the shield 7 to the cable support 21 be pressed.

The upper housing part 9 can also be designed as a wiring flap, wherein the upper housing part 9 then has a high bending stiffness. Is the upper housing part 9 designed as a wiring flap, when closing the housing 2 ie if the upper housing part 9 on the lower housing part 10 is pivoted in the contact inserts 4 arranged wire pairs 5 be introduced in contact with the contact elements, so that when closing the housing 2 automatically secure contacting of the wire pairs 5 is realized with the contact elements.

In a closed state of the housing 2 border the dividers 16 to the bottom plate 11 of the housing base 10 and to the ceiling plate 25 of the upper housing part 9 on, so over the dividers 16 the bottom plate 11 and the ceiling plate 25 connected to each other. The dividers 16 can also be used as an integral part of the ceiling plate 25 of the upper housing part 9 instead of the one-piece arrangement on the bottom plate 11 of the housing base 10 be attached.

As in 1 is shown, the connector has 1 further a coating element 30 which is on a housing 2 as it is in 3 it is shown in which the wire pairs 5 of the cable 6 in the contact inserts 4 are arranged contacting and the upper housing part 9 on the lower housing part 10 swung open, leaving the case 2 is closed, is postponed. The coating element 30 is formed of a metallic material or a plastic material and formed in the form of a coating hood. The coating element 30 is over the outside surface of the case 2 pulled so that the coating element 30 close to the outer surface of the housing 2 is present, as in 4 is shown. By means of a latching connection, which takes the form of two on the outer surface of the coating element 30 molded locking arms 31 . 32 is formed, the coating element 30 at one also on the outer surface of the housing 2 pushed connector 38 as they are in 4 is shown to be secured captive. The header 38 will, as in 4 shown by the coating element 30 opposite direction to the housing 2 postponed. The latch arms 31 . 32 of the coating element 30 can then into the on the outside surface of the header 38 trained recesses 42 intervention.

The coating element 30 is in its dimensions so precisely to the outer surface of the housing 2 adapted that the coating element 30 only on the case 2 can be deferred when in the contact inserts 4 arranged wire pairs 5 are arranged in the desired position and thus a contacting of the wire pairs 5 with the contact elements of the contact inserts 4 sure is guaranteed.

The coating element 30 is substantially rectangular in shape and has an end face 33 a cable passage opening 34 in the form of a cylindrical extension, through which in the connector 1 inserted cables 6 passed through. On the outer surface of the cable gland opening 34 is an external thread 35 educated. At a free end of the cable feedthrough opening 34 are adjacent to the external thread 35 circularly arranged spring elements 36 , in particular spring arms, formed. On the external thread 35 can a union nut 37 be screwed, while the union nut 37 first on the spring elements 36 is postponed. Will the union nut 37 on the spring elements 36 pushed on and on the external thread 35 screwed on, the spring elements 36 in the direction of the cable 6 pressed, so this on the cable 6 Press and thereby strain relief for the cable 6 is realized. A ready assembled state of the coating element 30 together with the union nut 37 on the housing 2 is in 4 shown.

In 4 is also the header 38 shown which over the mating faces 16 the contact inserts 4 with the contact inserts 4 contacting can be connected by the header 38 also on the outer surface of the housing 2 towards the already on the outer surface of the housing 2 deferred coating element 30 is pushed.

Every mating face 16 has two connection areas 39 on, with each connection area 39 for connecting a wire 40 a pair of wires 5 each with a contact of the header 38 serves. The distance a between two adjacently arranged contact inserts 4 is greater than the distance b between two connection areas 39 a mating face 16 a contact insert 4 like this in 5 is shown.

The connector shown here 1 is characterized by a particularly good shielding of the wire pairs 5 one in the connector 1 inserted multipolar cable 6 out, with the multipolar cable from the area where the sheath of the multipolar cable 6 is completely shielded by 360 °, whereby the occurrence of noise can be largely prevented. Due to the improved shielding of the cable 6 With the connector shown here, data transfer rates of up to 40 Gigabyte / second can be achieved so that this connector meets the requirements of a CAT7 connector.

LIST OF REFERENCE NUMBERS

1

Connectors

2

casing

3

inner space

4

contact insert

5

pair

6

electric wire

7

shielding

8th

shielding

9

Housing top

10

Housing bottom

11

baseplate

12

Side wall

13

Side wall

14

End wall

15

recess

16

divider

17

separated area

18

introduction section

19

locking lug

20

opening

21

cable support

22

Front side surface

23

Side wall

24

Side wall

25

ceiling tile

26

End wall

27

counterpart

28

Pressure piece

29

recess

30

coating element

31

detent arm

32

detent arm

33

Front side surface

34

Cable passage

35

external thread

36

spring element

37

Nut

38

Header

39

terminal area

40

Vein

41

mating face

42

recess

a

distance

b

distance

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2011086451 A1 [0001, 0002]

Claims (11)

Connector ( 1 ), with a metallic housing ( 2 ) and several in an interior ( 3 ) of the housing ( 2 ) arranged contact inserts ( 4 ), wherein in each case a contact insert ( 4 ) a receiving space for a pair of wires ( 5 ) of a multipolar cable ( 6 ), in which the wire pairs ( 5 ) are connected in contact with a contact element, wherein in the interior ( 3 ) of the housing ( 2 ) formed of a metallic material dividers ( 16 ) between each two adjacent to each other arranged contact inserts ( 4 ) are formed. Connector ( 1 ) according to claim 1, characterized in that the partitions ( 16 ) in an introductory area ( 18 ) over which the wire pairs ( 5 ) in the contact inserts ( 4 ), the contact inserts ( 4 ). Connector ( 1 ) according to claim 1 or 2, characterized in that the housing ( 2 ) formed of a metallic material, tongue-shaped cable support ( 21 ) having. Connector ( 1 ) according to one of claims 1 to 3, characterized in that the housing ( 2 ) an upper housing part ( 9 ) and a housing lower part ( 10 ), wherein the housing upper part ( 9 ) pivotally mounted on the housing lower part ( 10 ) is stored. Connector ( 1 ) according to claim 4, characterized in that on the housing lower part ( 10 ) the cable support ( 21 ) and on the upper housing part ( 9 ) a counterpart ( 27 ), the counterpart ( 27 ) in a closed state of the housing ( 2 ) of the cable support ( 21 ) is opposite. Connector ( 1 ) according to claim 5, characterized in that the counterpart ( 27 ) a pressure piece ( 28 ) for pressing the cable ( 6 ) to the cable support ( 21 ) having. Connector ( 1 ) according to one of claims 1 to 6, characterized in that the connector ( 1 ) a coating element ( 30 ), which in the region of an introduction of the multipolar cable ( 6 ) in the housing ( 2 ) on the housing ( 2 ) is pushed and the housing ( 2 ) at least partially encloses. Connector ( 1 ) according to claim 7, characterized in that on the coating element ( 30 ) a strain relief for the multipolar cable ( 6 ) is trained. Connector ( 1 ) according to claim 8, characterized in that the coating element ( 30 ) a cable feed-through opening ( 34 ), wherein the coating element ( 30 ) an external thread ( 35 ) and wherein the coating element ( 30 ) at a free end of the coating element ( 30 ) circularly arranged spring elements ( 36 ), wherein to form the strain relief a union nut ( 37 ) on the spring elements ( 36 ) and pushed onto the external thread ( 35 ) is screwed on. Connector ( 1 ) according to one of claims 1 to 9, characterized in that each contact insert ( 4 ) a mating face ( 41 ) with two connection areas ( 39 ), wherein the distance (a) between two adjacently arranged contact inserts ( 4 ) is greater than the distance (b) between two connection areas ( 39 ) of a mating face ( 41 ) of a contact insert ( 4 ). Connector ( 1 ) according to one of claims 1 to 10, characterized in that the contact inserts ( 4 ) in the interior ( 3 ) of the housing ( 2 ) are arranged in a row next to each other.

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