DE202015100245U1 - Socket assembly comprising a shielded socket for printed circuit boards or boards - Google Patents

Abstract

Plug socket arrangement, comprising a shielded socket (1) for printed circuit boards or boards (2), which is integrated in a flange (3) or another housing geometry (4), wherein in the flange (3) formed as an insulating body formed contact carrier (5) is, in which a plurality of electrically conductive contacts (6) are arranged, which are shielded by means of a contact carrier (5) provided in the shielding plate (7), which makes contact by means of contact elements formed as a screen housing flange (3), characterized in that the Shielding plate (7) by means of spring strips (8) and (9) formed contact elements in the inserted state in the contact carrier (5) causes a contacting both in radial alignment and in axial alignment with the flange (3).

Description

Technical environment

The invention relates to a plug socket assembly comprising a shielded socket for printed circuit boards or boards, which is integrated in a flange or other housing geometry, wherein in the flange formed as an insulating body contact carrier is used, in which a plurality of electrically conductive contacts are arranged, which by means of a Contact support provided shielding are shielded, which makes contact by means of contact elements formed as a screen housing flange.

State of the art

Shielded printed circuit board connectors are used in particular in connection with the use of industrial bus systems (eg Industrial Ethernet).

The mating face of this printed circuit board socket is essentially fixed, and comprises a trained as an insulating body contact in which a plurality of electrically conductive contacts are present, which may be optionally shielded in pairs by means of a shield provided in the contact carrier.

The metallic shield housing is firmly soldered in the usual way via a plurality of connections to the circuit board. In order to comply with the EMC (Electromagnetic Compatibility) guidelines, the I / O connectors mounted on printed circuit boards must be electrically connected to the housing wall. In addition to the conventional method to screw the plug with considerable additional installation effort with the housing, it is known to compensate for the assembly tolerances of the circuit boards via flexible springs. These can be integrated both in the housing wall and in the connector itself. Alternatively, it is also known to electrically connect a relatively thick-walled shield plate by means of a screwed-on additional thin spring plate with the housing wall.

In this known from the prior art embodiment, it is considered disadvantageous that in particular a necessary tolerance clearance for the contacting of the shield between the contact carrier with respect to the circuit board or board and formed as a shield housing flange is often not given or fails too low. So it is not uncommon that due to the installation tolerances contacting the shield are not given, because in particular these, if they exceed the tolerance match, are interrupted or deteriorated.

task

The invention thus raises the problem of further developing a plug socket arrangement comprising a shielded plug socket for printed circuit boards or printed circuit boards, the contacting of which bridges greater tolerance ranges for the screen.

The advantages achieved with the invention consist in the fact that due to the arrangement of the spring strips on the shielding a much larger tolerance range in the housing designed as a bottle in the mounted state can be tapped. Thus, in this case, the spring strips arranged in accordance with the invention engage in the flange regions which extend axially and radially in the flange housing, so that the tolerance clearance is thereby made considerably more flexible, and reliable contact with the shield is fulfilled.

According to the invention, it is therefore proposed that the shielding plate, by means of contact elements designed as a spring strip, bring about a contacting both in the radial orientation and in the axial alignment with the flange in the inserted state of the contact carrier. In the advantageous embodiment, the shielding of two sheet metal parts, wherein at least one sheet metal part acting for radial alignment spring strip and at the other second sheet metal part at least one acting for axial alignment spring strip is provided. In this case, the two sheet metal parts are cross-wise plugged into each other, which are inserted into also crosswise arranged channels in the contact carriers. Due to this design, in particular, the contact carrier formed as an insulating body with the contact strips, which are arranged on the outer circumference of the contact carrier, prepared for a shield in the flange.

In continuing connection, spring strips pointing in the insertion direction are arranged on the one sheet metal part and spring strips pointing against the insertion direction on the other sheet metal part. In this case, the spring strips pointing in the insertion directions engage axially against a ring projection arranged in the flange, the spring strips pointing in the direction of insertion engaging radially on the inner wall of the flange. Due to this design, in particular the radial or the axial contact is achieved, with a large tolerance range is tapped. Here, the spring strips are arranged by means of integrally formed arms on the sheet metal parts, wherein the axially acting spring strips transversely to the surface plane of the annular shoulder are aligned, wherein the radially acting spring strips are aligned to the surface plane.

According to a particularly advantageous embodiment of the invention, the two sheet metal parts on the surface protruding notches, which engage behind molded undercuts in channels in the inserted state of the assembled sheet metal parts. Due to this design it is achieved that the inserted cross of shielding plates is fixed inextricably in the insulating body. In a further development, the sheet metal parts each have slots in their middle axes, which engage in each other in the assembled state of the sheet metal parts. Slit width minimization embossments are provided at the slot to provide contact points to optimize shielding. The flexibility of the springs in the contact area is increased by a sidecut below the insertion bevels in the sheet.

Description of the drawings

An embodiment of the invention is shown purely schematically in the drawings and will be described in more detail below. It shows

1 a perspective view of a female connector assembly;

2 a side view and a sectional view of the socket according to the 1 in the section plane AA;

3 another side view and a sectional view of the socket according to the 1 in the section plane BB;

4 a perspective view of a first sheet metal stiffener for axial contacting;

4a another illustration according to the 4 with detail view;

5 a perspective view of the second metal strip for radial contacting;

5a another illustration according to the 5 with detail view;

6 a perspective view of the metal strip in the assembled state;

7 a perspective view of the contact carrier with inserted Abschirmkreuz;

8th a bottom view of a socket according to the 1 ;

9 a further sectional view of the socket according to the section line AA with view of the axial contact in 8th and

10 a sectional view of the socket with view of the radial contact according to the section line BB in 8th ,

embodiments

The 1 . 2 and 3 show a female connector assembly, which is a shielded female connector 1 for printed circuit boards or circuit boards 2 , like in the 1 is implied. There is a flange 3 preferably in a housing surface 4 arranged, wherein in the flange 3 a trained as an insulator contact carrier 5 is used, as this particular in the 7 is shown in the perspective view. In the contact carrier 5 are several senior contacts 6 arranged by means of a contact carrier 5 provided shielding plate 7 shielded in pairs, with the shield 7 especially in single view of 6 are shown. The shielding plate 7 in this case makes a contact with the formed as a shielding flange 3 ago.

From the synopsis of 2 and 3 but also 9 and 10 causes the shielding 7 by means of as spring strips 8th and 9 trained contact elements in the inserted state in the contact carrier 5 a contacting both in the radial direction, as in the 2 and 10 is shown as well as in axial alignment, shown in the 3 and 9 , to the inner wall of the flange 3 , As in particular further from the synopsis of 4 . 5 and 6 is recognizable, there is the shield 7 from two metal strips 10 and 11 , wherein on the one sheet metal strip 10 two spring strips acting for axial alignment 8th and on the other second metal strip 11 two spring stripes 9 are provided for radial alignment. This situation is particularly evident in the 6 where the spring stripes 8th and 9 are aligned aligned to recognize. The 6 shows like the two sheet metal parts 10 and 11 are inserted into each other like a cross. In the 7 and 8th are the cross-shaped sheet metal parts 10 and 11 in channels formed in the contact carrier 12 and 13 pushed in, as this particular in the 7 is clearly visible. The channels 12 and 13 are also in the bottom view in the 8th to recognize where the sheet metal parts 10 and 11 in the channels 12 and 13 can be seen. From the 7 is also clear to see that on the sheet metal parts 10 and 11 arranged spring strips 8th and 9 in the inserted state - 7 - the sheet metal parts 10 and 11 on the circumference of the contact carrier 5 extend.

Here are - as in particular from the 7 visible - on the one sheet metal part 10 in the insertion direction facing spring strips 8th and on the other sheet metal part 11 against the insertion direction facing spring strip 9 arranged to allow in this way the radial and axial alignment of the spring strips 8th and 9 to cause. Here are the spring strips 8th and 9 by means of molded arms 14 on the sheet metal parts 10 and 11 arranged, wherein the axially acting spring strips 8th transverse to the surface plane and the radially acting spring strips 9 are aligned to the surface plane. Due to this design, it follows that the spring strips pointing in the direction of insertion 8th on a ring attachment arranged in the flange 15 abut, wherein the facing against the insertion direction spring strips 9 on the inner wall 16 of the flange 3 particular, from the synopsis of the 9 and 10 is apparent.

According to a particularly advantageous embodiment of the invention, the two sheet metal parts 10 and 11 out of the plane 17 protruding notches 18 on which is behind a molded undercut 19 in the channels 12 and 13 in the inserted state of the assembled sheet metal parts 10 and 11 lock. This situation is particular in the 3 to recognize where the rest 18 as they are in the 4 and 5 are shown, to the molded undercut 19 snag. As especially from the 4 and 5 can be seen, have the plugged sheet metal parts 10 and 11 Slots in the middle axis 20 on, the area of the respective sheet metal part 10 . 11 in the assembled state.

From the 4a and 5a you realize that at the slot 20 coins 21 for slit width minimization are provided to provide contact points to optimize the shield, wherein the flexibility of the springs in the contact area by a sidecut 22 is increased below the introduction bevels in the plate.

LIST OF REFERENCE NUMBERS

1

socket

2

Printed circuit boards or circuit boards

3

flange

4

housing area

5

contact support

6

contacts

7

shield

8th

Spring strips axially

9

Spring strips radially

10

Sheet metal part axially

11

Sheet metal part radial

12

channel

13

channel

14

poor

15

annular shoulder

16

Inner wall flange

17

Surface sheet metal part

18

rest

19

undercut

20

slots

21

coins

22

sidecut

Claims (10)

A female connector assembly comprising a shielded female connector ( 1 ) for printed circuit boards or circuit boards ( 2 ), which are in a flange ( 3 ) or another housing geometry ( 4 ) is integrated, wherein in the flange ( 3 ) formed as an insulating body contact carrier ( 5 ), in which a plurality of electrically conductive contacts ( 6 ) are arranged, which by means of a contact carrier ( 5 ) provided shielding plate ( 7 ) are shielded, which by means of contact elements making contact with the screen housing designed as a flange ( 3 ), characterized in that the shielding ( 7 ) by means of spring strips ( 8th ) and ( 9 ) trained contact elements in the inserted state in the contact carrier ( 5 ) a contacting both in radial alignment and in axial alignment with the flange ( 3 ) causes. Plug socket arrangement according to claim 1, characterized in that the shielding plate ( 7 ) from one or more sheet metal parts ( 10 ) and ( 11 ), wherein on one sheet metal part ( 11 ) at least one spring strip acting for radial alignment ( 9 ) and at the other second sheet metal part ( 10 ) At least one spring strip acting to the axial alignment ( 8th ) is provided. Plug socket arrangement according to claim 2, characterized in that the two sheet metal parts ( 10 ) and ( 11 ) are crosswise plugged into each other, which in likewise crosswise arranged channels ( 12 ) and ( 13 ) in the contact carrier ( 5 ) are insertable, with molded embossing ( 21 ) are provided for a better shield behavior. Plug socket arrangement according to claim 3, characterized in that the on the sheet metal parts ( 10 ) and ( 11 ) arranged spring strips ( 8th ) and ( 9 ) in the inserted state of the sheet metal parts ( 10 ) and ( 11 ) on the circumference of the contact carrier ( 5 ). Plug socket arrangement according to claim 4, characterized in that on the one sheet metal part ( 10 ) in the insertion direction facing spring strips ( 8th ) and on the other sheet metal part ( 11 ) against the insertion direction facing spring strips ( 9 ) are arranged. Plug socket arrangement according to claim 5, characterized in that the spring strips pointing in the direction of insertion ( 8th ) to one in the flange ( 3 ) arranged ring attachment ( 15 ) or create another housing geometry, wherein the facing against the insertion direction spring strips ( 9 ) on the inner wall ( 16 ) of the flange ( 3 ) invest. Plug socket arrangement according to claim 6, characterized in that the spring strips ( 8th ) and ( 9 ) by means of molded arms ( 14 ) on the sheet metal parts ( 10 ) and ( 11 ) are arranged, wherein the axially acting spring strips ( 8th ) transversely to the surface plane and the radially acting spring strips ( 9 ) are aligned to the surface plane. Plug socket arrangement according to claim 1 to 7, characterized in that the two sheet metal parts ( 10 ) and ( 11 ) from the surface ( 17 ) protruding notches ( 18 ), which are behind molded undercuts ( 19 ) in the channels ( 12 ) and ( 13 ) in the inserted state of the assembled sheet metal parts ( 10 ) and ( 11 ) lock. Plug socket arrangement according to claim 8, characterized in that the plug-together sheet metal parts ( 10 ) and ( 11 ) slots in the middle axes ( 20 ), which the surface areas of the respective sheet metal part ( 10 ) 11 ) in the assembled state. Plug socket arrangement according to claim 8 and 9, characterized in that in the plug-in area of the sheet metal parts ( 10 ) and ( 11 ) Waists ( 22 ) are provided.

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