DE19953017A1 - Electrical plug-in connection e.g. for computer applications, has springs used for ensuring contact pressure between each plug contact and cooperating socket contact - Google Patents

Abstract

The electrical plug-in connection has a plug (1) and a cooperating socket (2), the plug provided with a spring (3) for each electrical contact point, providing a spring force in the plug-in direction, for ensuring the required contact pressure between the plug contact (4) and the corresponding socket contact (5). The spring may be provided by part of the conductor (7) coupled to each plug contact.

Description

The invention relates to electrical connectors as they especially for the low current range, for example especially in computer technology.

Such a connector usually includes a variety, up to fifty and more, electrical contacts. To be sufficient mechanical pressure between the plug contact and the corresponding receptacle contact in the plug receptacle to ensure it was previously common to preload a spring to use.

There is one in the connector for each electrical contact Spring present in the electrical line, in a so-called Female connectors are included, in which a matching male connector is inserted. The knife bar consisted of blade-like wide  protruding electrical contacts for one to be manufactured electrical connection.

Each of these blades was between two or more spring tongues inserted, which - mostly due to their material elasticity - by means of a preload on the outer surfaces of these blades, so a biasing force transverse to the longitudinal extension of the blades and thus the Plug direction of the connector generated.

Since the z. B. blades of the male connector had to be connected to a corresponding electronic circuit board, this was disadvantageous insofar as the far striving blades of the Male header also high mechanical when the plug moves Forces, especially torques when the blades bend, on the Attachment point of the blade to the component, such as one electronic circuit board. This often resulted Damage that leads to an interruption or a unreliable electrical contact, which is why the z. B. The male connector cannot be mechanically attached directly to the circuit board could, but was designed as a separate component and only electrical could be connected to this, which however additional work and thus represented a cost.

It is therefore the object of the invention to provide a plug connection create that is easy and inexpensive to manufacture, and  especially none that protrude far from the connector receptacle Receiving contacts required, but especially contacting on the receiving side directly on a flat contact surface electronic circuit board.

This task is solved by an electrical connector, which has the features of claim 1. Advantageous further training and embodiments result from the subclaims.

The fact that the spring force in the plugging direction of the connector is applied, the contact level between Plug contacts and receptacle contacts transverse to the direction of insertion are located. This means that there is no protrusion from a male connector Attachment direction is necessary, the necessity is still corresponding - in plug-on direction - long female connectors available. The fact that the biasing spring made of electrically conductive material is produced and is part of the electrical path, in particular in one piece together with the electrical conductors within the Plug is formed is a simple and inexpensive Manufacturing guaranteed.

Although the present application always assumes that the biasing spring per electrical contact in the connector  is also the reverse training, i.e. preloading spring in the connector receptacle, possible.

To allow the spring force to act on the receiving contact is one mechanically fixed connection between plug and plug receptacle necessary to lift the plug in the plug-in direction from the Plug receptacle prevented. This is usually done by Screw the connector opposite the connector receptacle, or by Closing appropriate locking means achieved.

Especially if the entire electrical conductor together with the Spring and the plug contact is formed as a stamped part, can thereby drastically reducing the cost of manufacturing the connector.

To do the space required for the punched spring in that Plane in which the stamped part lies, and thereby in this To be able to accommodate several springs side by side the punched-out springs are viewed at an angle or U- bent in shape, which also changes the spring constancy in the Rule the force necessary to compress the spring is enlarged.

To maintain a minimum spring force even for a very long time To ensure periods, the spring consists of a variety of in the plugging direction meandering or  zigzag-shaped bends, in particular of two mirror images gradients arranged side by side to the plugging direction, which are in touch the bends or kinks facing each other and in particular are formed in one piece. The free to the outside Pointing bends can also go in the same direction be bent so that viewed in the direction of attachment. a U-shaped cross section of the spring is created. Through this in Pushing direction acting spring force, it is possible to at the free end each electrical conductor plug contact against one To make contact, either according to the Conversion of the plug contact is reversed analog, but also a flat surface, for example an electrically conductive one Area of a circuit board. To also in the latter case, the for the formation of the connector receptacle is very advantageous in that directly electrically conductive areas of a circuit board are used for this can be - is preferably the plug contact itself again resilient, in particular V-shaped towards the free end itself trained to open.

As a result, a spreading apart is the pressure in the plug-on direction V-shaped leg of the plug contact causes this additionally scrub along the contact surface, and thus remove any oxide layers there and remove them automatically establish a secure contact. Because this scouring effect on everyone repeated plugging can be repeated - as with a  Plug connection with male connector - by repeated opening and closing Disconnect the connector from an oxide formed on the contact surfaces Layer to be eliminated.

An embodiment according to the invention is exemplary below drawn closer. Show it:

Fig. 1 shows a longitudinal section through a plug connection,

Fig. 2 is a perpendicular longitudinal section through the connector of Fig. 1 and

Fig. 3 is an illustration of the stamped part from which the individual electrical conductors are made.

Fig. 1 shows the connector 1 in longitudinal section, that is cut along the mounting direction of the connector 10, in the inserted state, with the plug contacts 4 in contact with the receptacle contacts 5.

The receiving contacts 5 are here the electrically conductive parts (not shown in the figures ) of the surface of a component, for example a circuit board 8 , which faces the plug 1 . The connector receptacles 2 protrude from this board 8 on both sides of the connector 1 in the plug-on direction 10 in order to guide the connector 1 when it is plugged on.

The electrical conductors 7 extend from the plug contacts 4 as free ends via the respective spring 3 to the other free end on the back 17 of the plug, in which they extend out of its housing 6 and are connected to the corresponding lines of a cable become.

In the present case, the direction of the rear contacts to the plug contacts 4 of the front of the plug is angled by 90 °, which is of minor importance for the present invention.

The electrical conductors 7 are each preferably in one piece from a metal sheet, for. B. copper or brass sheet created.

The connector housing 6 is preferably made of electrically non-conductive material, for example plastic, wherein the connector housing 6 can additionally be provided with a shield. In it are in the plug 10 extending receiving channels 15 for the region of the spring 3, each electrical conductor formed separately, which, supported at least in the plug 10, the spring 3 on the back, ie the end facing away from the plug contact 4 form fit, and in the two transverse directions 11 and 12 , as shown by the two longitudinal sections of FIGS. 1 and 2 at 90 ° to each other.

The additional old device which keeps the connector 1 in the connector receptacle 2 in the long run, for example a screw connection or latching which prevents lifting in the plug-on direction 10 , is not shown in FIGS. 1 and 2.

Fig. 3 shows a sheet metal stamped part from which the electrical contacts 7 are created.

The stamped part 20 of FIG. 3 results in several, here two, later separated electrical conductors 7 a, 7 n, which by subsequent separation of the upper, plate-shaped sections 21 a in FIG. 3. , , 21 n of this stamped part 20 are generated in the vertical direction in the middle, corresponding to the dashed line.

In FIG. 3, each half of this stamped part has the plug contact consisting of two legs 16 a, 16 b that diverge outwards outward, to which a strip-shaped area, an intermediate web 19 , adjoins — in the plug-on direction 10 .

This is again a symmetrical to the mounting direction 10 double meander follows, the integrally connected to each other in both inward bends fourteenth This creates a series of flattened circles, which line up in the plug-on direction 10 and are integrally connected at their points of contact. The rings are so flat that they are even slightly concave on the sides extending transversely to the direction of insertion, so that the regions of the rings extending transversely to the direction of insertion are at a distance from one another which corresponds approximately to the thickness of these rings.

The springs 3 formed in this way merge into a common plate 21 , which here results in two separate sections 21 a and 21 n after separation.

The springs 3 are then bent around a bend edge 18 a, 18 b parallel to the plug-on direction 10 by 90 °, the bend edges 18 a, 18 b extending slightly outside the inner bends 14 of the two parallel meanders, so that only the outside directed bends 13 are bent. This results in a U-shaped contour when viewed in the plug-on direction 10 , at least in the area of the spring 3 . If the area lying above the springs 3 in FIG. 3 is deformed in the same way, the area of the electrical conductors located upstream of the springs 3 also consists of a U-shaped sheet metal. In Fig. 1, which shows the same direction of supervision on the area of the springs 3 as the Fig. 3, only the central area of the original double meanders can be seen with each spring 3 , since the outer bends 14 are now in the direction of view of Fig. 1 extend.

The areas of the electrical conductors which can be seen above the springs 3 in the figures are each bent at least once, here preferably twice, in each case by approximately 45 ° in order to bring about the overall right-angled deflection of the electrical conductors with respect to the direction of the end on the plug contact side. In Fig. 2 the finished bent spring 3 can be seen in the side view, so that only the respective outer bend 13 of each meander can be seen.

As shown in FIGS. 1 and 2 show, the springs of the springs receiving respective receiving channel 15 support 3 during pressure load from the front side free end, that the connector contact 4 ago, at the back end from which is formed in the connector housing 6. The length of the spring 3 to be measured in the plug-on direction 10 is reduced with this pressure load, and if this pressure load is applied by a flat surface running transversely to the plug-in direction, such as the circuit board 8 shown here, the legs 16 a are also caused by such a pressure load , 16 b of the plug contacts 4 , which strive apart in a V-shape towards the free end, pressed apart in the transverse direction 11 .

In the receiving channels 15 , the individual springs 3 , which are an integral part of each electrical conductor 7 , can be inserted in the viewing direction of FIG. 1, that is to say in the transverse direction 11 , in the case of springs 3 which are inserted several times, each separated by intermediate elements made of electrically non-conductive material .

The invention is not based on the illustrated embodiment limited, but often variable within the scope of the disclosure. monkey new individual and disclosed in the description and / or drawing Combination features are considered essential to the invention.  

REFERENCE SIGN LIST

1

plug

2nd

Connector receptacle

3rd

feather

4th

Connector contact

5

Recording contact

6

Connector housing

7

,

7

a. . .

7

n electrical conductor

8th

circuit board

9

a,

9

b meander

10th

Pushing direction of the plug connection

11

first transverse direction

12th

second transverse direction

13

Bend (outside)

14

Bend (inner)

15

Recording channel

16

a,

16

b thigh

17th

back

18th

a,

18th

b Buckled edge

19th

Mezzanine

20th

Stamped part

21

plate

21

a. . .

21

n upper plate-shaped sections

Claims (1)

• - a plug ( 1 ),
• - a connector holder ( 2 ),
• - One spring ( 3 ) in the plug ( 1 ) for each electrical contact to be made, with the help of which the secure contact of the plug contact ( 4 ) with the receiving contact ( 5 ) is ensured, characterized in that the spring ( 3 ) is in the plugging direction ( 10 ) directed spring force.
  • 1. Electrical connector according to claim 1, characterized in that the spring ( 3 ) consists of electrically conductive material and is part of the electrical conductor ( 7 ) in the plug ( 1 ).
  • 2. Electrical connector according to claim 2, characterized in that the spring ( 3 ) is integrally formed together with the electrical conductor ( 7 ).
  • 3. Electrical plug connection according to one of the preceding claims, characterized in that the spring ( 3 ) is at least simple meandering or zigzag-shaped, the bends ( 13 ) or kinks of the meanders or prongs in a first transverse direction ( 11 ) with respect to Pointing direction ( 10 ).
  • 4. Electrical plug connection according to claim 4, characterized in that the spring ( 3 ) consists of mutually parallel meandering or zigzag lines which point in opposite directions with respect to the plug-on direction and which are connected to one another at the mutually directed inner bends ( 14 ), in particular in one piece with one another are connected.
  • 5. Electrical connector according to claim 5, characterized in that the two opposite meanders with respect to the plugging direction are arranged symmetrically to the plugging direction ( 10 ).
  • 6. Electrical plug connection according to one of claims 3 to 6, characterized in that the spring ( 3 ) in a second transverse direction ( 12 ) which is perpendicular to the first transverse direction ( 11 ) and transverse to the plugging direction ( 10 ), two spaced meanders ( 9 a, 9 b), which are operatively connected, in particular integrally formed with each other.
  • 7. Electrical plug connection according to claim 7, characterized in that the meanders ( 9 a, b) each only on the bends pointing in the same direction, with mutually opposite in the first transverse direction meanders on the mutually facing inner bends ( 14 ), with each other connected, and in particular are not connected to each other at the other bends ( 13 ).
  • 8. Electrical plug connection according to one of the preceding claims, characterized in that the springs ( 3 ) in the plug housing ( 6 ) on their back from the plug contacts ( 4 ) facing away from the plug-in direction ( 10 ) are supported.
  • 9. Electrical plug connection according to one of the preceding claims, characterized in that the spring ( 3 ) in a plug-in direction ( 10 ) extending receiving channel ( 15 ) is received and is guided in at least one of the two transverse directions ( 11 , 12 ).
  • 10. Electrical plug connection according to one of the preceding claims, characterized in that the plug contact ( 4 ) at the free end of each electrical conductor ( 7 ) is spread out in a V-shape, obliquely striving outwards from the plug-on direction ( 10 ), so that the legs ( 16 a, 16 b) can be pressed apart at pressure in the push-on direction ( 10 ).
  • 11. Electrical plug connection according to one of the preceding claims, characterized in that the plug receptacle as an electrical receiving contact ( 5 ) has a flat surface, in particular formed on a circuit board ( 8 ).
  • 12. Electrical connector according to claim 12, characterized in that the connector receptacle ( 2 ) in parallel to the plug-in direction ( 10 ) comprises upstanding connector guides.