DE4023072A1 - ELECTRIC CONNECTOR - Google Patents

Description

The invention relates to an electrical Ver binder for connecting electrical conductors, especially from Ra sterstegleitungen, with an insulating housing for one of the Number of poles corresponding number of contact elements, each Weil have at least one connecting leg, the egg connector carrier such as circuit board can be firmly anchored is, the insulating housing on a bearing section of the contact element between a first and a second Setting is slidably mounted and the contact element at least one cooperating with the leader, has resilient clamping leg with clamping zone.

An electrical connector of this type is for example from DE-PS 31 18 057 become known. The con is there clock element bent substantially U-shaped, a ver longer U-leg than connecting leg in a ladder board is soldered. The cranked extension of this Leg serves as a bearing section for the Isolierstoffge housing that can be moved along this. In  the setting of the insulation housing away from the circuit board is arranged in the U-apex of the contact element Clamping zone open for inserting a conductor. After this Inserting the conductor will insulate the housing PCB close adjustment, i.e. against the PCB emotional. A switching piece of the insulating material housing acts on the resilient free leg of the contact element, presses the U-loop together so that the clamping zone turns around closes the ladder and holds it. Do you want the leader remove from the connector, pull out the insulation fabric housing from the printed circuit board to the remote one Setting back, which relieves the clamping zone and the conductor can be removed.

The electrical connector according to DE-PS 31 18 057 is very beneficial in itself. It allows a slim, everyone thing high construction. The arrangement and design takes place however their limits with increasing miniaturization in the meantime to grid dimensions, i.e. to distances between two adjacent contact elements, which tends to be at 1.25 or even 1 mm pitch.

Hence the object of the present invention therein an electrical connector which in the preamble of Claim 1 presupposed type to create, in particular special for fixed, but releasable electrical connection conductor with a strongly miniaturized design. Except It is important that the connection of the conductors can be done quickly and easily.

The invention solves this problem primarily and in essential in that the clamping leg between two Ge  housed sections of the insulating material housing, one of which is essentially about the spring travel of the clamp thigh is set back against this and their ge opposite a first clamping abutment section and forms a second free space section and the clamping zone of the clamping leg in the setting near the connector carrier the insulating housing, the clamping abutment section and the free space section of the connector carrier distant setting opposite.

It is preferably arranged in the insulating housing Nete conductor insertion opening with reference to the clamp leg and is arranged to the free space section that the Conductor for setting the insulation material close to the connector carrier housing, pushing the clamping leg to the side, into the clamp zone is pluggable and with the connector carrier remote setting essentially without bending out of the clamping zone into the Free space is pivotable.

Further refinements and appropriate further training the invention emerge from the subclaims.

In contrast to the prior art, the relative serves Mobility of the insulating material housing to the contact element in primarily no longer to close the contact zone Bending of the contact element in their area. The connection electrical conductors are primarily simple Insert the stripped wire ends into the wire plug opening of the insulating material housing. The stripped lei terenden can the clamping leg against its Fe push the restoring force to the side and are on reaching  the end position is clamped in the clamping zone. Based on these The clamping zone can be freely arranged and configured End of the resilient clamping leg are assigned so that there is no U-shaped Fe that takes up space in the clamping area that needs. There is also a particular advantage in that the insulating housing for the conductor connection not first in a first end setting and after on insert the conductor into a second locking position must be pushed. The moveable arrangement of the insulation has material housing on the bearing portion of the contact element in the invention the advantage that in the corresponding ver Adjustment of the insulating material housing away from the binder carrier Clamping zone is completely released so that the stripped The conductor end is removed from the connector without damage can be. This is particularly important if the Clamping takes place with a positive fit, that is, with a certain amount Claw the clamping zone into the stripped conductor end come here.

The invention is best understood from the rest the following description of one in the drawings presented embodiment. In the drawings show - each on a significantly enlarged scale -:

Fig. 1 shows a longitudinal section through a plate located on a printed circuit electrical connector having not yet connected conductor

Fig. 2 is a side view in the direction of the Ansichtspfei les II of Fig. 1,

Fig. 3 is a plan view of the connector according to Fig. 1 accordingly the viewing arrow III in Fig. 2,

Fig. 4 shows the connector of Fig. 1 with the conductor connected

Fig. 5 shows the connector of Fig. 4 and Fig. 1 with an adjustment of the insulating body for easy releasing the conductor.

The electrical connector designated in its entirety with 10 has an insulating housing 11 and a number of contact elements 12 corresponding to the number of poles. The embodiment shown in FIGS. 1 to 3 is a four-pole electrical connector with an insulating housing 11 and four contact elements 12 of the same type, which, as shown in FIGS. 2 and 3, are arranged in parallel one behind the other.

Each contact element 12 is substantially fork-shaped and has a connecting leg 13 for fastening supply to a connector carrier 14 . Usually, it is - as shown - in the connecting leg 13 to a solder leg of the contact element 12 and in the connec derträger 14 to a circuit board.

If the connecting leg 13 is regarded as the handle of a fork, a fork leg forms a clamping leg 15 which is resiliently movable in the plane of the drawing in FIG. 1. The second fork leg serves as a bearing section 16 for Hal tion and movable guidance of the insulating housing 11th This bearing section 16 is again fork-shaped; he has the two fork legs 17 and 18 , of which in the embodiment of the fork leg 18 is formed resiliently with respect to the opposite fork leg 17 . The fork leg 18 has a catch recess 19 and the facing inner wall of the insulating housing 11 has a corresponding latching cam 20 - of the contact element 12 releasably lock the connector carrier Shot of the insulating housing 11 with respect to - in mutual engagement in Fig. 1. Another recessed recess 19 'on the fork leg 18 is used for the temporary locking of the connector remote setting of the insulating housing 11 bezüg Lich the contact element 12 corresponding to FIG. 5th

In the embodiment, the connecting leg 13 is arranged centrally below, that is, in the extension of the bearing section 16 , so that the thrust forces which can be transmitted during the movement of the insulating housing 11 without bending moment onto the contact element 12 held on the connector carrier 14 and its fastening zone. This is advantageous for reasons of stability.

As can also be seen, the Isolierstoffge housing 11 for each contact element 12 on two chamber-like receiving spaces 21 and 22 , which are divided by a wall or rib 23 . The receiving space 22 also forms the slideway for the movement of the insulating housing 11 ent long from the contact element-side bearing section 16 , while the receiving space 21 houses the clamping leg 15 .

The clamping leg 15 has in the area of its free En a a clamping zone K forming a sharp clamping lug 24 , which is arranged with respect to the insulator housing-side conductor opening 25 such that the stripped end 26 inserted through the opening 25 of an electrical conductor 27 against the clamping lug 24 presses and presses the clamping leg 25 against its spring restoring force to the outside. In order to allow the clamping leg 15 this movement, the Ge housing section 28 of the insulating material housing 11 is displaced outwards or forms a gap 29 between itself and the unloaded clamping leg 15 . To favor the forced outward movement of the clamping leg 15 when the conductor end 26 is inserted, the clamping lug 24 is located at the front in the plugging direction at the end of a sliding bevel 30 . The sliding bevel 30 opposite is a Klemmwi derlagerabschnitt 31st The inserted conductor 26 , as illustrated in FIG. 4, is securely held here.

If one assumes that the clamping lug 24 is sharp and enters the material of the stripped conductor end 26 a little, the conductor cannot be pulled out of the stable connection without further notice. To NEN yet solved in a simple and gentle manner, the conductor from the connector 10 to Ki, the clamping abutment 31 is located on the side facing the connector carrier 14 side of the space 21 to the connector carrier 14 toward approximately wedge-shaped widening inclined surface as a free space portion 32nd In the exemplary embodiment, it forms the outer surface of the intermediate wall 23 facing the clamping leg 15 .

If the insulating housing 11 from the normal position shown in FIG. 4, which corresponds to the delivery state of the connec, drawn into the position remote from the connector carrier accordingly Fig. 5, the clamping lug 24 of the clamping leg 15 moves into the enlarged area due to the oblique course of the free space portion 32 , whereby the clamping of the conductor 26 at least subsides or is released. Now one can conductor 26, 27 and pivot from the vertical position of FIG. 4 in the inclined corresponding to FIG. 5 then completely unimpeded pull it out of the insulating housing 11, wherein it is not bent or kinked.

The conductor 26 , 27 shown is part of a ribbon cable in the exemplary embodiment, in which the insulation stanchions 33 of all parallel individual conductors usually stand in a cohesive connection with one another. The Darge presented and described electrical connector is particularly suitable for connecting such ribbon cables.

In principle, however, other electrical conductors can also be connected. Such conductors, whose stripped sections are not very sensitive to kinking, can be inserted into the connector, the insulating housing of which is accordingly Fig. 1 in the connector carrier close setting be. If one uses conductors with kink-sensitive connections, which are not reliably able to move the clamping leg 15 of the contact element 12 to the side, a connection can nevertheless be made by firstly isolating the insulating housing 11 into the position remote from the binder carrier according to FIG. 5 brings, the conductor is now inserted and then the conductor and insulating material housing 11 moves simultaneously against the connector carrier 14 be.

Claims (8)

1. Electrical connector for connecting electrical Lei ter, in particular raster cross cables, with an insulating material housing for a number of contacts corresponding to the number of poles, each having at least one connection leg, which is firmly anchored to a connector carrier such as circuit board, the insulating housing on a bearing section of the contact element between a first and a second setting is slidably mounted and wherein the contact element has at least one cooperating with the conductor, resilient clamping leg with clamping zone, characterized in that the clamping leg ( 15 ) between two housing sections ( 28 , 32 ) of the Isolierstoffgehäuses ( 11 ) is included, one of which is essentially offset by the spring deflection ( 29 ) of the terminal leg ( 15 ) this opposite and whose opposite gender a first clamping abutment section ( 31 ) and a second free space section itt ( 32 ) forms and the clamping zone (K) of the clamping leg ( 15 ) in the connector carrier-near position of the insulating housing ( 11 ) of the clamping abutment section ( 31 ) and in the connector carrier-remote setting of the free space section ( 32 ) is opposite. 2. Connector according to claim 1, characterized in that the clamping leg ( 15 ) of the contact element ( 12 ) is accommodated in a receiving space ( 21 ) of the insulating housing ( 11 ) which has the housing sections ( 28 , 31 , 32 ) as walls. 3. Connector according to claim 1 or 2, characterized in that the clamping leg ( 15 ) of the contact element ( 12 ) extends substantially parallel to the bearing section ( 16 ) and the clamping abutment section ( 31 ) and the free space section ( 32 ) sections of a Partition ( 23 ) rule between the clamping leg ( 15 ) and the bearing section ( 16 ). 4. Connector according to claim 1 or one of the following, characterized in that the contact element ( 12 ) is substantially fork-shaped, the clamping leg ( 15 ) a first fork, the bearing section ( 16 ) a second fork and the connecting leg ( 13 ) Form the fork handle. 5. Connector according to claim 1 or one of the following, characterized in that the free space section ( 32 ) of a particularly wedge-shaped wall surface or rib of the insulating material housing ( 11 ) is formed, which the receiving space ( 21 ) for the clamping leg ( 15 ) to the connector carrier ( 14 ) expanded. 6. Connector according to claim 1 or one of the following, characterized in that the conductor insertion opening ( 25 ) arranged in the insulating housing ( 11 ) is arranged in such a manner with reference to the clamping leg ( 15 ) and to the free space section ( 32 ) that the conductor ( 26) at connector carrier near setting of the insulating material (11), the clamping leg (15) urging to the side, in the clamping zone (23) can be plugged and connector carrier further setting substantially without bending out of the clamping zone (K) out is pivotable into the free space. 7. Connector according to claim 1 or 4, characterized in that the bearing section ( 16 ) of the contact element ( 12 ) is designed or arranged elastically resilient. 8. Connector according to claim 7, characterized in that the bearing section ( 16 ) of the contact element ( 12 ) forms a Ga bel ( 17 , 18 ), of which at least one fork leg ( 18 ) is arranged elastically resilient.