EP1030404A1 - Conductor connecting element - Google Patents

Abstract

The cable termination element has a contact carrier (8) supporting knife contacts (9) for contacting the cable leads (2), which are fitted through respective lead channels (6) in a lead guide (7), moved in the direction of the contact carrier by tightening a screw nut (4), for pressing the cable leads into the knife contacts. The latter contact the cable leads at deflection points within the lead channels which are positioned at staggered heights.

Description

The invention relates to a conductor connection element for connecting electrical Ladders with insulation displacement contacts, the insulation displacement contacts are held in a contact carrier and the electrical conductors in Conductor channels of a conductor guide part are inserted, wherein the conductors are deflected in the conductor guide channels, and with Unscrew a union nut in the direction of the Contact carrier is moved and the conductor in the area of the deflections Slots of the insulation displacement contacts are pressed.

Such conductor connection elements are required to electrical conductors of cables to contact without the conductor insulation in a special Remove operation beforehand.

From DE 295 12 585 U1 is a conductor connection element with Insulation displacement contacts for connecting electrical conductors known, at all by screwing a union nut onto a contact carrier electrical conductor inserted in a conductor guide part simultaneously with the insulation displacement contacts in the contact carrier are connected.

In this known embodiment of a conductor connection element occur conditionally by simultaneously contacting the electrical conductors, relatively high forces. This in turn results in a for screwing on the Union nut high effort, so that tightening by hand often is difficult. The union nut must be designed to be voluminous, to pass on the occurring forces.

The invention is therefore based on the object of a conductor connecting element of the type mentioned in the introduction, so that for screwing on a Union nut - and thus for pushing in electrical conductors into the insulation displacement contacts of a contact carrier - less effort is needed.

This object is achieved in that the conductor guide channels in the Conductor guide part are designed such that the deflection of the electrical Conductor is made at different heights, the insulation displacement contacts contact the electrical conductors one after the other.

An advantageous embodiment of the invention is specified in claim 2.

The advantages achieved by the invention are in particular that the forces and torques when screwing on the union nut are reduced be so that even a larger number of electrical conductors in such a conductor connection element, even without the use of a Tools can be contacted safely.

Another advantage with successive insulation displacement contacts is that a selection is made for several electrical conductors which conductor should be contacted first. This is e.g. an advantage with a safety-relevant electrical connection, if a protective conductor should always be contacted first during assembly, or when dismantling the electrical contact to the insulation displacement contact as the last loses.

Fig. 1

eine Explosionszeichnung eines Leiteranschlußelementes,

Fig. 2

die Aufsicht eines Leiterführungsteiles mit Schnittzeichnungen des Leiterführungsteiles jeweils um 120° verschoben, und

Fig. 3

die Ansicht einer Schneidklemme für unterschiedliche Leiterdurchmesser.

An embodiment is shown in the drawing and is explained in more detail below. Show it:

Fig. 1

an exploded view of a conductor connecting element,

Fig. 2

the supervision of a conductor guide part with sectional drawings of the conductor guide part each shifted by 120 °, and

Fig. 3

the view of a insulation piercing for different conductor diameters.

In Fig. 1, the individual parts of a conductor connection element in one Ready-to-install sequence shown.

During assembly, the protective cap 3, the union nut 4 and the strain relief 5 are first pushed over the cable 1 with the electrical conductors 2. Then the individual electrical conductors are threaded into the conductor guide channels 6 of the conductor guide part 7 and the strain relief 5 is assembled with the conductor guide part 7. Both parts are then inserted as a unit in the contact carrier 8 with the insulation displacement contacts 9 introduced there and then the union nut 4 is screwed on. While the union nut 4 is screwed onto the contact carrier 8, the conductor guide part 7 is pushed into the contact carrier 8 and the electrical conductors 2 in the conductor guide channels 6 are pressed into the slots in the insulation displacement contacts 9, the sheathing of the conductors being severed and the electrical contact being made .
Finally, the protective cap 3 is placed over the union nut 4, the protective cap snapping freely rotatably into a groove of the union nut, so that unintentional removal of the union nut is prevented.

FIG. 2 shows a top view of the arrangement of the conductor guide channels 6, each offset by 120 °, in the conductor guide part 7.
Furthermore, the associated sectional representations of the individual conductor guide channels are shown in accordance with the designations of the sectional lines.

As the sectional representations AA, BB and CC show, the S-shaped conductor guide channels 6 run from the upper region near the center into the lower edge region of the conductor guide part 7. The guide grooves 11, in which the insulation displacement contacts 9 are guided, each cut the conductor guide channels 6 the turning points of the S-shaped conductor guide channel.
Due to a different height of the upper turning point in the respective conductor guide channels 6, the different contact points H1, H2 and H3 arise within the conductor guide part. At these contact points, the respectively threaded electrical conductors 2 are pressed when the conductor connecting element is screwed together and pressed into the slots of the insulation displacement contacts 9.

During this process, from which the guide grooves 11 upwards inserting insulation displacement contacts 9, the one after the other Cut in the cable sheathing of the individual electrical conductors, and starting at H3, then H2 and finally H1.

Through the successive contacting, in which the cable sheathing the electrical conductor successively through the insulation displacement contacts is separated to create an electrical connection with the conductors, the forces to be applied are distributed more evenly over the rotary movement the cap nut and ultimately, based on the moment force to be applied, thus reduced.

FIG. 3 shows a modified insulation displacement terminal 12 which is designed to accommodate electrical conductors with different diameters.
Here, the conductor receiving slot of the insulation displacement connector 12 is provided with two different, successive slot widths 13, 14, so that different conductor diameters can be contacted reliably.
The upper, wider slot 14 is provided for a larger conductor diameter 16, while the adjoining narrower slot 13 is intended for a smaller conductor diameter 15.
For the use of the modified insulation displacement clamp, the geometry of the conductor guide channels 6 of the conductor guide part 7 is adapted.
This means that the conductor guide channels 6 are either designed for the larger conductor diameter 16 - this corresponds to the example already described in FIG. 2 - or the conductor guide channels 6 are designed for the smaller conductor diameter 14.
The contact points H1, H2 and H3 (see FIG. 2) are adapted in accordance with the position of the slot area 13 of the modified insulation displacement connector 12, so that the same effect of successive contacting as described in FIG. 2 is ensured again.
For the two different diameters of the electrical conductors shown here by way of example, differently designed conductor guide parts 7 are therefore required, but only one type of modified insulation displacement clamps 12 which are locked in the contact carrier 8.

Claims (2)

Conductor connection element for connecting electrical conductors with Insulation displacement contacts, the insulation displacement contacts in one Contact carriers are held and the electrical conductors in conductor guide channels a conductor guide part are inserted, wherein the conductors are deflected in the conductor guide channels, and wherein when screwing on a union nut the conductor guide part in Direction of the contact carrier is moved and the conductor in the area of the deflections pressed into slots of the insulation displacement contacts are characterized by that the conductor guide channels (6) in the conductor guide part (7) such are designed so that the deflection of the electrical conductor (2) in different heights (H1, H2, H3), the insulation displacement contacts (9) contact the electrical conductors one after the other. Conductor connection element according to Claim 1, characterized in that the insulation displacement contacts (12) have different slot widths (13, 14), different conductor cross sections (15, 16) are contactable.

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