NO131045B - - Google Patents

Description

A method is also specified in the aforementioned British patent

for connecting a flat cable conductor to such a connector, comprising placing the connector in a position lying above the conductor with the sidewalls protruding against the surface of the cable, pressing the sidewalls through the cable, while bringing the sidewalls

to bend inwards so that their edges penetrate the insulation and make contact with one side of the conductor, and pressing

of the other side of the cable in contact with the main part of the contact piece, so that the tongue penetrates the insulation of the cable and comes into contact with the other side of the conductor, which pressure is continued until the tongue hits the stop member.

Such a clamp connection is of great value when terminating a flat cable comprising several flat conductors arranged mostly in parallel and at a distance from each other as well as enclosed between the upper and lower insulation layers, as neighboring conductors

are separated in the longitudinal direction by means of insulating sections.

In an attempt to reduce the price of flat cable it has

has been proposed and staple or glue together the upper and lower insulation layers only on the said insulation parts, while the conductors are allowed to be relatively loose between adjacent insulation parts. In the case of such a cable, the insulation tends to resist penetration by the above-mentioned contact piece, and this invention is based on a clamping device specially designed for such

cable. It should be noted in this connection that the clamp according to British patent 1 146 807 does not always make good contact with the conductor

pure in such cables where the conductors can shift in the insulation jacket. The present invention takes, among other things, aim to overcome

this difficulty.

In German specification no. 1 213 023 it is described

knows a connector for flat cable comprising a contact element

which is held in the end wall of a closed, insulating house. The contact element has a lance-like end part inside the housing and an end

part of a piece of flat cable is pressed into the housing to

cause the lance-like end part of the contact element to lie between a conductor and the overlying insulation. Such a connection is unstable because it depends on the pressure of the insulating material, which varies with temperature. Furthermore, it is not possible to make contact with the flat conductor at a distance from the free end.

More specifically, this invention thus relates to an electrical clamping device for the above-mentioned purpose and of the type comprising a first element essentially shaped like a U-profile with a bottom and opposite side walls with cutting edges,

where at the bottom two insulation-breaking tongues are pressed up which extend into the U-profile and are designed to penetrate the wire insulation and thereby make contact with the dented side of a ribbon conductor in a flexible multiconductor flat cable, while the cutting edges and side walls are pressed through insulation strips on the narrow sides of the conductor and bent inwards in the U-profile so that the cutting edges penetrate the insulation on the other side of the conductor and form electrical contact at this location. In addition to the above-mentioned patent documents, this starting point for the invention also takes into account what is known from Swedish patent document no.

307,807.

The new and distinctive feature of the invention consists mainly in the fact that the clamping device also comprises another element in the form of a contact head which is arranged for connection with an electrical conductor and has an elongated, flush extension with a penetration tip to form an insertion part, which is designed to be pushed longitudinally between the wire insulation on

the aforementioned second side of the conductor and the conductor and lies under the cutting edges of the bent side walls of the first element so that the conductor itself and the two elements during electrical contact formation are pressed firmly together in inextricable engagement, and the conductor is fixed in an insulating jacket.

The invention is described in more detail in the following in the form of an embodiment with reference to partially schematic drawings, of which:

Fig. 1 is a perspective view of part of a flat cable

with clamping devices according to this invention.

Fig. 2 is a perspective view of a first and a second element in a clamping device in a disassembled state. Fig. 3 is a cross-section through one of the connections in fig. 1. Fig. 4 is a longitudinal section along the line IV-IV in fig. 3.

The flat cable in fig. 1 comprises flat conductor strips 2, usually consisting of copper, arranged largely parallel to each other in the longitudinal direction of the cable. Layers of insulating material 3 are placed above and below flat conductors 2. These layers are joined so that thin insulating sections 4 are formed between adjacent conductors and at the longitudinal, free edges of the cable.

The complete insulating mantle thus consists of the parts 3 and

4. The conductors 2 are allowed to be relatively loose in the channels between adjacent insulation parts 4.

The clamping device in fig. 2 includes a first ele-

ment 5 and another element 6, each of which, together with others, is

formed in strip form (not shown) of electrically conductive, resilient metal. The first element 5 has a front tip or lance

met insertion part 7 and a rear contact head comprising side ears 8

for crimp connection to a wire (not shown). The other ele-

ment 6 has a channel-shaped cross-section with a main part or bottom 9 and upstanding side walls 10. The longitudinal edges of the side walls are chamfered as shown, to form insulation-penetrating cutting can-

ter 11. Two opposite, inwardly directed and insulation-breaking tongues 12

is discontinued from the main part 9.

In use, the insertion part 7 of a first element 5 is pressed in, so that it penetrates under the insulation layer 3 on the upper side of a flatJeder 2 either near one end of the cable or somewhere between the cable ends. Another element 6 is then moved from the underside of the conductor 2 with the side walls 10 aligned longitudinally

the insulation parts 4 on each side of the flat conductor.

The second element 6 is then pressed upwards to cause the edges

11 penetrates the insulation parts and then the side walls 10

penetrate through these. The parts of the side walls 10 which lie above the insertion part 7 are then bent towards this until the edges 11 penetrate the upper insulation layer and come into contact with the insertion part 7 in the state shown in fig. 3. Plug-in

the part 7 on the first element 5 reinforces the flat conductor 2 so that a counter force against deformation of the second element is provided

ment 6, and the insertion part acts as a wedge to increase the mechanical strength of the connection. The plug-in part and the conductor 2 are then

clamped together between the free cutting edge 11 on one side bg tun-

genes 12 on the other, and this causes extrusion of the metal whereby the oxide film is cut through and a good electrical

bond is secured.

Claims (1)

Electrical clamping device for a ribbon-shaped flexible multi-conductor flat cable and comprising a first element (6) main essentially shaped like a U-profile with a bottom (9) and opposite side walls (10) with cutting edges (11), where in the bottom (9) two insulation-breaking tongues (12) are pressed up which extend into the U-profile and is designed to penetrate the wire insulation and thereby make contact with one side of a hand conductor (2) in a flexible multi-conductor flat cable (1), while the cutting edges (11) and side walls (10) are pressed through insulation strips (4) ) on the narrow sides of the conductor (2) and bent inwards in the U-profile (6) so that the cutting edges (11) penetrate the insulation on the other side of the conductor (2) and form electrical contact at this location, characterized in that the clamping device also comprises another element (5) in the form of a contact head (8) which is arranged for connection with an electrical conductor and has an elongate, flush extension with a penetration tip to form an insertion part (7), which is designed to be pushed longitudinally between the wire insulation on the said other side of the conductor (2) and the conductor and lies below the cutting edges (11) of the bent side walls (10) in the first element (6) so that the wire itself (2,3) and the two elements (5,6) during electrical contact formation are pressed firmly together in inextricable engagement, and the conductor (2) is fixed in an insulating mantle (3,4).