NO115259B - - Google Patents

Description

Electrical connector.

This invention relates to an improved electrical contact piece of a general type and for use in connection with the invention described in Norwegian patent no. 110 446.

The present invention is particularly directed to improvements of the contact piece described in the aforementioned patent, according to which a wire or conductor is electrically connected to a contact pin by means of a clamp-like contact piece. The contact piece is attached in a single operation to the wire and the contact pin, and below that the wire is pulled under the contact piece along the contact pin. This process removes or tears away any insulation on the part of the conductor that is close to the contact pin and creates an intimate contact between the metal in the conductor and the contact pin.

When a multi-strand conductor is used, there is a tendency for the individual strands in the

the material is spread or separated under the clamp.

To make multiple connections on a given contact pin, two or more contact thicknesses together with conductors are placed in sequence on the contact pin. In practice, each contact piece is driven onto the contact pin at high speed, and can cut through the insulation on a conductor placed towards the end of the contact pin during insertion onto the contact pin. When a contact piece is already placed on the contact pin, another contact piece may come into conflict with it.

It is an aim of this invention to provide an improved contact piece, particularly for carrying out the invention according to the aforementioned Norwegian patent.

More specifically, the invention thus relates to an electrical contact piece with an essentially channel-shaped cross-section with an intermediate piece and upright side walls, the edges or legs of which are bent inward to form edge portions that face the intermediate piece in order to clamp the contact pin and the conductor between the intermediate piece and the edge portions, which intermediate piece at the one end between the side walls is designed with a recess which is arranged to accommodate and support a conductor which is connected with a contact pin using the method according to Norwegian patent no. 110 446. The distinctive feature of the contact piece according to the invention is primarily that the middle piece inside is designed with a longitudinal concave groove that forms a bed for a stranded conductor.

In the following, the invention will be described in the form of an example with reference to the drawings, of which: Fig. 1 is an elevation of an electrical contact pin with two insulated conductors connected to the contact pin by means of their respective contact pieces,

fig. 2 is an enlarged perspective view of two contact pieces forming part of a strip of contact pieces,

fig. 3 is an enlarged end view of a connector connecting a multi-wire conductor to a contact pin,

fig. 4 is a plan view of the connection in fig. 3, and

fig. 5 is a side view of the connection in fig. 3.

The multiple electrical connection or connection 10 in fig. 1 comprises a contact pin 12 made of metal which protrudes from a base plate 14. A first contact piece 16 is mounted on the contact pin 12, which contact piece has been pushed in lengthwise from the top of the pin 12 towards the base plate, which is expediently carried out using of a tool of the type described in the aforementioned Norwegian patent. When the contact piece 16 is fitted over the contact pin 12, it will grasp the end of an insulated wire 18, strip this end and pull the stripped end under the middle piece of the contact piece 16 and press this stripped end against the contact pin 12. When only a single contact piece 16 is placed on the pin 12, the position of the contact piece may be somewhat higher in relation to the plate 14 than that shown in fig. 1. When the second contact piece 20 and the associated wire 22 are placed on the contact pin 12, the second contact piece will have to come into contact with the contact piece 16 and lead this further downwards on the contact pin, and it will be understood that the wire 22 goes clear of it rear end of connector 16.

The contact pieces 16 and 20 have an identical design and are produced from a continuous metal strip, e.g. brass, using a punch press of a suitable type. The contact pieces 16 and 20 lying one behind the other end to end in strip form are shown in fig. 2. The contact piece 16 has been connected to a contact piece in front of it (not shown), in the same way that the contact piece 20 is connected to the contact piece 16 through short holding pieces 26 and 28 between the adjacent parts of the contact pieces 16 and 20. Separate contact pieces are normally cut off from the continuous strip or strip before being placed on a contact pin.

As can be seen more clearly from Figures 3 to 5, the contact piece 16 is essentially channel-shaped and has an intermediate piece 30, opposite side walls 32 and 34, inwardly bent legs 36 and 38 on the edges of the side walls which are farthest from the intermediate piece 30. The legs 36 and 38 is directed inwards towards the intermediate piece 30 and is made yielding or springy to rest against the underside of the contact pin 12.

As can be seen in Figures 2 and 3, the intermediate piece is bent convexly outwards over a central portion in the form of a groove 40 over the entire length of the intermediate piece, as can be seen from fig. 4. The radius of curvature of the curved portion or groove 40 is chosen so that the inner surface of the intermediate piece 30 acts to gather the individual strands of a multi-strand wire or conductor into a unified group or bundle under the intermediate piece 30 and prevents the individual strands from bending to spread. As a result, the connector acts in a similar way when multi-wire wire is used as when a solid conductor is used. A single connector can be used for a large range of cable dimensions, e.g. is a connector having an outside width of 0.23 cm (0.092 inch), a length of 0.53 cm (0.212 inch), and other dimensions substantially in the same ratio according to Figures 3, 4 and 5, capable of to accommodate No. 22, 24 and 26 stranded conductors as well as No. 20, 22 and 24 solid conductors according to the American standard for wire sizes AWG. For use with thinner wires, the radius of curvature of the curved track 40 should be suitably reduced.

As can be seen in Figures 4 and 5, the side walls 32 and 34 have front noses 42 and 44 which project forward past the main part of the contact piece 16 and act as stop members when another contact piece, such as the contact piece 20 of Fig. 1, comes into contact with the contact piece 16. The side walls 32 and 34 are impressed on the areas 50, 51, 52 and 53 at the front and rear ends, to form a light contact with the sides of the contact pin, as can be seen from fig. 3. The indentations 50, 51, 52 and 53 serve to ensure that the contact piece 16 is correctly aligned on

the contact pin 12 and to ensure that the edges of

the legs 36 and 38 are in the correct position opposite the side surface of the contact pin 16. That will

it is understood that the radius of curvature of the inwardly bent legs 36 and 38 results in a minimal width of the connector, corresponding to four times the radius of curvature plus a small space between the legs 36 and 38, to allow the introduction or passage of the wire through the connector's

open slot. When the contact pin 16 is narrow, in the absence of the aforementioned indentations, it would be possible to move the contact pin laterally in a contact piece to bring one of the edges of the legs out of contact with the side of the contact pin. This would result in the connection being resolved and the entries serve to prevent this possibility.

At the front end, the upper and lower edges of each nose are rounded, and the edges are bevelled inwards, as shown in fig. 5, so that the nose is tapered or wedge-shaped. In this way, the contact piece will not have a tendency to cut through the insulation of a wire lying in the path of the contact piece, but will push the wire away by means of the wedge-shaped nose portions. In order to retain a wire end in the connector, the inner surface of the intermediate piece 30, as can be seen from Figures 4 and 5, is suitably designed with grooves along transverse lines 55 across at least a rear part of the groove 40 in the connector.

The front part of the intermediate piece 30 has two tongues 60 and 62 which are. punched up on opposite sides of a central opening to form a bell-shaped mouth or recess 64, as seen in fig. 3, to rest against the wire insulation and to serve as a support for a wire. The upper edges of the tongues are separated from each other and are bent inwards. The front corners 66 and 68 of the upper edges are bent outwards to allow the wire held by the connector to be routed to one side or the other of the connector, and to reduce the danger of the corners of the support tongues cutting into in the wires.

Behind the tongues 60 and 62 and behind the area from which these are punched out, there is arranged a central tongue 70 which is bent up from the curved groove or part 40 of the intermediate piece 30, with which this central tongue is joined at its rear end. The central tongue 70 is slanted forward and upward to form a wedge-shaped entry for a wire which lies below the intermediate piece 30 towards the contact pin. On each side of the tongue 70, small areas 72 and 74 have been pressed down, as shown in Figures 2 and 5, to form sharp knife edges 76 and 78, as shown in Figure 3. The eggs 76 and 78 will, when a contact piece mounted on a contact pin, contribute to the stripping of the insulation at the end of the wire when the metal conductor in the wire is pulled under the middle piece of the contact piece. Careful stripping of the wire is important, and the knife edges 76 and 78 are placed against and cut into the insulation on opposite sides of the wire core to facilitate removal of the end portion of the insulation.

The front inner edges of the inwardly bent legs 36 and 38 are chamfered as indicated at 38' in fig. 5 to form a wedge-shaped entry for the contact pin 12 into the contact piece. This facilitates the assembly of a contact piece on a contact pin.

It will be seen that, apart from the light touch at the impressed areas 50, 51, 52 and 53, the edge parts or legs 36 and 38 are the only parts of the contact piece that rest against the contact pin 12, and the frictional forces that arise during the production of a connection is largely limited to the friction between the conductor or wires and the contact pin on the one hand, and between the edge portions of legs 36 and 38 and the contact pin on the other hand.

The resilient action of the inwardly bent legs 36, 38 together with a controlled deformation of the intermediate piece 30 when the contact piece and conductor are pressed onto a contact piece makes it possible to use a considerable range of different conductor sizes in connection with a given combination of the contact piece's and the dimensions of the contact pin. Furthermore, the design of the tongues 60 and 62, which serve as a support for the insulation, allows a range of insulation thicknesses to be used and occupied by the springing of the tongues without the contact piece's intermediate piece being lifted away from the contact pin.

Claims (8)

1. Electrical contact piece of substantially channel-shaped cross-section with an intermediate piece and upright side walls, the edges or legs of which are bent inward to form edge portions facing the intermediate piece to clamp the contact pin and the conductor between the intermediate piece and the edge portions, which intermediate piece at one end between the side walls is designed with a recess that is designed to accommodate and support a conductor that is connected to a contact pin using the method according to Norwegian patent no. 110 446, characterized in that the intermediate piece (30) is designed internally with a longitudinal concave groove (40) which forms a lease for a stranded conductor (18). 2. Contact piece according to claim 1, characterized in that the said side walls (32, 34) have inwardly directed indentations (50, 51) which are arranged to rest against the side edges of the contact pin (12). 3. Contact piece according to claim 1 or 2, characterized in that the intermediate piece at its front end near the support recess (64) for the conductor is designed with sharp-edged projections (72, 74, 76, 78) for stripping on opposite sides of the support recess (64). 4. Electrical contact piece according to claim 1, characterized in that the side walls (32, 34) extend in front of the intermediate piece (30) and the support recess (64) for the conductor to form stop elements (42, 44). 5. Contact piece according to claim 4, characterized in that the stop elements (42, 44) are wedge-shaped in the forward direction. 6. Electrical contact piece according to claim 1, characterized in that the front part of the intermediate piece (30) is designed with two punched-out tongues (60, 62) which form a bell-shaped support recess (64) for the conductor arranged to rest against the insulation of a wire (18), where the upper front corners (66, 68) of the tongues are bent back and the upper edges of the tongues are curved inwards. 7. Contact piece according to claim 6, characterized in that a front part of the intermediate piece (30) behind the punched tongues is designed with a punched tongue (70) which forms a wedge-shaped entrance (fig. 5 and 2) for the wire (18) from the tongues (60, 62) to the underside of the intermediate piece (30). 8. Contact piece according to claim 7, characterized in that a front part of the intermediate piece (30) on each side of the punched tongue (70) is pressed down to form two knife edges or projections (76, 78) on either side of the tongue ( 70).