NO136688B - - Google Patents

Description

Device at cable lugs for electrical cables.

The invention relates to a device for cable lugs for electrical cables, and particularly aims at a device which, in a more expedient manner than before, makes it possible to connect the cable lug to a current-carrying cable, so that the cable can be connected to other electrotechnical components by means of the lug .

Generally speaking, common makes and types of connection devices for cables, whether they are so-called lugs, splices, sleeves, cross-couplers or cable lugs, are provided with hollow cylinders or tubes into which the ends of the spun cable wires stick and are anchored. There are at least three different methods for anchoring the cable ends to the aforementioned hollow cylinders or pipes, e.g. soldering, or clamping the cable by means of a screw threaded into the cylinder wall or by compressing or indenting the side wall of the cylinder to such a depth and in such a way that the cylinder and the cable are pressed together into a relatively compact unit essentially free of empty space between the individual wires in the cable and between the wires and the cylinder wall. The latter indentation of the tubular part around the cable offers advantages in that this type of connection has good conductivity and great mechanical strength.

There are many different types and makes of tools, devices and equipment for shaping the indentation in the side wall of cable lugs and the like, where you have a tubular part into which the cable is inserted. All tool types, however, make use of a saddle-shaped block of steel as support for the cylinder of the cable lug or other connecting equipment hereinafter simply called cable lugs, while a punch or a stamp with a rounded end is pressed into the wall to form the indentation. The simplest and cheapest device for forming the impression consists only of a saddle-shaped steel block which can be fixed between the jaws of a vise, while an ordinary hammer is used to drive in the rounded piston in the top of the cylinder. More elaborate and expensive equipment is designed in such a way that the force that presses the rounded piston into the wall of the cylinder is produced with a pawl mechanism, and with other devices and machines the necessary forces are produced with compressed air or as hydraulic pressure.

Common to all these different makes and types of devices and machines is that special tools or machines must be at hand when necessary, and as they are only used at long intervals they are often put away without being able to find them again later, and in all cases valuable time can be lost during the search.

One purpose of the present invention is therefore to provide a cable shoe or similar connecting equipment for cables, where the shoe or similar can be placed on the end of a current-carrying cable by the push-in method without the use of special tools, special devices or machines.

When making use of the present invention, it becomes unnecessary to use punches and saddle-shaped sinkers, and the only tool needed to shape the depression of the tubular part on the cable lug or similar for compressing this around the stranded cable, is an ordinary hammer or a iron bar that can be used as a hammer. This is made possible because the cable shoe or similar according to the invention itself contains the necessary components that replace the saddle-shaped sinker and piston, as these components are made in one piece with the cable shoe and they will of course also be in place when they are needed for - the printing operation.

The invention thus relates to a device for cable lugs and similar connecting equipment for electrical connectors, comprising a tongue or an ear and a tubular part in one piece with the tongue or ear, which tubular part has a longitudinal bore whose diameter roughly corresponds to that of the cable lug intended for as the tubular part is intended to be pressed together around the cable when it is to be fixed, and the invention is essentially characterized by the fact that part of the wall of the tubular part is thicker than the diametrically opposite wall part and that the thinner wall section on the outside is provided with a knob whose width is significantly smaller than the diameter of the bore and which is designed to give the impressed part of the wall a trough-like shape by indentation without particular deformation of the rest of the tubular wall.

Other features and details of the invention will be apparent from the following description of an embodiment of a connection device with reference to the drawing in which: Fig. 1 shows an inherently complete connection device for cables, seen from the side and made according to the invention,

fig. 2 shows the coupling device shown in fig. 1 seen from one end,

fig. 3 shows the coupling device seen from above,

fig. 4 shows, seen from the side, the coupling device in fig. 1 with a knob in the depressed state for indenting the wall of the coupling device when this is to be attached to the cable and

fig. 5 shows a section along the line 5—5 in fig. 4.

The coupling device shown in fig. 1, 2 and 3 include the tongue or ear 21 with a hole 22 for fixing the coupling device on an associated part in an electrical circuit. The cylindrical part 23 is integral with the tongue or ear and this part has a bore 24 which extends to a depth corresponding to approximately two and a half times the diameter of the bore. The cylinder 23 is provided with a flat bottom 25 and this is essentially a continuation of the flat underside of the ear 21. The flat bottom 25 merges into the straight walls 26 on both sides of the cylindrical part. A cam 27 protrudes from the top of the semicircular upper half of the cylinder 23 and the cam extends in the longitudinal direction of the part. For best results, the length of the cam 27 should be somewhat less than half the depth of the bore, and its thickness should be approximately one-third the diameter of the bore, while its height should be half the diameter of the bore.

Fig. 4 and 5 show how the end of the multi-wire cable 28 is pressed tightly together by the indentation 30 that appears when you hit the cam 27 with a hammer. You will see that the hammer blows that hit the cam 27 do not knock the cylinder flat and that the blows have only struck into the top wall. It is important that the cylindrical part of the connector and the inserted end of the stranded cable are not compressed simply by knocking the cylindrical part flat, because if the part is knocked flat the compressive force will not be locked and the compression will spring back and not blocked. In accordance with this, the coupling device according to the invention is designed in such a way that the compressive force that builds up with each hammer blow on the cam 27 is locked "in", so that there will be almost no spring back in the impressed area, something which will be better explained in the following description.

It will be seen that the thickness of the cylinder wall 31 close to the cam 27 is smaller than the thickness of the cylinder in the area at the sides 26. Thus, when you hit the cam 27 with a hammer, the top wall of the cylindrical part will more easily collapse at the areas 31 along the cam . With each hammer blow, the wall will collapse more and thereby reduce the cross-section of the cavity, and finally the individual strands in the cable will be pressed together and shaped like a bundle of hexagons. This is the state closest to a completely massive state. You will then get very little, if any, of voids between the threads or between the threads and the cylinder wall where air can enter and oxidize the compound. If excessive oxidation of an electrical connection can be prevented, the quality of the connection will be maintained.

As explained above, the greatest compactness can be achieved by shaping the indentation by preventing springback

of the impressed party. This is achieved by

to limit the length of the impression to

approximately half the depth of the bore so that the circular shape of the cylindrical part is maintained at both ends. By

to maintain the circular shape at both ends, the metal at these areas must be stretched

peripherally before the indentation can go back, and as long as the indentation does not

back, you also don't lose any of the compactness of the connection. The coupling device 20 in fig. 1 to 5 inclusive includes it

preferred embodiment of the invention, and the best possible degree of effectiveness is obtained, that is, by conduction of current in the joint between the cable's wires and

the coupling device. Furthermore, the coupling device in this embodiment has

maximum strength. The dimensions of those

different parts are not very critical and

one can within fairly broad limits

still obtain the benefits of the invention. For example may be the depth of the borehole

something more or something less than two and one

half times the diameter of the bore and so on

the length of the cam 27 can be somewhat greater

or less than half that of the borehole

depth at the same time as the width of the knob

may vary somewhat, either being more or less than one third of the diameter of the bore.

In all cases, however, the main improvement lies in the production of one itself

complete coupling device where this is in

one piece with a saddle-shaped part provided

with a flat bottom and where the coupling device is also in one piece with a cam. It

flat bottom of the cylindrical part prevents

the lower part of the bore from losing its

curvature when the indentation is driven into

the upper part of the cylinder.

The invention is not limited to those

shown construction details found in wood

the embodiments in the drawings, as the tongue or ear may have other shapes than

the one shown, in particular, it can be off

the same kind as the said tubular part,

or have another form adapted to the body which

must be connected.

Claims (7)

1. Device for cable lugs for electric cables, comprising a tongue or ear and a tubular part in one piece with the tongue or the ear, which tubular part has a longitudinal bore whose diameter roughly corresponds to the cable shoe is intended for, the tubular part being intended to be pressed together around the cable when it is to be attached, characterized in that a part of the wall of the tubular part is thicker than the diametrically opposite wall part and that the thin wall part is externally provided with a knob whose width is significantly smaller than the diameter of the bore and which is designed to, when indented, give the impressed part of the wall a trough-like shape without particular deformation of the rest of the tubular wall. 2. Device as stated in claim 1, characterized in that the thicker wall section has a flat surface on the outside. 3. Device as stated in claim 2, characterized in that the width of the flat surface corresponds to the outside diameter of the tubular part. 4. Device as stated in one or more of the preceding claims, characterized in that the distance from each of the ends of the tubular part to the cam is greater than a quarter of the diameter of the bore. 5. Device as stated in the preceding claims, characterized in that the width of the cam is not more than three quarters of the diameter of the bore and not less than one quarter. 6. Device as stated in the preceding claims, characterized in that the height of the cam is not less than a quarter of the diameter of the bore and not greater than this. 7. Device as stated in the previous claims, characterized in that the wall parts near the ends of the tubular part are designed in such a way that they remain substantially round when the cam is pressed in, thereby preventing the trough-like indentation from "springing back".