The invention relates to a device for connecting two electrical conductors, composed of a metal clamp constructed from a pipe piece, wherein the clamp has in its wall at least two throughholes provided with a thread for receiving clamping screws provided with an external thread.
Devices of this type are known and available on the market. They are used, for example, for connecting the conductors of energy cables which are composed preferably of copper or aluminum. For securing and contacting the conductors in the damp, clamping screws are used which are constructed, for example, as shearing screws. The heads of such screws shear off when a certain moment is reached, i.e., when reaching a sufficiently high contact force between screw and conductor.
The contact force produced by the clamping screws effects the connection of the conductor with the clamp and the connection of the individual wires of the conductor. The connection is to be maintained during the entire demanded service life of the device. The electrical current flows in such a device from a conductor through the clamp to the other conductor having relatively high transmission resistances.
In multiple-wire conductors, there is the additional fact that the individual wires of the conductors rub against each other when compacting occurs as a result of tightening the clamping screw. This produces the result that in the interior of the conductor a pressure is produced which is smaller than the pressure at the surface. This may lead to problems when connecting multiple-wire conductors with large cross-sections or in segmented conductors, so called “Milliken” conductors. When the contact of the individual wires in the interior of the conductor is insufficient, heating occurs which is above average. In conductors of aluminum, this heating additionally leads to increased flux of the material and, as a result, after a short time already to a further reduction of the contact pressure. The electrical connectiot between the conductors becomes then useless relatively quickly.
It is the object of the invention to construct the above-described device in such a way that the electrically conducting connection between the two conductors to be connected can be improved permanently.
In accordance with the invention, the object is met in that
In this device, the two conductors are connected directly and at least essentially without gaps in the clamp through the conical tip of the fixing screw which tightly rests against the end faces of the two conductors. Consequently, a substantial portion of the current flows through the advantageously conical tip from one conductor to the other. The tight contact of the tip at the end faces of the two conductors is ensured especially by the fact that the tip with a thread which is opposite the external thread of the fixing screw is screwed into the fixing screw. As a result, when tightening the fixing screw, the advance of the tip is greater than the advance of the fixing screw itself This ensures that the tip penetrates deeply into the interior of the clamp and is in the clamp pressed between the end faces of the two conductors, without the pipe piece of the clamp having to have a particularly large wall thickness.
Due to the preferred conical shape of the tip and a low friction of its threads, the produced contact force is high and a permanently current-conducting contact is effected between the end faces of the two conductors and the tip. If the tip is preferably composed. of the same or a similar material as that of the conductors, the current flow between the two conductors is improved. Suitable materials are copper or aluminum and an aluminum alloy or brass.
In a preferred embodiment, the pipe piece of the clamp has at two diametrically oppositely located locations a middle throughhole for receiving a fixing screw provided with a tip. It is also possible to provide more than two throughholes distributed over the circumference of the clamp for receiving fixing screws in the clamp.
An embodiment of the subject matter of the invention is illustrated in the drawings.
In the drawings:
In the drawings, all screws are illustrated as shearing screws whose heads are sheared off after reaching the desired tight seat of the screws at the conductors. However, it is also possible to use for the device according to the invention normal, non-shearing screws.
The tip rotabably arranged in the fixing screw is supposed to narrow in the direction of its free end face and constructed preferably conically. However, for simplicity's sake, it is in the following merely referred to as tip.
In accordance with
The tip 11 of the fixing screw 3 is advantageously composed of a material which is the same or similar to metal as the conductors 4 and 5 to be connected. Suitable materials are copper and alut as well as aluminum alloys and brass. The tip 11 can also be composed of two materials which separated from each other symmetrically relative to their middle axis, so that its one side is composed, for example, of copper, and the other side of aluminum or an aluminum alloy. A fixing screw 3 with a tip constructed in this manner can advantageously be used for connecting an aluminum conductor with a copper conductor. The position of the tip 11 necessary fur this purpose is adjusted prior to tightening of the fixing screw 3.
The surface of the tip 3 may also be structured, For this purpose, it may be roughened or equipped with a plurality of small projections. Such a tip 1 has a somewhat increased surface area. When the tip 11 is advanced, simultaneously a kind of cutting effect occurs, so that the tight seat of the tip 11 against the end faces of the two conductors 4 and 5 is further increased.
The manipulation of the device according to the invention will be explained as an example with the aid of
In the embodiment illustrated in
For producing an electrical connection between the conductors 4 and 5 which is permanently effective, in accordance with
After the conductors 4 and 5, as described, are immovably secured in the clamp 1 by means of the clamping screws 2, the fixing screws 3 are tightened. This causes the tips 11 to penetrate into the gap between the end faces of the two conductors 4 and 5, specifically along a path which is longer than the path which is traveled by the fixing screws 3 as a result of their rotation. In their end position illustrated in
When the fixing screws 3 are turned the advancement of the tips 11 of the fixings screws 3, which is greater than the advancement of fixing screws 3 is effected by the oppositely directed external threads of the screw bodies 9, on the one hand, and the tips 11 on the other hand. A requirement for this longer adjusting path of tips 11 is the fact that the fixing screws 3 are not turned when they are tightened. When this device is used, it can then be assured that the two conductors 4 and 5 contact the tips 11 tightly enough and prevent a rotation of the tips.
The greater advancement of the tip 11 relative to the advancement of the fixing screws 3 itself when the fixing screw 3 is turned, will he explained in connection with an example shown in
In the case of one turn, the fixing screw 3 is supposed to travel, for example, a distance of 1.5 mm. The tip ii which is held hack during the turning of fixing screw 3 is additionally turned during this rotation through its oppositely directed external thread out of the recess 10. If during the rotation of the fixing screw 3 the tip 11 is not rotated together with the fixing screw 3 from the beginning, the tip travels twice the distance as the fixing screw 3. For this example, that is 3.0 mm.
Number | Date | Country | Kind |
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09290132.1 | Feb 2009 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP10/51883 | 2/16/2010 | WO | 00 | 10/5/2011 |