EP0275344A1 - Auxiliary means and process for producing a pressurized connexion of compressed sector-shaped cable conductors - Google Patents

Abstract

Pressurised connections, such as cable shoes or impact connections, have a round retaining channel for the conductor end to be connected, whose internal diameter is matched to the electrical conductor cross-sections of conductors having round individual wires. Sector-shaped, pressurised conductors must be pressed round to use such standard pressurised conductors, which is difficult to carry out in practice. To simplify the pressing-round process, the invention provides an auxiliary means in the form of a metal sleeve (2), which can be pushed on to the conductor end to be pressed round and is likewise of sector-shaped cross-section, and which surrounds the individual wires as a bandage while they are being pressed round and is inserted into the pressurised connection together with the conductor end which has been pressed round. <IMAGE>

Description

The invention relates to an aid for round pressing a sector-shaped, compressed conductor in adaptation to the round conductor receiving channel of a standard press connector piece, for. B. a cable lug or butt connector.

In practice, in addition to cables with conductors each consisting of a bundle of round individual wires, cables with so-called compressed conductors are also used, in which the individual wires have an approximately square or hexagonal cross section and are packed together in the closest spatial arrangement, for example in a honeycomb arrangement. Correspondingly, conductors with round individual wires and compressed conductors have a different outside diameter with the same electrical cross section. The press connector pieces used to produce cable connections in the press connector technology are each matched and standardized to the larger outer diameter of the conductor with round individual wires, which, however, has the consequence when using compressed conductors that the press connector pieces are deformed excessively must, with often only a poor electrical contact between the conductor and the press connector. In addition, the mechanical pull-out strength is generally not sufficient. However, separate press connector pieces that are matched to the outer dimensions of compacted conductors are rejected by practice, since the associated increase in type would lead to additional storage costs. In addition, compacted conductors are used in particular in the case of three-conductor or four-conductor sector cables in which the conductors have a cross-sectional shape in the shape of a sector of 120 ° or 90 °. However, because of their bulky cross-sectional shape, such sector-shaped conductors cannot be inserted into the round standard press connector piece corresponding to their electrical cross section. In the case of sector-shaped conductors with round individual wires, it is known to press the sector-shaped conductors round by means of a circular pressing tool, after which they can then be inserted into the associated press connector piece. However, compacted, sector-shaped conductors cannot be rounded to a sufficient extent, since the individual wires spread apart during the round pressing, which should result from a disturbance in the tight packing structure of the individual wires.

The invention has for its object to enable the use of standard compression connector pieces for sector-shaped, compacted conductors, while at the same time ensuring perfect electrical contact and high mechanical pull-out strength.

To achieve this object, according to the invention, one can be pushed onto the end of the conductor that is to be pressed round and also has a sector-shaped metal sleeve in cross section, the sector angle of which is 90 ° or 120 °. Through this, a metallic bandage metal sleeve, the individual wires of the compacted conductor are held together during the round pressing to such an extent that the unit of the round-pressed conductor and the round-pressed metallic bandage can now be deformed to such an outer diameter that this unit is in an associated standard press connector piece can be inserted. In the subsequent pressing process, the press connector piece is now pressed onto the metal sleeve over a large area and, on the other hand, the metal sleeve is even more intimately pressed onto the compressed conductor, material of the metal sleeve being pressed into the edge-side corner spaces between the individual wires of the compressed conductor, so that overall a very intimate metallic connection is produced between the compressed conductor and the press connector. As a result, very low and above all always reproducible electrical contact resistances and a high mechanical pull-out strength are achieved, so that definite conditions are now also present in this type of press connection.

According to the invention, the metal sleeve, which preferably consists of copper, can be grooved or perforated transversely and lengthwise and have a length approximately equal to the length of the receiving part of the press connector piece.

The invention is also directed to a working method for producing a press connection between a press connector piece with a tubular, round conductor receiving part and a sector-shaped compressed conductor which is to be pressed round before being inserted into the conductor receiving channel of the press connector piece. The method is characterized in that the compacted, sector-shaped conductor is first provided with a metallic bandage before the round pressing, wherein a sector-shaped metal sleeve of 90 ° or 120 ° sector angle can be used as the metallic bandage, which is pressed together with the sector-shaped conductor .

• Fig. 1 ein Hilfsmittel in Form einer im Quer­schnitt kreissektorförmigen Metallhülse mit 90° Sektorwinkel,
• Fig. 2 ein Hilfsmittel in Form einer im Quer­schnitt sektorförmigen Metallhülse mit einem Sektorwinkel von 120°,
• Fig. 3 einen Querschnitt durch die Metallhülse nach Fig. 2, wobei zugleich strichpunktiert ein von der Metallhülse umschlossener sektorförmiger, verdichteter Leiter dar­gestellt ist,
• Fig. 4 die Hülse und den verdichteten Leiter nach dem Runddrücken,
• Fig. 5 einen Längsschnitt durch eine rundgedrückte Einheit aus Metallhülse und sektorförmigem Leiter nach Fig. 4, wobei zugleich strich­punktiert ein die Einheit aufnehmender Preß­verbinderkabelschuh angedeutet ist, und
• Fig. 6 ein weiteres Ausführungsbeispiel.

The invention is explained in more detail below with reference to the drawing, in which:

• 1 is an aid in the form of a metal sleeve which is circular in cross-section and has a sector angle of 90 °,
• 2 shows an aid in the form of a metal sleeve which is sector-shaped in cross section and has a sector angle of 120 °,
• FIG. 3 shows a cross section through the metal sleeve according to FIG. 2, with a sector-shaped, compressed conductor enclosed by the metal sleeve being shown in broken lines at the same time, FIG.
• 4 the sleeve and the compressed conductor after the round pressing,
• Fig. 5 shows a longitudinal section through a rounded unit made of metal sleeve and sector 4, wherein at the same time a dash-dotted line, the unit receiving press connector cable lug is indicated, and
• Fig. 6 shows another embodiment.

1 and 2 show two metal sleeves 1, 2 which are sector-shaped in cross section. The metal sleeve 1 according to FIG. 1 has a sector angle of 90 ° and is intended for use with conductors of a four-conductor sector cable. The metal sleeve 2 has a sector angle of 120 ° and is suitable for use with conductors of a three-wire sector cable.

As shown in FIG. 3, the sleeve 2 is pushed onto a 120 ° sector conductor 4, after which the metal sleeve 2 is a metallic bandage for the individual wires 5 of the sector conductor 4 during the subsequent round pressing. When pressing round, the metal sleeve 2 comes into the deformed state according to position 2ʹ in Fig. 4, in which it has already been pressed into intimate contact with the individual wires 5, but has attained a cylindrical outer shape overall, so that the unit made of the metal sleeve 2ʹ and the rounded shape Head 4ʹ can now be inserted into the round receiving channel 6 of an associated press connector piece 7, cf. Fig. 5.

In the embodiment according to FIG. 2, the metal sleeve 2 is provided with holes 8 in order to increase the contact and the mechanical pull-out strength. Alternatively, as shown in FIG. 6, the metal sleeve 9 can also be provided with longitudinal grooves 10 and transverse grooves 11.

In all embodiments, the metal sleeves 1, 2 and 9 have a length approximately equal to the length of the tubular receiving part 6 of a standardized press connector piece, for. B. a cable lug.

Claims (7)

1. Aids for round pressing a sector-shaped, compressed conductor in adaptation to the round conductor receiving channel of a standard press connector piece, e.g. of a cable lug or butt connector, characterized by a metal sleeve (1, 2, 9) which can be pushed onto the round end of the conductor and is also sector-shaped in cross section. 2. Aid according to claim 1, characterized in that the metal sleeve (1, 2, 9) has a sector-shaped cross section of 90 ° or 120 ° sector angle. 3. Aid according to claims 1 and 2, characterized in that the metal sleeve (1, 2, 9) is transverse and longitudinally grooved or perforated. 4. Aid according to claims 2 or 3, characterized in that the length of the metal sleeve (1, 2, 9) is approximately equal to the length of the conductor receiving part (6) of the press connector piece (7). 5. Aid according to one of claims 1 to 4, characterized in that the metal sleeve (1, 2, 9) consists of copper. 6. A method for producing a press connection between a press connector piece with a tubular, round conductor receiving part and a Sector-shaped compressed conductor, which is to be pressed round before insertion into the conductor receiving channel of the press connector piece, characterized in that the end of the conductor (4) is first provided with a metallic bandage before the round pressing. 7. The method according to claim 6, characterized in that a metal sleeve (1, 2, 9) which can be pushed onto the sector-shaped conductor (4) and has a cross-section which is approximately sector-shaped is used as the metallic bandage and is pressed together with the conductor (4).

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