DE1121684B - Process for producing a cable connection using the cold forging process - Google Patents

Description

The invention relates to a method for producing a by way of the cold forging process connection taking place. It is known for connecting electrical cables, one acting as a ferrule To use hollow cylindrical connecting sleeve, which is under pressure by a pliers-like Tool or a pliers-like die on the ends of the cable parts to be connected is pressed. This usually results in laterally protruding at the closing points of the die, in longitudinal ribs.

It has already been proposed to connect an electrical cable lug with acting as a ferrule to carry out the hollow cylindrical sleeve part by way of the cold forging process in such a way that that the sleeve part in a die closed on all sides by acting from three sides Pressure is deformed into a substantially triangular cross-section.

Tests have shown that the tensile strength of such a connection is significantly increased can be that according to the invention by that the sleeve part enclosing the pressing tool on all sides between two longitudinally spaced apart a deformation to triangular Zones underlying the cross section of such reduced pressure is exerted that the material of the sleeve part to evade the zones of triangular cross-section into an annular one is brought to the sleeve part extending intermediate zone.

Another proposal already provided for the connecting sleeve of a cable lug in a closed die to press on the end of the cable in such a way that press areas are in the axial direction different pressing pressure result by a between pressing areas high pressing pressure lying District lower pressing pressure a raised part with substantially perpendicular to the axis of the sleeve sloping transverse sides. These were primarily cable lugs that were preformed in the State U-shaped tabs for pressing, which in the die to a substantially B-shaped cross-section can be deformed.

A pressing tool for producing such a connection also forms an object of the Invention; Such a pressing tool consists of mutually complementary, spaced apart arranged and a circumferentially enclosed space-forming half parts, the same form a rear groove part. The longitudinal extent of the effective surfaces of the pressed parts and Process for producing a cable connection using the cold forging process

Applicant:

AMP Incorporated,
Harrisburg, Pa. (V. St. A.)

Representative: Dr. phil. GB Hagen, patent attorney,
Munich-Solln, Franz-Hals-Str. 21

Claimed priority:
V. St. v. America of December 28, 1956 (No. 631344)

Norman Edwin Hoffman, Norristown, Pa.

(V. St. A.),
has been named as the inventor

likewise the rear parts are essentially the same. In this way you get a connection in which in the longitudinal direction the zone-shaped bands generated by pressure and the Intermediate zone have essentially the same extent.

An embodiment of the invention is explained in the description and the figures. It means

Fig. 1 is a perspective exploded view of a cable lug and a cable, before manufacture the connection,

FIG. 2 shows a perspective illustration similar to FIG. 1 of the connection after its completion,

Fig. 3 is a cross section along the line III-III of Fig. 1,

Fig. 4 shows a cross section along the line IV-IV of Fig. 2,

Fig. 5 is a cross-section along the line V-V of Fig. 4;

Fig. 6 is a perspective view in disassembled form of the half parts of the pressing tool, which for Establishing the connection according to Fig. 2 to 5 is used,

7, 8 and 9 representations of the cable lug part and the pressing tool during manufacture the cold forged connection.

It may be a matter of an electrical cable 12 being connected to a cable lug 10 target. The cable lug has a deformable

109 759/316

ble metallic sleeve part 14 in which the end of the cable 12 fits. As can be seen from FIG. 3 is, the end of the cable part 12 fits into the sleeve part so that all wires of the cable fit into the cable lug. The cable itself can either be a solid cable or an off Be cores of existing cable; 5 and 7 to 9 show the cable used as a solid conductor in cross-section.

When the cable is arranged in the sleeve part of the cable lug and between the half parts the mold, as shown in Fig. 6, is introduced, the mold parts are caused, to act against the cuff part, such that the cable lug and the cable end in the way of Cold forging can be connected to one another. The half parts of the press tool consist of one outer molded part 20 and an inner molded part 22. The effective surfaces of the molded part 22 exist from two surfaces 24, 26 or 24 ', 26'. These two parts are offset from one another in the longitudinal direction, and between them there is a rear part 28, 30. The surfaces 24, 26 and 24 ', 26' and the Rear parts 28, 30 have the same longitudinal extent.

As can be seen from FIGS. 7, 8 and 9, the outer part 20 and the inner part 22 of the pressing tool complement one another in a complementary manner, so that two surfaces enclosed with respect to the jacket contour surrender. When the mold half-parts are closed and a cable lug and a cable end located between them, compressive forces are applied in a symmetrical manner on three separate surface areas of the cable, as can be seen from FIG. Accordingly, there is an evasion of the Metal within the surfaces of the press tool parts in the form of longitudinal ribs that extend between the result in three pressure areas, and in addition there is a deviation of the metal in the longitudinal direction of the band-shaped surfaces 36, 38 generated by the pressure effect, which is expressed in that the Metal between the band surfaces 36 and 38 forms an expanding zone 40 towards the outside. That Metal in the intermediate zone 40 is formed as a result of the cold forging process compressed. Bulging zones also form at the ends of the sleeve-shaped part as a result of the deflection of the material within the nipping zones to the outside.

As an example of the advantageous effect of the invention, the results can be given with a cable lug with an inner diameter of 11.44 mm and 13.72 mm outside diameter for a cold forging process with a solid 8.25 mm diameter wire, a 10.97 mm diameter cable consisting of veins 1033 cores and a cable consisting of cores with a diameter of 9.47 mm and 19 cores became. In each case the width of the pressure bands and the intermediate zone was in Viewed lengthways, 3.48 mm. The tensile strength of the connections is in the given in the table below; this tensile strength is compared to the tensile strength, which is obtained when the cold forging process only extends along a circumference Tape is applied, said tape having the same area as the two according to the invention considered to apply tapes together. In each case there was about a 30% reduction the cross-sectional area. The cold forging process using only one belt required a compressive force ίο of 3860 kg, while the procedure using the double pressure band required only 4090 kg, d. H. less than 6% more.

wire

19 cores

Veins

Solid

Easier
ring

386 kg
370 kg
354 kg

523 kg
521kg
488 kg

137 kg
151kg
296 kg

35.5

41

38

Claims (3)

PATENT CLAIMS: 1. A method for producing a connection, using the cold forging process, of the cylindrical sleeve part of an electrical cable lug, which acts as a ferrule, with an electrical conductor, in which the sleeve part is deformed into an essentially triangular cross-section in a die closed on all sides by pressure acting from three sides, characterized in that the pressing tool surrounding the sleeve part on all sides between two longitudinally spaced zones subject to a deformation to a triangular cross-section exerts such reduced pressure that the material of the sleeve part is brought to evade the zones of triangular cross-section into an intermediate zone extending annularly to the sleeve part . 2. The method according to claim 1, characterized in that the ring around the Sleeve part extending intermediate zone the compressive forces on at least three, preferably equilateral Prism-forming surfaces of a die with a ring around the longitudinal axis of the sleeve part extending groove are generated. 3. Under the method according to claim 1 or one of the following established cable connection, characterized in that the band-shaped zones produced by indentation and the Intermediate zone have essentially the same length. Considered publications:
U.S. Patents Nos. 2,587,095, 2,375,741,
329 653, 2 272 244, 2 654 873, 2 280 352,
873, 2,467,012, 2,693,216;
British Patent No. 757 311. 1 sheet of drawings