DE1615983B1 - Method and toggle press for pressing cable lugs onto conductors or cables - Google Patents

Description

The invention relates to a method and a This object is achieved in that according to he-

Toggle press for pressing on cable lugs reach the maximum value and before removal on conductors or cables, in which the pressing force is slightly reduced by the pressing force for a short time and Values zero on steadily until a maximum is reached, then increased again to the maximum value mal value after an approximately sinusoidal force-time 5 becomes. It has been shown that the new VerKurve increased and then again steadily on not only the period of time over which a high Zero is decreased. Maintain pressure on the parts to be connected.

From US Pat. No. 3,191,411, one is obtained without changing the cycle time of the device for pressing cable lugs onto knee electrical conductors used to carry out the method, in which the pressing force can be extended ίο lever press, but that on the press stamping form of a large number of is increased by the 'short-term, small reduction in the small steps. This is achieved by the pressing force and its subsequent renewed increase in that, during the pressing process and the pressing to the maximum value, the punches to be connected are deformed under the action of two adjacent parts in such a way that any wedges that are located back are in place an expansion spring is ruled out with great certainty, mung is arranged on the back of the punch.
effective impact, each assigned to a wedge- To carry out the new procedure, the

blocks, on the other hand, can be moved. The discovery of a toggle press with one on the Displacement of the two parts follows one another articulating a link of a first toggle lever drive by spring force, with the press ram guided in a housing by the drive device in each case on the one striking block a press with one link to the first toggle lever drive impact is exerted, which of the press block on articulated second toggle drive from which at the associated wedge and from this to the pressing 25 transition into the extended position the first toggle punch is transmitted. At the same time the other one is also stretching, as well as with one on the two-wedge relieved and can therefore be actuated by the spring itself acting toggle lever drive be pushed, the pressing force in the direction. This toggle press is according to the next Working cycle on the wedge that has been pushed forward so that the two levers is transmitted so that the other wedge in the meantime moves up the joint connecting 30 of the first toggle lever drive can. In practice, this is peg in the extended position of the second toggle lever anal to a position slightly beyond the stretching blows through a multitude of hammer-shaped drives caused deformation of the connecting parts. position of the first toggle lever drive. Here-

But there are also tools for applying through will without any other changes to the knee cable lugs known which lever press with toggle lever drive achieved in a simple manner that in the quake work. The USA patent specification shows the extended position of the two toggle lever drives 1 806 217 a pedal-operated knee lever - the maximum pressing force drops slightly for a short time and press, which then rises again to the maximum value on one link of a first, Articulated toggle drive, in a housing with the waste by driving over the stretched Has ram. At this first 40 position of the pivot pin of the first toggle lever drive toggle lever drive is one link of a second bes and the renewed rise to the maximum value Articulated toggle lever drive, the transition in the pressing force by the retraction of this joint die Extended position the first toggle lever drive is also reached pin.

transferred to the extended position. On the second knee, it has proven to be useful if the

lever drive engages a pull rod, which is connected to the 45 pivot pin of the first toggle drive in the Pedal is pressed. In these toggle presses, the extended position of the second toggle lever drive is between the pressing force essentially steadily after a sinusoidal about 0.2 and 2 mm behind the extended position of the first shaped curve applied, whereby the moving toggle lever drive Nests.

speed of the ram when approaching- The invention is sheared below on hand to the dead center position or to the extended position of the 50 matic drawings on one embodiment Knee lever drives are getting slower and slower and explained in more detail.

the ram, so to speak, producing the F i g. 1 shows the toggle press according to the largest Pressing force a certain dwell point in finding in side view;

the extended position of the toggle lever drives. F i g. Fig. 2 is a plan view partly in section

Experience shows that even when using 55 on the toggle press according to FIG. 1;
a toggle press of the type described according to FIG. 3 shows a vertical section through the

Removing the pressing pressure while the compressed guide for the ram
Parts of the connection to a certain extent again. Fig. 4 shows a plan view of a spring back with the toggle lever, which leads to a limited loosening of the press-made connection between the conductor and the connection made. 60 shows cable lug.

It is the object of the present invention that FIG. 4 shows a typical connection between

Method of the type described in more detail at the outset, see a copper conductor 10, which is from an insulation to develop that while maintaining the steady 12 is surrounded and a cable lug made of copper Application of the pressing force a spring back of the parts or brass with a connection opening 20, a after the pressing force has been removed, the pair of tabs 14 surrounding the copper wires are largely removed is closed, so that without the application of higher and one over the insulation 12 clampable lap pressing forces a stronger connection between conductors, pair of pins 16. To establish such a connection or cable and cable lug is obtained. The toggle press, which is shown in FIG. 1

through 3 is shown. This toggle press has a press frame 22, on the back of which only one indicated electric motor 24 is attached, which drives a ring gear 28 via a pinion 26. This Ring gear 28 drives a, z. B. One-speed clutch 32 that can be triggered by an electromagnet 54 on, a crankshaft 30 can be brought into action, at the end of which a crank disk 58 is attached, on which a crank pin 60 is arranged. On the crank pin 60 is as a crank rod serving link 72 articulated, which connects to one of the two levers 66 and 70 of a crank drive Pivot pin 68 engages.

In the position shown in Fig. 1, the crank pin 60 is in its lowest dead center position, which corresponds to the plug-in position of the toggle lever drive 66, 70 described.

On the press housing 22 is a guide housing 108 for the ram or for a Plunger carrying piston 106 attached. As can be seen from Fig. 2, the piston 106 is only on its corners guided in the guide housing 108.

While one lever 66 of the toggle lever drive described is fixedly mounted at 62 on the press frame, the free end of the other lever 70 engages the pivot pin 74 of another toggle lever drive, which is received in the piston 106 or the guide housing 108 and is essentially perpendicular is arranged to the described toggle lever drive. The upper lever 76 of this further toggle lever drive is fixed at 80, but its position can be changed via an adjusting device 92 on the press frame 22, while the other lever 78 is articulated with its free end at 94 on the piston 106.

As can be seen from FIG. 1, the toggle lever drive consisting of the levers 76 and 78 is also almost in the extended position when the other toggle lever drive and the actuating link 72 are the ones shown in FIG. 1 assume the position shown. In fact, there is the pivot pin 74 of the first toggle lever drive formed from the levers 76 and 78, when the second toggle lever drive, which consists of the levers 66 and 70, its exact extended position occupies slightly beyond, g therefore in F i. 1 to the left of the exact extended position of the first toggle lever drive 76, 78, which cannot be inferred from the figure because of the size relationships. Because the pivot pin 74 exceeds the extended position, the pressing force which is exerted on the ram via the piston 106 is reduced slightly and briefly and when the pivot pin 74 is returned to the extended position in FIG. 1 to the right again increased to the maximum value. By exceeding the dead center position, as can be seen, the total duration during which the approximately maximum pressing force is maintained, while at the same time, by applying the maximum pressing force twice, a springback of the parts after the pressing force has been removed is excluded.

It has proven to be advantageous if the pivot pin 74 has the exact extended position of the associated Toggle actuator by a distance between 0.25 and 2 mm with excellent results were achieved when the reversal point of the pivot pin 74 about 1 mm beyond, so in F i g. 1 to the left of the extended position of the toggle lever drive 76 comes to rest.

Claims (3)

Patent claims: 1. Method for pressing cable lugs onto conductors or cables, in which the Pressing force steadily from zero to reaching a maximum value after about sinusoidal force-time curve increased and then is again steadily reduced to zero, characterized in that after When the maximum value is reached and before the pressing force is removed, this is slightly reduced for a short time and then increased again to the maximum value. 2. toggle press for carrying out the method according to claim 1, with a ram guided in a housing, articulated on the one link of a first toggle drive, a second toggle drive articulated with the one link on the first toggle drive, the first toggle drive when transitioning into the extended position also stretches, and with an actuating device acting on the second toggle lever drive, characterized in that the pivot pin (74) connecting the two levers (76, 78) of the first toggle lever drive has a position slightly in the extended position of the second toggle lever drive (66, 72) beyond the extended position of the first toggle lever drive (76, 78). 3. toggle press according to claim 2, characterized in that the pivot pin (74) of the first toggle lever drive (76, 78) in the extended position of the second toggle lever drive (66, 70) is between about 0.2 and 2 mm behind the extended position of the first toggle lever drive . 1 sheet of drawings