DE2030796A1 - Steel cord belt conductor loop-stepped at ends at juctions to resist - bending but retain cutout of belt drive on failure - Google Patents

Abstract

Conductor loop ends are stepped where they are joined into an endless loop for belt service. The steps are uniform in length, and should lie within the rope structure when joined. They can be filled with rubber at the join, and use a polyamide core for greater resilience. The loops retain their reliable cutout facility when destroyed, resist impact, bending and other loads at the junction points so as not to form an inevitable seat of failure in the conveyor structure as a whole.

Description

Electrical conductor loop for thread straps The invention relates to on an endless electrical conductor loop made of brass, zinc or the like.

Coated steel wire cable for securing by means of an electrical switchgear against longitudinal slitting of conveyor belts.

As is known, ropes are used to monitor conveyor belts with steel Endless electrical conductor loops vulcanized into the conveyor belt. Means electrical signaling device, these conductor loops switch the conveyor belt drive off if the conductor loop is destroyed. As conductor loop material are different Materials have been used in terms of electrical conductivity, the Adhesion in rubber and constant bending stress high minimum requirements have to meet difficulties with such conductor loops in particular made noticeable at the points where the conductor loops are made endless. At these connection points, which are made, for example, by means of welding locally limited strong bending stresses result; the consequence is that at this point the first damage occurs in the conveyor belt and accordingly a required service life of the conductor loop is not guaranteed.

The object of the invention is to create a conductor loop connection, which eliminates these disadvantages. In particular, the connection should have a Walkbeanßungsr Ability to match the rest of the steel wire cable that makes up the conductor loop is formed, equals.

To solve this problem, the invention provides that at of the electrical conductor loop outlined at the beginning, the ends of the strands and / or Ropes run out in stages. In the simple case this can be realized in this way be that with a cable consisting of a rope association only a single rope is present. Depending on the cable structure, the conductor loop has e.g. 7 turns. The ends of the 7-turn rope are at a greater distance from each other, in the most favorable case at opposite points on the conductor loop. If several ropes with fewer turns are used instead of one rope, so the ropes each end in a stepped manner that the ends are largely symmetrical are distributed over the endless conductor loop. There are about 7 ropes in one cable present, the 14 ends would each be a fourteenth of the entire circumference end up. In addition, it is possible that the ropes themselves also consist of strands, where the ends are stepped in the same way.

Instead of the multiple windings of a rope, it is only a single one Winding of several ropes provided, so can simplify the production of such Conductor loops also allow splicing of the ropes.

This will ensure the symmetrical distribution of the ends all over the Circumference of conductor loops abolished and more limited to a local area. Here, too, the gradation should be largely uniform. At least it should the length of the gradation must be greater than the corresponding lay length of the cable or Rope association in which the end in question lies, especially in the case of shorter gradations it is sivoll when the ends of the ropes or strands in the cable bundle or submerge in the rope bond. As a result of the rope production there is inevitably a certain tension under the individual strands or wires, so that through this Tension the immersed end is largely fixed in its position.

In order to increase the strength of the conductor loop, it can be Prove to be useful in the case of the cable strands or rope associations known per se each to produce the core from a fully synthetic fiber material. Furthermore is it is possible to use rubber or plastic material to largely protect the rope bandage to be filled in order to increase the service life of the conductor loop in this respect as well to ensure. This measure also leads to the Ilaftung between the conductor loop and the conveyor belt cover plates is improved. This is right now Desired for heavy-duty conveyor belts, because with consideration for the electrical ones and dynamic requirements, cable ropes can usually be used. Usually known constructions are used for these cables, because here the maximum wire diameter is kept at a particularly low level can be. For example, constructions like 3 x 7 x 0.15 are possible from which a cable is made.

The invention is illustrated by way of example with the aid of three figures.

Fig. 1 shows a steel cord conveyor belt 1, which is between a lower plate and a cover plate contains parallel steel cables. At intervals of about 20 - 50 m each conductor loops 2 are arranged in the conveyor belt so that they close the pull ropes have no electrical connections. Will be such a conveyor belt torn in the longitudinal direction due to improper operation, so are the Conductor loops 2 destroyed. This causes an electrical control device to operate which causes the conveyor belt drive to switch off. The conductor loops 2, seen in cross section, consist of a cable, such as. it is shown in fig. The structure is as follows. The monofilament steel wires 3 form a strand 4, which in turn are twisted together to form a rope 5. The cable 6 is made up of seven such ropes 5 formed.

The lay lengths of the wires in the strand, the strand in the rope and the The ropes in the cable are different, but coordinated with one another. The maximum The diameter of a wire 3 is 0.4 mm. The wires are made of brass or zinc coated and have the desired electrical resistance.

To create an endless conductor loop 2, a cable is appropriate Fig. B. for example made so that a rope seven times the entire circumference of the conductor loop and the ends end at opposite points. Are If several ropes are used, their ends are preferably also stepped and theirs Ends distributed over the cable at regular intervals.

The strands and wires can also end in a stepped manner, To ensure that the conductor loop can withstand dynamic loads as uniformly as possible to ensure.

Such a structure is shown, for example, in Fig.

3. Therein a conductor loop is shown that consists of only one consists of a single rope and that on two opposite sides, for example above and ends below.

Claims (5)

Expectations * e Endless electrical conductor loop made of zinc, brass or the like. Coated steel wire cable for securing by means of an electrical switchgear against longitudinal slitting of steel cord conveyor belts, characterized in that the The ends of the strands (4) and / or ropes (5) run out in a stepped manner. 2. Conductor loop according to claim 1, characterized in that the Gradations between the ends are of equal length. 3. Conductor loop according to claims 1 and 2, characterized in that that the lengths of the gradations are greater than the associated lay lengths. 4. Conductor loop according to claims 1 to 3, characterized in that that the ends are immersed in the rope (5) or cable (6). 5. Conductor loop according to claims 1 to 4, characterized in that the core of the strand (3) consists of synthetic material, especially polyamide.