DE1221139B - Conveyor belt made of rubber with longitudinal, tensile steel cable inserts - Google Patents

Description

Conveyor belt made of rubber with longitudinal, tensile steel cable inserts To run conveyor belts troughed in order to increase their capacity for conveyed goods, is known. It is also known to have them in the lower run near the tail pulleys at both ends of the conveyor system to turn once around 1800 to get in both strands the hinge side that is not exposed to the load and therefore not exposed to contamination to guide over the idlers. With the troughing and the twisting, they have axially parallel edge zones according to their lateral distance from the longitudinal center line to continuously cover longer distances than the central longitudinal axis. It is therefore general and for belts to be twisted with longitudinal steel cables as tension-resistant inserts, so-called steel cord conveyor belts, especially known, the edge zones of a conveyor belt to make it more flexible than the central zone. For steel cords it is also known the higher elasticity due to the correspondingly shorter wire ropes in the edge zone to reach.

The known measures have, as far as the higher elasticity of the Edge zone through deposits made of other material, e.g. B. textile inserts, is achieved, the disadvantage that not the entire range for inserting the high-strength ropes exploited, so the resilience of the tape is impaired.

Is used in turn in a method known per se and described above Only wire ropes with different lay lengths if the execution is otherwise the same, all belt zones are stretched to the same extent Depending on the length of the rope lay, different strengths are applied to the individual ropes.

According to Hooke's law, P = .F.E [kgj, where e is the elongation, F the rope cross-section in mm2, E the modulus of elasticity in kg / mm2, P the effective Force is in kg.

With a shorter stroke, however, the modulus of elasticity P E =, .F [kg / mm2] smaller, d. that is, since F and e remain the same on a straight line, P for smaller ones Beats also small ner, so the shorter lay ropes of the edge zones Absorb less force than the longer struck in the central zone.

A consequence of this unequal distribution of forces is that the cross-sections of all rope cores of a tape are not equally heavily loaded.

The invention is therefore based on the object of such a tape to make it more stretchable towards the edge without a cause uneven distribution of force across the bandwidth.

The invention is based on a conveyor belt made of rubber with longitudinal, tensile steel rope inserts, in which the ropes to the Edge zones by shortening the lay length a higher extensibility or a have a smaller modulus of elasticity than the ropes towards the central zone.

The object is achieved according to the invention that the ropes have a larger cross-section towards the edge zones than towards the central zone.

An exemplary embodiment of the invention is shown in the drawing. It shows F i g. 1 shows the cross section of a band, FIG. 2 a plan view of a tape after partial removal of the rubber layer covering the wire ropes, FIG. 3 the dependence of the tensile force on the elongation in the case of two ropes that are only in the Differentiate lay length, F i g. 4 the dependence of the tensile force on the elongation in the case of two ropes that differ in terms of lay length and rope cross-section.

In the F i g. 1 and 2 are the band body with 1 and the wire ropes denoted by 2.

As is known and from FIG. 3 can be seen, stretches Short lay rope accordingly the curve a under the same Tensile force Z more than a rope with a longer lay according to curve b or takes with the same elongation e, the rope with a longer stroke exerts more tensile force than that with shorter stroke. Similar curves arise with the same field and different Diameter of both ropes. The larger diameter is used for the longer stroke b and vice versa. It can thus be set up that the curve for the dependency the elongation from the tensile force, as shown in FIG. 4, for a rope with short strokes and a larger cross-section corresponding to curve a 'extends over a certain distance covers with that for a rope with a longer lay and a smaller cross-section of curve b '. Only the curve for the rope becomes with shorter strokes and larger Lead cross-section beyond the other curve, because that is with the larger cross-section the tensile strength is higher.

It can therefore be according to Fi-g. 1 and 2 lay length and cross section coordinate each rope so that each rope with the same elongation gives the same pulling force. For this, the product F E only has to be constant for all ropes being held.

The determination of the correct lay length is based on an approximate calculation and precisely empirically based on the longer path that the rope in question takes when twisting must go through compared to the longitudinal axis.

Thus, a wire rope arrangement can be specified that the different Corresponds to additional expansions in the area of influence of the spiral sections and on the other hand an even force absorption outside of the bulging and spiraling sections enables.

Claims (1)

Claim: Conveyor belt made of rubber with longitudinal, tensile strength Steel rope inserts, in which the ropes to the edge zones to twist the tape by shortening the lay length, a higher elasticity or a lower modulus of elasticity than the ropes to the central zone, characterized in that the ropes have a larger cross-section towards the edge zones than towards the central zone. Documents considered: German Patent No. 839 624