PL181512B1 - Steel-rubber rope - Google Patents

Abstract

1.A steel-rubber rope consisting of at least four steel ropes arranged in parallel, surrounded on the entire transverse circumference by rubber and containing at least one calibrating element of ferromagnetic material, characterized in that the calibrating element 1 has between two extreme steel ropes 2 halfway between them.

Description

The subject of the invention is a steel-rubber rope consisting of at least four steel ropes arranged parallel to each other and surrounded throughout the transverse circumference by rubber, and containing at least one calibrating element of ferromagnetic material for controlling the wear of the steel ropes. The steel-rubber rope is intended especially for mining hoisting devices and is used as a compensating rope.

The steel-rubber rope known from the Polish patent description No. 145,595 comprises ropes arranged in parallel and surrounded on the entire transverse circumference with rubber. Along the rope it has vulcanized calibrating elements made of ferromagnetic material. Said calibrating elements are situated in the center of the cross-section of the rope along its entire length at an equal distance from each other. The distance between the calibrating elements depends on the number, diameter and structure of steel ropes included in the steel-rubber rope, as well as on the rope cross-section. Calibrating elements are used to check the degree of wear of steel ropes, which determines their mechanical strength, and which during operation are weakened by breakage of individual wires from which the steel ropes are braided and also by reducing the diameter of these wires due to corrosion. The test consists in moving permanent magnets along the rope, one placed on one side of the steel-rubber rope and the other placed opposite the first on the other side of the rope. The magnetic field that extends between said magnets is disturbed by the material of the steel ropes, the value of this disturbance in individual sections of the steel-rubber rope depends on the total cross-section of the wires from which the steel ropes are braided. Therefore, the value of the disturbance changes in the places of discontinuity, i.e. in places where the wires break or their diameter decreases due to corrosion. Registration of changes in the magnetic field disturbance along the rope allows the detection of weakening spots. In these places, the steel-rubber rope is then strengthened or the rope is withdrawn from further use after exceeding the permissible weakening limit. Said calibrating elements are used for determination

181 512 the basics of the value of the magnetic field disturbance, as well as for checking the efficiency of the control device. In the place where the calibrating element is seated in the indications of the device, additional disturbances of a predetermined value appear, resulting from the known dimensions of the calibrating element.

The disadvantage of the steel-rubber rope known from the Polish patent description No. 145,595 is the central location of the calibrating elements. In testing a steel-rubber rope containing four or more steel ropes, a device equipped with two pairs of permanent magnets placed next to each other in relation to the cross-section of the rope is used. The magnetic fields of these magnets are thus in contact with their periphery in the area of the rope center, where the calibrating elements are located. Therefore, the magnetic disturbance of half of the individual pairs of magnets by the calibrating element, covered only by the edge of the magnetic field, reaches a small value, often hardly recognizable, and thus determining an unclear reference level. So the measurement becomes unreliable. Moreover, it turned out that it is unnecessary to insert a large number of calibration elements into the rope, which increases the cost of rope production and does not affect the quality of the measurements.

The object of the invention is a steel-rubber rope containing at least one calibration element, which enables a clear determination of the reference level of the magnetic field disturbance value by a controlling device.

This object was achieved by placing calibrating elements of a ferromagnetic material, at least one, between the two extreme steel ropes halfway between them. Preferably, the calibrating element has a circular cross section. Moreover, it is preferred that the calibrating element has a cross section of 0.5% to 1.5% of the total metallic cross section of the steel ropes. In a special solution, the steel-rubber rope has two calibrating elements placed between the extreme steel ropes at both edges of the rope's cross-section. Where the steel-rubber rope has two sizing elements, it preferably has a mutual distance along the rope, measured along the rope, which distance is from 15 to 20 times the width of the rope. The calibration elements are placed in the area of the half of the rope length.

The subject of the invention in an exemplary embodiment is shown in the drawing, in which fig. 1 is a perspective view of a steel-rubber rope with two calibrating elements marked with a broken line, fig. 2 - a cross-section of the rope.

The steel ropes 2 are arranged mutually parallel and are surrounded by rubber 3 with an outer rectangular contour. In another embodiment, the rope has a greater, even number, number of steel ropes 2 which may be arranged in two or more parallel planes. Between the extreme ropes 2, halfway between them, calibration elements 1 made of a ferromagnetic material, for example steel, are vulcanized in rubber. The calibration elements 1 preferably have a circular cross-section with a cross-sectional area of 0.5% to 1.5% of the total metallic cross section of the steel ropes 2. The length of the calibration elements 1 in the embodiment is 15 mm with a tolerance of ± 1 mm. The calibrating elements 1 are located in the area of half the length of the rope, and when the rope has two calibration elements 1, they are positioned relative to each other at a distance of 15 to 20 times the rope width, measured along the outer contour of the rubber 3. The calibrating elements 1 are embedded in the rubber 3 half its thickness.

181 512

Fig.2

Publishing Department of the UP RP. Circulation of 60 copies

Price PLN 2.00.

Claims (6)

Patent claims 1. A steel-rubber rope consisting of at least four steel ropes arranged in parallel, surrounded on the entire transverse perimeter with rubber and containing at least one calibrating element made of ferromagnetic material, characterized in that the calibrating element 1 is located between the two extreme steel ropes 2, half the distance between them. 2. Steel-rubber rope according to claim The calibrating element 1 of claim 1, wherein the calibrating element 1 has a circular cross section. 3. A steel-rubber rope according to claim The method of claim 1, characterized in that the calibrating element 1 has a cross section of 0.5% to 1.5% of the total metallic cross section of the steel ropes 2. 4. A steel-rubber rope according to claim 2. The method of claim 1, characterized in that it has two sizing elements 1 placed in the rubber 3 between the extreme steel ropes 2 at both edges of the transverse section of the lm. 5. Steel-rubber rope according to claim The method of claim 4, characterized in that the calibrating elements and arranged at the edges of the rope are positioned along the rope at a mutual distance ranging from 15 to 20 times the rope width. 6. Steel-rubber rope according to claim The method of claim 1 or 4, characterized in that the calibrating elements 1 are situated in the region of half the rope distance.