SU325540A1 - PATENT TECHNOLOGY LIBRARY - Google Patents

Description

The invention relates to testing equipment and, in particular, devices for testing ropes, chains, etc.

Known jogging machines for testing load-lifting ropes for wear, containing two blocks, wrapped around the test ropes, the mechanism for the reciprocating movement of the ropes, the tension mechanism for creating static and dynamic loads, the mechanism of pulsating loads and the mechanism of return and access of the blocks along them axes. However, they do not allow changing the speed of rotation of the blocks and, consequently, the speed of movement of the ropes during the tests, and also do not allow to perform the unsteady tension of the tested ropes, which does not accurately simulate the conditions of the ropes during their operation in lifting devices. In addition, the creation of a null load using a cam mechanism can provide test conditions that are close to the actual effect of variable loads on the rope.

The growth of the reciprocating rotational movement of the blocks is in the form of two power cylinders and spool-type devices. This brings the conditions of rope testing to the conditions of their use in lifting devices.

FIG. I depicts an intrinsic scheme of the blast machine; and in fig. 2 - its version for the simultaneous testing of four ropes for wear.

The machine contains two blocks J and 2 installed on parallel axes. Blocks clasp. Using test cables 3, the lower branches of which are attached to the carriage 4 of the drive mechanism and return the incoming movement of the ropes, and, consequently; reciprocating movement of blocks. To the trolley, on both sides, are attached the rods 5 of the working cylinders 6, which are mounted along the axis of movement of the trolley, which, in turn, do not shift the carriage viravo and to the left. The tensioning mechanism of the ropes contains a lever 7, one end of which is pivotally fastened to the stan1H1e, and the other end is connected to the njTOKO. power cylinder 9. The lever is connected with the axis of the block 2 I1a11iriya th 10. The mechanism // returning the unit and not killing the block along its axis decouples the rope nerekos when tested relative to the plane of the rotary blocks. The upper branches of the tested ropes are closed in a ring with the help of wedge clamps 12 and connecting bars 13. Instead of connecting bars, dynamometers can be installed to control the amount of rope tension. The test ropes are installed on the machine and transfer the static load from the power cylinders 9 to them. After the specified load value has been reached, which is continuously regulated by the pressure slide valve, alternating oil supply to both cavities of the power cylinders is turned on. This provides pulsating loading of the tested ropes with the required target frequency. The trolley is reciprocated from the working cylinders 6 of the hydraulic drive, in the circuit of which a high-speed spool is installed, allowing infinitely variable speed control of the ropes. The blocks receive a reciprocating movement along their axes from the mechanism 11, thereby achieving a specified rope skew angle. Such conditions test most fully imitate the work of the ropes during their operation in load-lifting .5 tracks. Subject of the Invention Treadmill for testing hoisting ropes for wear, comprising blocks mounted on parallel axes, wrapped around test ropes, a drive mechanism for reciprocating the ropes, a tension mechanism for generating static and dynamic loads, a pulsating load mechanism, and a reciprocating mechanism blocks along their axes, characterized in that, in order to maximally approximate the conditions for testing ropes to the conditions of their operation in x devices, the mechanism of continuously variable tension of the ropes is made in the form of a power cylinder, a pressure slide valve, a hinge fixed on the axis of one of the blocks, and a lever of the second kind, one end of which is hinged on the frame of the mashina, and the other moves along the guide, pivotally connected to the end of the power cylinder rod; the infinitely variable speed control mechanism for the reciprocating movement of the ropes and the reciprocating rotational movement of the blocks is made in the form of two power cylinders and spool devices moved in the direction, the perpendicular axes of the trolley blocks on which the ends of the tested ropes and the ends of the cylinder rods are fixed the loads are reached by alternately supplying oil to both cavities of the power cylinders. 13 32

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