SU881572A1 - Device for testing flexible elements for fatigue - Google Patents

Description

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The invention relates to the production and operation of ropes, cables and other wire products, and specifically to devices for testing these products by bending on blocks.

A device for testing fatigue elements, containing fixed-on-base, fixed, rotating groups of blocks enveloped by a gab element, each of which blocks are located axisymmetrically at the same distance from its axis of rotation, and the tension mechanism 1, are known.

The disadvantage of this device is the small angle of girth of each block with a rope (less than 90), which is typical mainly only for carrying ropes. In the majority of lifting devices, the rope goes around the blocks by almost 180. Therefore, testing of ropes on such a device does not always correspond to the actual conditions of their use, which reduces the quality of testing. In addition, the disadvantage of this device is its large size.

The purpose of the invention is to improve the quality of testing and reduce the size.

This goal is achieved due to the fact that the device for testing flexible elements and fatigue containing. the fixed clamp, tensioning mechanism and rotating groups of blocks, groups of blocks are rigidly mounted on a common axis of rotation in parallel planes, and the device is equipped with deflecting pulleys, the number of which is one less than the number of groups of blocks.

The number of groups of blocks is chosen predominantly even to reduce the longitudinal movement of the end of the rope. FIG. 1 shows a diagram of the device, front view j in FIG. 2 - the same, side view.

The device contains, for example, two groups of blocks of two blocks each

20 group. However, a group of blocks 1 is installed in plane A-A on traverse 2, the second group of blocks 3 is in parallel to plane B-B on traverse 4. Traverses are fixed on a common axis of rotation 5, relative to which the blocks on each traverse are arranged symmetrically. In this case, the traverse is turned relative to each other by an angle equal in this case to 90, which ensures

30 axisymmetric arrangement of all blocks. A deflecting pulley 6 is installed between planes A-A and B-B.

The test element, for example, the cable 7, is fastened at one end to the fixed clamp 8, then bends around blocks 1 in plane A-A, translates into deflection of pulley 6 into plane-B-B where it bends around blocks 3, and finally The end is attached to the clamp 9 of the tensioning mechanism. The latter can be performed, for example, in the form of a spring 10 attached to a fixed clip 11 ,.

The device works as follows.

A drive (not shown) rotates the axis 5 with cross-beams 2 and 4, on which blocks 1 and 3 are installed (for example, in the direction shown in the drawings, by an arrow), while the rope 7 bends on blocks 1 and 3 with variable, within each turnover traverse 2 and 4, the angle of girth of the blocks. Moreover, the range of variation of this angle depends on the number of blocks in the group. Thus, in the present embodiment of the device, it can vary from almost O to 180. With an increase in the number of blocks in a group, this range of wrap angles decreases,

 rotation of the traverse with blocks of lengths of rope sections from the attachment point of the clamp 8 to the lower point 12 of the rim of the deflecting pulley b and from the point 12 to the attachment point of the clamp 9 are continuously changing. However, due to the axisymmetric arrangement of all the blocks on the cross-arms, this does not lead to a significant longitudinal movement of the clamping point 9. This happens because the lengths of these sections

the rope is changed in such a way that, for example, by increasing the length of one of these sections, the length of the second section decreases and vice versa, i.e. the difference in the lengths of the cable sections continuously passes through the deflecting pulley 6 in the direction of the shortest length, which stabilizes the clamp position 9 in the direction of the longitudinal axis of the rope. This makes it possible to significantly simplify the rope tensioning device, since there is no need to use moving parts and a rope tension stabilization system.

Claims (2)

1. An apparatus for testing fatigue elements, comprising stationary clamps mounted on a base, rotating groups of blocks enveloped by a flexible element, in each of which the blocks are located at the same distance from the axis of its rotation, and the tension mechanism, . characterized in that, in order to improve the quality of testing and reduce the size of the device, a group of blocks are rigidly mounted on a common axis of rotation in parallel planes, while the device is equipped deflecting pulleys, the number of which "a unit is less than the number of groups of blocks. 2. A device according to claim 1, characterized in that the number of groups of blocks is even. Sources of information taken into account in the examination 1. USSR author's certificate No. 243231, cl. G 01 N 3/32, 01.21.67. "5"% l7 .