SU1010169A1 - Wire rope - Google Patents

Abstract

WIRE CABLE, containing several layers of wires twisted in one direction, is also due to the fact that, c) increases in the carrying capacity of the rope, the angles of twisting of the wires along the layers are inversely proportional to the radii of twisting of the respective layers of wires. (L oh :) cd

Description

The invention relates to the construction of ropes used as puffs in the manufacture of prestressed structural and metal supporting structures, reinforced concrete products

An introduction to the design is preliminary: a tight tension of a steel rope or a bundle of high-strength wire increases the reliability of the structure not only because additional coupling is introduced into the design scheme 1 and thereby increases its static indeterminacy, but; also because this extra connection usually consists of a large number of small rods (wires), and its sudden brittle fracture is practically impossible.

Known wire rope containing several layers of wires, ₂ ι twisted in one direction [1J,

However, this rope is twisted with the same angles of lay of wires in layers. In this embodiment, the wire rope under tension ropes nagruzhayut- ₂ Xia unevenly. Therefore, the bearing capacity of the rope used as a tightening is not fully used, which is a drawback of the rope.

In addition, when the tension is tightened by the method of twisting relative to the longitudinal axis in the rope, there is an even greater redistribution of stresses in the wires over the layers, since during twisting 3 are violated: the parameters and structural changes occur, and this leads to a significant underutilization of the rope carrying capacity and, as a result, over-expenditure of scarce materials. four(

Del of the invention is the elimination of these disadvantages.

This goal is achieved by the fact that in a wire rope containing several layers of wires, twisted

L in one direction, the angles of lay of wires in layers are inversely proportional to the radii of lay of the corresponding layers of wires.

In FIG. 1 shows a rope with partially-> partially removed layers of wires, longitudinal view; in FIG. 2 is a section AA in FIG. one.

A rope for prestressing structures by twisting consists, for example, of three layers of 1-3 wires twisted around a central wire 4. Layers of wires twist with decreasing lay angles (o <s <<σύ ₂ ^ σί <). For an example it is shown? rope 5 consisting of wires of the same diameter S '. In such a rope, the radii of the layers of wires increase uniformly: in the first layer 1. radius Г = 6, in the second layer Го = 2.8, in the third) ^r З ⁼ 38.

The angles of twisting of oC <- az wires decrease in proportion to the increase in the radii of the layers of wires, with an accuracy of 15%. If in the first layer the angle is twisted, then in the second layer <Y.2 ^and in the third layer =.

An error of + 15% was chosen on the basis that the kinematics of the cable machines is such that it does not have continuous adjustment of the steps of twisting of wires, and the step of twisting changes to disc. Surely by changing the gear ratio of the gear reducer.

Therefore, on a cable car it is not always possible to obtain a theoretical calculation number of steps for laying wires along the layers of the rope, but only its approximate value with an accuracy of + 15%.

(The proposed design of the rope provides uniform tension of the wires when twisting it relative to the longitudinal axis, which increases its bearing capacity by about 30%.

Claims (1)

_v 54) A WIRE ROPE containing several layers of wires twisted in one direction, characterized in that, with an integer to increase the bearing capacity of the rope, the lay angles of the wires in layers are inversely proportional to the radii of the lay of the corresponding wire layers.