SU1069006A1 - Geophysical cable - Google Patents

Abstract

1. GEOPHYSICAL CABLE, containing a core and armor from round wires, characterized in that, in order to increase the resistance of the cable to abrasive wear, at least two trapezoid elements with a large base to the core and a height greater than the diameter of the arm arm are arranged symmetrically between the wires. 2. The cable according to claim 1 is distinguished by the fact that, in order to increase the stability of armor, the trapezoidal elements are made of cold-flowing polymers, for example polyethylene. (L o so 05

Description

The invention relates to cable technology, in particular to geophysical X1, and can be used in theoretical studies.

Geophysical cables are known that contain a core of insulated heat-conducting conductors and are laid over the core of an il from round wires.

The disadvantages of geophysical cables are their low ability to abrasive wear when climbing and descending into the well, as well as instability of armor from round wires with decreasing core diameter under the action of axial stretching and repeated windings, which leads to pushing out separate wires from armor and their increased wear. .

A well-known geophysical cable containing a core of twisted nzolirovanny TOKODPOBOJ I HX lived, on top of which lay a ring of round wires f2.

A disadvantage of the known cable is considerable wear of the armor wires from abrasive loads during cable operation in geophysical wells. A disadvantage is also the pushing of the armor wires during axial loading or long-term operation, which leads to intensive wear of the armor wires projecting on the cable surface.

The purpose of the invention is to increase the cable's ability to wear abrasives and to increase stability; armor.

PSK: such a goal is achieved by the fact that m ;;;.;.:. the wires are symmetrically arranged with at least two trapezoid elements with a large base to the core and a height of the diameter of the wires of the armor.

In this case, the trapezoidal elements are made of cold flowing polymers, for example, polyethylene.

The drawing shows a geophysical cable.

The cable contains a core 1, laid on top of the core from round wires 2 and symmetrically laid trapezoid elements 3 with a large base to the core.

Geophysical cable works as follows.

During the descent and ascent of a cable. From a well, considerable tensile forces arise from the mass of the geophysical instrument attached to the cable to its own cable trace, which leads to stretching of its core and wires 2 of armor. As a result, the core diameter decreases, which leads to the displacement of the located surface of the armored wires and their pressing into the lateral surfaces of the trapezoidal elements 3, which prevents the pushing of individual wires from the armor and ensures the stability of the armor,

When moving a geophysical cable in the well, the projection of the armor trapezoidal elements perceived abrasive loads

Claims (2)

1. The logging cable comprising a core and armor wires circle- mated, characterized i in that, to improve ^'1 cable resistance to abrasion between the wires are laid symmetrically at least two trapezoidal large base element to the core more i.vysotoy diameter of armor wires. 2. Cable pop. 1, it is distinguished by the fact that, in order to increase the stability of the armor, the trapezoidal elements are made of cold flowing polymers, for example, polyethylene. I g