SU1130732A1 - Method of measuring borehole equipment movement - Google Patents

Abstract

THE METHOD OF MEASURING THE MOVEMENT OF THE WELLING EQUIPMENT, which consists in re-radiating the reference parameter of the surrounding rock, recorded by the same probes located at a certain distance from one another, characterized by the fact that, in order to improve the accuracy of measuring movement during reverse movement, Three autocorrelation functions of the current values of the reference parameter are determined according to the data of these probe systems, the values of the autocorrelation functions are compared in pairs and When equality of each pair determining the magnitude and direction of movement.

Description

The invention relates to a measuring technique and can be used in geophysical surveys of wells to bind depth data. 5

A known method of measuring the movement of downhole equipment, which consists in the study of natural or artificial induced reference potential 10 or scalar fields with two identical geophysical instruments, determines the maximum correlation function of the signals in both information channels by introducing a delay of 15 time in one of them , then, according to the maximum correlation function, the value of the corresponding time delay and the value of the instantaneous velocity of the wells are determined another 20 instrument and by integrating the velocity over time, the true depth of the geophysical instrument in the well flj is determined.

The disadvantage of this method is 25 that at low speeds, the creation of delay lines with a large delay is associated with significant technical difficulties. In addition, the method does not apply jq in reverse motion.

Closest to the technical nature of the invention is a method of measuring the movement of downhole equipment, which consists in the fact that register the reference parameter okru-. rock, recorded by identical probes located at a certain distance from one another [2].

The disadvantage of this method is the low accuracy of the measurements in connection with the visual analysis of the shape of the diagrams of recording the reference parameter.

The purpose of the invention is to improve the accuracy of measuring movement in reverse motion.

This goal is achieved by the fact that according to the method of measuring the movement of downhole equipment, which consists in registering the reference parameter of the surrounding environment, recorded by the same probes located at a certain distance from one another, forming three systems of probes, determining three autocorrelation functions of the current values of the reference parameter in accordance with the data of these systems of probes, the values of the autocorrelation functions are compared in pairs and, with * equality of any pair, the magnitude and Movement

The method is as follows.

At a certain point in time, selected as the initial one, the values of the registered reference parameter of the surrounding rock are recorded by all probes located sequentially at an equal distance from one another. Further, when the downhole equipment moves, the probes record the current values of the reference parameter.

At the same time, the following three autocorrelation functions are calculated. The first function is calculated from the readings of the probes at the initial time and the current readings of all the probes. Suppose that the downhole equipment on which the probes are mounted moves vertically, the isodes are numbered from top to bottom.

Then the second autocorrelation function is calculated according to the readings of all probes, except the last, at the initial moment of time and according to the current readings of all but the first probes, and the third function is calculated from the readings of all but the first, probes at the initial instant of time and according to the current readings of all, except the last, probes.

The thus obtained value of the first autocorrelation function is compared with the values of the second and third autocorrelation functions. If equality is not satisfied in either of these two comparisons, then the calculation of the autocorrelation functions is carried out for the next moment in time. The equality of the first and second autocorrelation functions means the movement of the probes upward by an amount L equal to half the distance between two adjacent probes, the equality of the first and third functions means the movement of the probes downward by the same distance L.

The moment of time when the movement by the value of L was recorded is taken as the next initial moment of time.

The invention makes it possible to measure displacement during reverse movement.

Claims (1)

METHOD OF MEASURING THE MOVEMENT OF BOREHOLD EQUIPMENT, which consists in the fact that the reference parameter of the surrounding rock is recorded by the same probes located at a certain distance from one another, characterized in that, in order to increase the accuracy of measuring movement during reverse movement, three probe systems are formed, determine three autocorrelation functions of the current values of the reference parameter in accordance with the data of these probe systems, compare the values of the autocorrelation functions in pairs and at pa In any pair, the magnitude and direction of movement are determined. h S 11307 I 130732