RU2068089C1 - Device for determination of well depth - Google Patents

Abstract

FIELD: petroleum geophysics. SUBSTANCE: device for determination of well depth includes the first counting station having successively connected mark sensor 1, block 2 processing signals of sensor, block 3 generating counting- control pulses, and the second mark counting station having counting- control pulses, and the second mark counting station having successively connected mark sensor 4, block 5 processing signals of sensor 3 and block 6 generating counting-control pulses. Device also has pulse magnet 7, first OR element 9, second OR element 10, pulse reversible counter 11 and recording block 12. Magnet mark is applied to cable in point A by pulse magnet 7 when mark is point C is counted. When cable moves from point B to point C, the mark is counted twice, and readings of counter 11 successively decrease by one unit of lower order. Block 12 records geophysical parameters through intervals AB and BC. When cable motion direction changes, marks are counted successively in points C and B, their application is not made, and readings of counter 11 increase by one unit of lower order. EFFECT: simplified technology of logging operations. 1 dwg

Description

 The device relates to the field of field geophysics and is intended to determine the depth of wells during logging operations.

 The aim of the invention is to increase the resolution of the device.

 This goal is achieved by the fact that the device for determining the depth of the well, including the first node reading labels containing serially connected sensor labels, a unit for processing sensor signals and a unit for generating counting and controlling pulses, a pulsed magnet, a tag generator, a reversible pulse counter and a recording unit, in wherein the first output of the first label reading unit is connected via a label generator to a pulse magnet, provided with a second interposed between the first label reading unit and the pulse magnet m by the tag reading unit, the first and second OR elements, the second output of the first label reading unit being connected to the first input of the first OR element, the output of which is connected to the first input of the reversible pulse counter and the first input of the recording unit, the second input is connected to the second output of the second reading unit labels, the first output of which is connected to the first input of the second OR element, the output of which is connected to the second input of the reversible pulse counter and the second input of the recording unit, the second input of the second IL element And connected to the first output of the first label reader.

 In the study of the proposed device for patent and scientific and technical sources of information, no technical solutions were found with similar distinctive features that ensure the achievement of the goal, which allows us to conclude that this solution meets the criterion of "significant differences".

 The device includes a first tag reading unit containing serially connected tag sensor 1, a signal processing unit of sensor 2 and a pulse-forming pulse generating unit 3, and a second tag reading unit containing serially connected label tags 4, a signal processing unit of sensor 5 and a counting generating unit -control pulses 6. The second label reading unit is located between the first reading unit and the pulse magnet 7.

 In addition, the device contains a generator of labels 8, the first 9 and second 10 of the OR element, a reversible pulse counter 11 and a registration unit 12 (the numbers of the outputs and inputs of the nodes and elements of the device in the drawing are indicated respectively in output 1, output 2 and input 1, input 2).

 The first output of the first label reader is connected via the tag generator 8 to the pulse magnet 7. The second output of the first label reader is connected to the first input of the first OR element 9, the output of which is connected to the first input of the reversible pulse counter 11 and the first input of the recording unit 12. Second input OR element 9 is connected to the second output of the second readout node, the first output of which is connected to the first input of the second OR element 10, the output of which is connected to the second input of the reverse pulse counter 11 and the second input m registration unit 12. The second input of the second OR gate 10 is connected to the first output node of the first tag reader.

 The device operates as follows. When the cable 13 moves in the direction from the pulse magnet 7 to the mark sensors 3 and 1, the magnetic mark applied at the recording point A is read out sequentially at points B and C. When reading the mark at point B, a signal is generated at the first output of the second mark reading unit, which through the OR element 10, it enters the second input of the reversible pulse counter 11 and the second input of the recording unit 12. At the same time, the readings of the counter 11 are reduced by a unit of the least significant bit, corresponding to a decrease in the immersion depth of the downhole tool by AB, and in the registration unit, the geophysical parameters of the well are recorded for a given depth value.

 When reading a magnetic mark at point C, a signal is generated at the first output of the first reading unit, which, through the OR element 10, enters the second input of the reversible pulse counter 11 and the second input of the recording unit 12, and also through the current generator of the mark 8 to the pulse magnet 7. the readings of the pulse counter 11 are reduced by another unit of the least significant bit, and the geophysical parameters are recorded in the registration unit for the new depth value. Simultaneously with this pulse magnet 7, a new magnetic mark is recorded on the wireline B. The described process is repeated as the cable moves in the direction from the pulsed magnet to the mark sensors, and the geophysical parameters of the well are recorded at intervals of AB and BC, each of which is 10 cm, and magnetic marks on the cable are applied every 20 cm (AC distance).

 When changing the direction of movement of the cable, the magnetic marks are read out sequentially at points C and B, respectively, by the first and second reading unit. In this case, magnetic marks are not applied, and the readings of the counter 11 are increased by a unit of the least significant digit, corresponding to a change in the depth of the well by 10 cm, when the cable is moved every 10 cm. The registration unit, upon command from the first element OR 9, records the geophysical parameters when the downhole tool is immersed for every 10 cm.

 Thus, the proposed device allows to provide a step of discretization in depth during geophysical research of wells, equal to 10 cm, which is two times less than the minimum possible step of discretization of known devices of similar purpose. The resolution of the proposed device is accordingly increased.

 An increase in resolution to a value of 10 cm simplifies the technology for conducting geophysical surveys of wells and increases its reliability. In addition, the working conditions of the service personnel of geophysical equipment and the accuracy of geophysical data depth binding are improved.

Claims (1)

 A device for determining the depth of a well, including a first tag reading unit, comprising a tag sensor connected in series, a sensor signal processing unit and a pulse-forming pulse generating unit, a pulsed magnet, a tag generator, a reversible pulse counter and a recording unit, the first output of the first tag reading unit is connected through a tag generator with a pulsed magnet, characterized in that, in order to increase the resolution, it is equipped with a pulse located between the first node for reading tags with a second magnet, the second label reading unit, the first and second OR elements, the second output of the first label reading unit being connected to the first input of the first OR element, the output of which is connected to the first input of the reversible pulse counter and the first input of the recording unit, the second input is connected to the second output of the second label reading unit, the first output of which is connected to the first input of the second OR element, the output of which is connected to the second input of the reversible pulse counter and the second input of the recording unit, the second input a second OR gate connected to the first output node of the first tag reader.