SU1377803A1 - Inductive transducer - Google Patents

Abstract

The invention relates to geophysics and is intended for use in diagnosing the technical condition of drill casing 1x and pump and compressor pipes in exploration and production wells. The purpose of the invention is to improve accuracy. The SSG induction transducer holds a generator coil, two axially and symmetrically located measuring coils and coaxially located three compensation coils, as well as three additional generating coils, five measuring coils, and three compensation coils. At this plane, the turns of the additional generator coils are located at an angle of 60 ° C. one is relatively angular and orthogonal to the main generating coil. On additional generator coils three measuring coils are placed coaxially, and two additional measuring coils are placed coaxially to two main measuring coils. Three compensation coils are located coaxially to the main generating coil. In this case, the generator coils are connected in series with each other. Two additional measuring coils are connected in opposite to the two main measuring coils. Three additional measuring coils are included in counter three compensation coils. The length of the additional generator in 1x coils is equal to the external diameters of the converter. In this case, the ratio of the width of the windings of additional generators of 1x coils to their length is 0.1 - - 0.2. The arrangement of the coils, the choice of the number of turns, as well as the choice of the length and width of the additional generator coils, allows to reduce the influence of interference factors, to carry out separate monitoring of the parameters of the pipe string, 3 Cp. f-ly, 3 ill. a (l oo | 00

Description

The invention relates to geophysics and is intended for use in diagnosing the technical condition of drill casing and tubing in exploration and production wells.

The purpose of the invention is to increase the sensitivity.

Fig, 1 shows an induction converter; on phage, 2 - section A – A per g, 1; Fig. 3 is a circuit diagram for connecting the windings of an induction converter,.

The induction converter contains a cylindrical frame 1, in the grooves of which the generator coil 2, first 3 and second 4 measuring coils, first 5, second 6 and third 7 compensating coils, first 8 and second 9 additional measuring coils in the grooves of the first 3 and second 4 measuring coils are placed coils, the first 10, the second 11 and the third 12 additional generator coils are located in the slots of the cella 1 frame orthogonal to the generator coil 2, and the third 13, fourth 14 and 15 15 additional measuring coils p Arranged coaxially, respectively, in the grooves of the first 10, second 11 and third 12 additional generator coils. To reduce the effect of fluid pressure in the well, the cylindrical frame 1 with the coils is placed in a sealed housing 16 which is filled with transformer oil through the opening 17 and is centered by springs 18 in a controlled string 19 of pipes.

The device for processing the signal of the induction converter contains a downhole switch 20, a downhole block 21 for receiving and transmitting information, a ground measuring panel 22, a block 23 for power 23, an analog 24 and digital 25 recorders. The connection of wellbore blocks is carried out using an armored cable with conductors 26-28,

The device works as follows.

On the logging cable, a cylindrical frame with coils connected to the downhole switch 20 and the transmission and reception unit 21 is lowered into the interval of the column 19,

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Power is supplied to the generating coil 2, additional generating coils 10–12 from the stabilized AC source of the downhole transmission and reception unit 21. Magnetic flux, passage through the pipe wall of the column 19, induces in the measuring coils 3,4,8,9,13, 14 and 15 and compensation coils 5-7 EMF, which reflect structural defects and electromagnetic properties of pipes, fatigue and strength characteristics of the column 19 ,

Control of fatigue sections and mechanical stresses along the perimeter of the pipe of the column 19. Determined using additional generator coils 10-12, third 13, fourth 14 and fifth 15 additional measuring coils, which are located at an angle of 60 ° relative to each other and orthogonal to the generator coil 2, In this case, the ratio of the width of the additional lasers of the coils 10 to 12 to their length is selected in the range of 0.1-0.2 to provide a corresponding area of capture and fixation of the magnetic flux, which provides a field of view along the lines meter of inner surface of the tube, Differential sigyal pair of coils 3 and 8 registers fatigue portions or axial povsh1ennye mechanical tensile stress or compression in the casing.

The difference signal of a pair of coils 4 and Y characterizes the magnitude of the change in the internal diameter of the pipe of column 19, the forces exerted in the col window 19 in cavernous intervals, in layers of flowing clay, salt, sand and abnormally high reservoir pressures are recorded by orthogonal additional measuring coils 13 - 15 which are connected counter compensation coils 5 - 7, compensating for the EMF of the direct field. The coil signals through the switch 20 are in the downhole receiving block 21, which converts information for transmitting the cable through the conductors 26 to 28 to the ground measuring panel 22 and then to analog 24 and digital 25 recorders.

Claims (4)

Invention Formula I, An induction transducer containing a main generating coil, two coaxially and symmetrically located main measuring coils and a first compensation coil, located coaxially with the main generating coil, which, in order to increase sensitivity, contains three additional generator coils, five additional measuring coils, the second and third compensation coils located coaxially with the first one, and the plane of the turns of the additional generator coils k is located) at the bottom with respect to the other and orthogonal plane of the turns of the main generating coil, three additional measuring coils are placed coaxially on the additional generating coils, and the other two additional measuring coils are placed coaxially to the two main measuring coils, three compensating coils , with all the generating coils connected in series with each other, two additional measuring coils including us two opposite main measurement mis- coils and three additional measuring coil includes oppositely three compensation coils. 2. The converter according to claim 1, characterized in that the generating coils contain an equal number of turns, three additional measuring coils also contain an equal number of turns, in addition, the number of turns of the main and additional measuring coils, as well as compensation coils is selected from the condition of equality between each other, the increments of the signals on the first and second pairs of the main and additional measuring coils located coaxially and symetrically relative to the main generating coil, and also coaxially one relative but other and also equal to each other ZDS, etc. navodimzk mlm electromagnetic field for additional measuring coil and on the compensation coil, connected to each other. 3. The converter according to claim 1, wherein the length of the additional generator coils is 4-5 external diameters of the induction converter. I 4. The converter according to claim 1, T is characterized by the fact that the ratio of the widths of the windings of the additional generator coils to their length is O, 1-0.2. G5.12 L YU and Phie, g eleven 12 15 FIG. 2 "J one L l