SU911420A1 - Complex well-logging magnetometer - Google Patents

Description

(54) COMPLEX CLEARING MAGNETOMETER

one

The invention is intended to measure the total vector of the geomagnetic field and the magnitude of the magnetic susceptibility of rocks in drilling wells and can be used in geophysical prospecting and exploration of mineral deposits.

A device is known for measuring the components of the magnetic field and the magnitude of the magnetic susceptibility of rocks, consisting of a measuring circuit, a switching control unit and sensors located in the downhole probe and a switching unit of sensors C.

However, such a device permits one of the components of the geomagnetic field or the magnitude of the magnetic susceptibility to be measured in a single trip trip. Therefore, to measure the three components of the geomagnetic field and the magnitude of the magnetic susceptibility, four

hoisting operations, which increases the cost of measurement.

In addition, the accuracy in determining the total geomagnetic field vector is reduced.

Closest to the proposed invention to the technical essence is a complex well-bore magnetometer containing

10 downhole probes; components of the geomagnetic field and magnetic susceptibility; a switch connected to the sensors; a measuring circuit connected to a switch output; hence, 15 therefore connected clock generator and a primary distributor connected to the control inputs of the switch, and a pe20 block located on the surface hysteration and processing connected to the output of the measuring circuit 2.

The disadvantage of this device is low measurement accuracy.

when determining the magnitude of the full vector of the geomagnetic field,

The invention is the measurement accuracy.

The goal is achieved by integrating a geomagnetic field and magnetic susceptibility components located in a downhole probe, a switch connected to the sensors, a measuring circuit connected to the output of the switch, a series connected clock generator and a primary distributor connected by the outputs. the control inputs of the switch, and the registration and processing unit located on the surface, a secondary distributor is additionally introduced , sync pulse generator, sync pulse block, keys and analog storage devices, the outputs of the primary distributor connected to the sync pulse generator inputs, the output of which is connected to the output of the measuring circuit, with the input of the sync pulse block and through the keys of the analog memory devices inputs, through the output devices. inputs to the registration and processing unit, and the output of the sync pulse selection unit is connected to the input of the secondary distributor, whose outputs are connected with the control key inputs,

The drawing shows a block diagram. magnet e tra.

The magnetometer contains sensors components of the geomagnetic field 1 - 3 and. magnetic susceptibility 4, switch 5, measuring circuit 6, primary distributor 7, clock pulse generator 8, clock generator 9, clock generator unit 10, secondary distributor 11, keys 12-15, analog for "

commemorative devices 16-19 and the registration and processing unit 2O.

The magnetometer works as follows.

When moving the downhole tool downhole, sensors 1-4 are alternately connected by switch 5 to measurement circuit 6. The switch is controlled from the primary distributor 7, to which pulses are fed from the clock generator 8. The sync pulse generator generates pulses of the sensor switching sequence. At the output of the measuring circuit, a series of rectangular pulses appears, the amplitude of which is determined by the value of the components of the geomagnetic field and the magnitude of the magnetic susceptibility. These pulses, together with the sync pulses, arrive via a cable to the surface and are fed to the inputs of the keys and the input of the sync pulse block, which controls the operation of the secondary distributor in phase with the operation of the primary distributor. The distributor 11 alternately oivkryvaet keys 12-15 and the corresponding pulses are fed to analog storage devices. The output voltages from the iQ-i9 blocks are proportional to the measured components of the geomagnetic field and the magnetic susceptibility, are fed to the information recording and processing unit 2O in which vector direction of the geomagnetic field.

Since the measuring circuit and the clock pulse generator are located in the downhole tool, it is possible to significantly increase the switching frequency of the sensors and to obtain almost unaffected values of the measured values at the outputs of analog storage devices.

The application of the proposed device allows to carry out the entire complex of magnetic well logging in one round trip operation, to increase the accuracy of determining the magnitude and direction of the geomagnetic field vector, and also to increase the productivity of wells in the study of wells.

Claims (2)

Invention Formula A complex logging magnetometer containing geomagnetic field and magnetic susceptibility components located in the downhole probe, a switch connected to the sensors, a measuring circuit connected to the switch output, serially connected clock generator and the primary distributor connected to the control inputs of the switch, and located on the surface of the registration and processing unit, about the fact that, in order to improve measurement accuracy, it has been additionally introduced s shaper sync block sync separator, the secondary 59 distributor, keys and analog Zalominakshshe device, wherein the outputs of the primary distributor connected to the input of the clock, which output is connected to the output of the measuring circuit, to the input of the block sync separator and through the keys to the outputs of analog zapominakshih devices the outputs of which are connected to the inputs of the registration and processing unit, and the output of the sync pulse extraction device is connected to the input of the secondary distribution divider, the outputs of which are connected to the control to the two inputs of keys. Sources of unpacking taken into account during the examination 1. The well is an ore of geo-use. L., Nedra, 1971, p. 414-416. 2. Ponomarev, V.N., et al. KSHSM-38 Complex Mine Borehole Magnetometer. Information sheet Sverdlovsk, INTI, 1978 (prototype).