WO1987007390A1 - Device for measuring the parameters of an underground mineral deposit - Google Patents

Abstract

A device for measuring the parameters of an underground mineral deposit which is capable of generating a nuclear magnetic resonance comprises a wire loop (1) placed on the ground surface and connected alternatively, through a controlled switch (2), to a generator (3) of alternating current excitation pulses and, through an information signal amplifier (5), coherent detector (7) and an analog-to-digital converter, to a processor (12) which, in turn, is connected to the controlled switch (2), to regulators of the amplitude (8) and of the duration (9) of the excitation pulses, to the generator (3) of the alternating current excitation pulses connected to the coherent detector (7) and to the regulators (8, 9), and, through an amplification regulator (6) to the information signal amplifier (5).

Description

CONVENIENCE FOR IZZIYA PΑΡΑΜΕGΜΕΡΕΗ 3ΑLΕЖΕ ПΡΟΒДЗΕШЫΧ ΜИΗΕΡΑЛΟΒ

FIELD OF THE INVENTION The invention is subject to the field of geophysics, and more * __. 5 The equipment is used for measuring the parameters of underground mineral deposits, for example, liquid or non-corrosive substances, which is a malfunctioning phenomenon. Pρedshesτvuyuschy uροven τeχniκi Yu Izvesτnym πρyamym meτοdοm izmeρeniya πaρameτροv zale- ments ποdzemnyχ mineρalοv, shiροκο isποlzuemym on πρaκτi- κe, yavlyaeτsya buρenie sκvazhin with οτbοροm κeρna ποροdy and egο analizοm, and in the case zhidκiχ mineρalοv οbορudοvanie sκvazhiny φilτροvοy κοlοnnοy and ποsleduyuschey οtsenκοy κο- 15 lichesτvennοgο sοdeρzhaniya EXPERIMENTAL FLUIDS. A good method of working, there is a large amount of equipment and a large amount of temporary waste.

Also known are direct methods and devices for the study (shortening) of wells, based on the use of the 20th year of the phenomenon of nuclear magnetic impurity. . publishes. "Leningrad University" (Leningrad) ^ see page.ρ7Ι-Ι78).

A prerequisite for these methods is 25 the presence of a primary well. At this well, we are replacing a measuring multiple-gun baffle. Pρi eτοm for observation YAΜΡ signal izluchaemοgο ποdzemnym mineρalοm, vοzmοzhnο sοdeρzhaschimsya in πeρeseκaemyχ sκvazhinοy πlasτaχ in eτu κaτushκu οbyaza- 30 τelnο ποdayuτ mοschny ^'imπuls ποsτοyannοgο τοκa for πρed- vaρiτelnοy ποlyaρizatsii yadeρ isκοmοgο mineρala ποsτοyan-

* Magnetic field, which is much larger than the magnitude of the magnetic field of the Earth. One-day or with some

* A stranger in this bunker for emitting a pulsed excitement, 35 giving a pulsed magnetic field in the area of an accumulated bed, emits a pulsed pulse. - 2 -

After this terminal is disconnected from the switch, it is connected to the input of the receiver. When using a measuring multiplier of a large padding containing a mineral, it registers with the required mineral.

5th signal ΜΡΜΡ. Pο depth ποgρuzheniya eτοy κaτushκi in mοmenτ ρegisτρatsii οπρedelyaeτsya signal and of the depth of mοschnοsτ πlasτa, sοdeρzhaschegο mineρal and τaκzhe οtsenivaeτsya egο κοlichesτvο in οchen uzκοy, πρilegayuschey κ sκvazhine zοne πlaeτa not πρevyshayuschey τρeχ ρadiueοv sκva-

Yu jins.

There is also a known device for the disposal of boreholes (patent no. # 3234454, class α-01 νЗ / 14, published in 1966. The occurrence of the occurrence of the event was discovered.

15 προvοlοchnοy izmeρiτelnοy κaτushκi, vοzbuzhdenie ποsτοyannοgο magniτnοgο ποlya πuτem προπusκaniya cheρez προvοlοchnuyu izmeρiτelnuyu κaτushκu imπulsa ποsτοyannοgο τοκa, vοzbuzh- • denie imπulsa πeρemennοgο magniτnοgο ποlya πuτem ποdachi in προvοlοchnuyu izmeρiτelnuyu κaτushκu imπulsa πeρemennο-

20 years from the generator and signal increase after the sensitivity of the receiver is restored.

The method used in the known device allows you to change the amplitude of the variable magnetic pulse by adjusting the amplitude of the pulse

25 rifle measuring coil. This allows you to receive information on the amount of mineral that is located in the area at a distance that slightly increases the distance and the distance of the well. In this way, the influence of the multiple magnetic fields of the Earth, which always has a place, is slightly reduced.

30 Directly discharged water are only a few due to the inevitable magnetic disruptions caused by the drilling process. However, the use of a regular pulsed magnetic field results in the magnetization of particles of the product, which introduces a large, non-continuous

35 minutes beyond the Earth and affect the speed of relaxation of the Yang signal. - 3 -

Depth προniκnοveniya πeρemennοgο magniτnοgο ποlya πρi isποlzοvanii izvesτnοgο usτροysτva οπρedelyaeτsya in οsnοvnοm diameτροm προvοlοchnοy izmeρiτelnοy κaτushκi, κοτορy in svοyu οcheρed, οgρanichivaeτsya diameτροm sκva-

5 lives. Information about the depth of the area of the collection of minerals and the thickness of this area is notorious for the possibility of paying attention to the environment. The concentration of the mineral in the unit of the volume of consumption is estimated at

Southern limited wellbore area. Depth of exploration is divided into the main depth of the deepest well. Τ The device is not suitable for evaluating the mineralization of underground liquid, such as water.

The most intimate physical and technical essence

15 part of the solution we offer is a device for measuring the parameters of underground mineral deposits, available liquid and at the peak of the YAG signal emitted from the underground 0 min, without drilling holes.

Izvesτnοe ueτροysτvο sοdeρzhiτ προvοlοchnuyu πeτlyu, uπρavlyaemy πeρeκlyuchaτel, vχοdy / vyχοdy κοτοροgο ποd- sοedineny κ προvοlοchnοy πeτle, geneρaτορ vοzbuzhdayuschiχ imπulsοv, vyχοd κοτοροgο ποdsοedinen κ πeρvοmu vχοdu

25 switch to be operated, receiver, input to switch disconnected to the output of the switch. The supply circuit is connected by an adjustable switch through the first matching transformer. Κ The output of the switch being connected is connected through the second harmonizing trans

30 power amplifier. Κ At the output of the amplifier through the switch, the dual-channel magnetic device is connected to the resonant circuits and the connectors at the output of the transmitter for signal transmission. Every child’s channel is connected to the subtractor,

35 to the examiner of the channels. The device also contains the following connected devices and the recorder, in particular - 4 - the input of the integrator is connected to the output of the subtractor.

The cycle of excitation in the device is ensured by switching off the output circuit of the generator excluding impulses that exclude the impulse.

5 At the end of the excitation cycle, the switch can be switched to the input circuit of the amplifier, and the signal cycle will begin. In this case, in the first channel of the device, the primary processing is remembered for the amplified signals of the free process and memory. Β dρ-

Only the signal of the interference is memorized from the south channel, in connection with which it includes the latest front channel, that is, when the signal of the free trial is lost. Then the signals memorized in the channels are simultaneously counted from the magnetic tapes, and the resonance signals are separately filtered.

15 circuits, detects and relays on the subtractor, which is a short from the received voltage, the deductible is deducted from the circuit, Β As a result, at the output of the subtractor, only a useful signal of the free process is left. And many

20 By turning off the cycle of excitation and excitation, the signal from the output of the subtractor is averaged by the integrator and the recorder is averaged on the recorder. In order to achieve this, an increase in the sensitivity of the device is achieved. For the same purpose, the device is pre-configured to process the device without any problems.

25 baths on magnetic tapes of the signal, if at the same time the pulse in the receiver has a pulsed signal. For this purpose, in each channel of the device, the primary processing is carried out by the free counting customers connected with their own owners and children.

30 llamas of temporary delays and collapsing notifications. If the signal is overshoot, the pre-set level of the auxiliary signals turns on the receiving signals, the signal is unresponsive

35 The well-known facility allows without bore holes to discover deposits of underground minerals giving a signal

- 5 -

I, and to give - a qualitative assessment - much of this mineral is small or small. Β There are no known facilities or equipment available to the user to adjust the depth of the underground mineral, to accommodate the deposits of this mine

5 min.

DISCLOSURE OF INVENTION

10 Β οsnοvu izοbρeτeniya ποlοzhena task sοzdaniya usτ- ροysτva for izmeρeniya πaρameτροv deposits ποdzemnyχ Mi- neρalοv, dayuschiχ signal yadeρnοgο magniτnοgο ρezοnansa-YAΜΡ, sχemnοe ρeshenie κοτοροgο would ποzvοlilο οsuschesτviτ τaκοe vοzdeysτvie on eτοτ ποdzemny mineρal, κοτοροe dalο vοz-

15 You can change the earth’s altitude without boreholes and register a signal that is less intense and less intense, and that less

20 Eτa task ρeshaeτsya τem, chτο for changes in usτροysτve ρeniya πaρameτροv deposits ποdzemnyχ mineρalοv, dayuschiχ signal yadeρnοgο magniτnοgο ρezοnansa-YAΜΡ, sοdeρzhaschem ρasποlοzhennuyu on land ποveρχnοsτi προvοlοchnuyu πeτlyu, πρednaznachennuyu for sοzdaniya on chasτοτe yadeρnοgο magniτ-

25 nοgο ρezοnansa in magniτnοm ποle Earth imπulsnοgο vοz- buzhdayuschegο πeρemennοgο magniτnοgο ποlya πuτem προπueκa- Nia cheρez eτu πeτlyu imπulsοv πeρemennοgο τοκa, geneρa- τορ vοzbuzhdayuschiχ imπulsοv πeρemennοgο τοκa, uπρavlyae- my πeρeκlyuchaτel, vχοdyvyχοdy κοτοροgο ποdsοedineny

Κ 30 ^~ προvοlοchnοy πeτle, vχοd - κ πeρvοmu vyχοdu geneρaτο- ρa vοzbuzκdayuschiχ imπulsοv πeρemennοgο τοκa, πρiemniκ for πρiema signal yadeρnοgο magniτnοgο ρezοnansa, invariant dutsiρuemοgο in προvοlοchnοy πeτle ποdzemnym mineρalοm in προmezhuτκaχ between vοzbuzhdayuschimi imπulsami, inφορma-

The 35 authorized input is connected to the optional output of the switch that is intended for

- 6 - ποπeρemennοgο ποdκlyucheniya προvοlοchnοy πeτli κ πeρvοmu vyχοdu geneρaτορa vοzbuzhdayuschiχ imπulsοv πeρemennοgο τοκa and κ inφορmatsiοnnοmu vχοdu πρieyniκa in ueτanοvlen- nοm πορyadκe, sοglasnο izοbρeτeniyu, sοdeρzhiτsya ρegulyaτορ amππiτudy and ρegulyaτορ dliτelnοeτi vοzbuzhdayuschiχ iyπul- sοv πβρemennοgο magniτnοgο ποlya, πρednaznachennye for uπ- ρavπe Nia amπliτudοy and / or the duration of the exciting pulses of the variable magnetic field and the amplitude of the signal and the time of signal relaxation, which means that the amplitude and / or duration of the signal change and eτiχ vοzbuzhdayuschiχ imπulsοv, vyχοdy ρegulyaτοροv amπliτudy and DLIΤΘLΗΟSΤI vοzbuzhdayuschiχ iyπulsοv ποdsοediveny Κ sοοτveτsτvuyuschim vχοday gβnβρaτορa vοzbuzhdashschiχ imπulsοv, προtsessορ, uπρavlyayuschiβ vyχόdy κοτοροgο ποdsοβdinβny I uπρavlyayuschemu vχοdu uπρavlyaβmοgο πeρeκlyuyaaτelya, K uπρavlyayuschβmu vχοdu geneρaτορa vοzbuzhdayuschiχ imπulsοv, K uπρavlyayuschiy vχοdam ρegulyaτοροv ayπliτudy and dliτeπnοsτi vοzbuzhdayuschiχ iyπulsοv , the analog-digital converter is a CPU, which is connected to the input of the process, and the interface atsiοnny vyχοd ΑTSP sοedinen with inφορyatsiοn- nyy vχοdοm προtsessορa, πρi eτοm πρiβmniκ sοdeρzhiτ usiπi- τel inφορmatsiοnnοgο signaπa, κοgeρenτny deτeκτορ and ρe- gulyaτορ gain vyχοd κοτοροgο ποdsοedinen κ uπρavlyae- mοmu vχοdu usiliτθlya inφορmatsiοnnοgο signal and vyχοd usiliτelya inφορyatsiοnnοgο signal sοedinen with inφορmatsiοn- 'nyy vχοdοm κοgeρenτnοgο deτeκτορa, vyχοd κοτοροgο sοedi- ΗΘΗ with analοgοvym vχοdοm ΑTSP, vχοd οπορnοgο naπρyazheniya κοgeρenτnοgο deτeκτορa sοedinen sο vτορym vyχοdοm gβne- ρaτορa vοzbuzhdayuschiχ imπulsοv πeρemennοgο το a, a uπ- uπρavlyayuschy vχοd ρegulyaτορa usiπeniya sοedinen with uπρavlyayu- conductive vyχοdοy προtsessορa, πρednaznachennοgο for naκοπleniya, and οbρabοτκi zaποyinaniya zavisiyοsτi nachalnοy ayπliτudy and vρeyeni ρelaκsatsii signal YAΜΡ οτ usτa nοvπennyχ ρβgu- πyaτορayi ayπliτudy values and dliτelnοsτi iyπulsοv πeρeyennοgο yagniτnοgο ποlya and for τaκzhe comparing this dependency with historical data. - 7 -

It is advisable to ensure the dependence of the phase of the signal on the amplitude and duration of pulses of the magnetic magnetic field in the device to turn on the meter. φazy inφορmaschοniοgο signal vχοd οπορyaοgο naπρ-yazheyaiya κοτο- »5 ροgο οοedinen sο vτορym you ^χ οdοm geneρaτορa vοzbuzdaschiχ imπulsοv, uπρavlyaschy vχοd ποdsοediyaen-K uπρavlyaschemu vyχοdu προtsessορa, inφορmaschοnny vχοd sοedinen with inφορ- maschοnnym vyχοdοm usiliτelya inφορmaschοyanοgο signal and inφορmaschοnny vyχοd ποdsοedinen K in the entrance to the south of the process.

The invention makes it possible to significantly speed up and reduce the cost of prospecting and exploration of deposits of underground minerals, unbroken liquids, in the form of water or oil. At first, it was possible to drill without boreholes and make it possible to rate 15 to estimate the quantitative distribution of mineral deposits at a depth. With this, there is a significant increase in the goal-oriented, secure and reliable operation of the work.

When exploring the underground earth, the invention has 20 concurrently distribute and miner-disposing of the underground earth.

BRIEF DESCRIPTION OF THE DRAWINGS Further, the invention is explained in a concise and complete design and in the accompanying drawings, in turn

25 rn: Fig “Ι displays the general scheme of the device for measuring the parameters of deposits of underground minerals, as agreed on by the invention; Fig. 2 - an ideal scheme for controlling a switch, 30 generators, oscillating pulses, and regulating the duration of pulses, according to the invention; Fig. 3 - the general circuit of the amplifier control is agreed on; the invention of Fig. 4 - the basic circuit of the amplifier is 35 signal received and the signal is controlled; -8 - φig.5 - "- diagρammu zavisimοsτi ρasπρedeleniya κοn- tsenτρatsii mineρala οτ depth egο occurrence, sοglasnο izοbρeτeniyu; φig.b -" - gρaφiκ zavisimοsτi ρasπρedeleniya κοn- 5 tsenτρatsii ποdzemnyχ vοd οτ depth, in ποluchenny ρezulτaτe ρabοτy οπyτnοgο οbρaztsa usτροysτva for the measurement of parameters of deposits of underground minerals, as per the invention; φig.7 - "- gρaφiκ zavisimοsτi φazy signal YAΜΡ οτ 10 πlοschadi vοzbuzhdayuschegο imπulsa for πeρvοgο vοdοnοsnοgο gορizοnτa, sοglasnο izοbρeτeniyu; φig.8 -" - gρaφiκ zavisimοsτi φazy signal YAΜΡ οτ πlοschadi vοzbuzhdayuschegο imπulsa for vτοροgο vοdοnοsnοgο gορizοnτa, sοglasnο izοbρeτeniyu; 15 Fig. 9 - "- the phase dependence of the signal phase is the area of the excitatory pulse for the structure of two foreign plants, according to the invention.

The best embodiment of the invention. Devices for measuring the parameters of underground deposits - 20 minerals that give a signal to the earth is electrically impaired. The normal circuit I is designed to be a part of the magnetic core impedance in the Earth’s magnetic impulse that excites impulse

Usτροysτvο sοdeρzhiτ uπρavlyaemy πeρeκlyuchaτel 2 vχοdy vyχοdy κοτοροgο ποdsοedineny κ προvοlοchnοy πeτle I, geneρaτορ 3 vοzbuzhdayuschiχ imπulsοv πeρemennοgο τοκa, you are a 30 χοd κοτοροgο ποdsοedinen κο vχοdu 4 uπρavlyaemοgο πeρe- κlyuchaτelya 2.

The device also has a receiver that includes an amplifier 5, an adjustable signal, a gain control of 6 and an amplifier of 7. 35 - 9 - current generated by 3 generators of excluding impulses. The frequency of the pulsed impulse circuit is set very close to the value of the frequency of the process of nuclear poisoning, which is studied in the underground mineral. 5 Ρegudyaτορy 8.9 πρednaznacheny for uπρavleniya amπli- τudnοy and / or dliτelnοsτyu vοzbuzhdayuschiχ imπulsοv πeρe- mennοgο magniτyaοgο ποlya and ποlucheniya zavisimοsτi amπliτu- rows and vρemeni ρelaκsatsii sigaala YAΜΡ οτ izmeyaeniya amπli- τudy and / or dliτelnοsτi eτiχ vοzbuzhdaschiχ imπulsοv. Βы-

10 turns of regulators 8 and 9 are connected to inputs 10 and II of generator 3 of excitatory impulses.

The device is equipped with process 12, which allows the outputs of the input to be connected to the input 13, to which the switch 2 is connected to 15

15 controls 8 and 9, respectively, for the control input 16 of the generator 3, control for the input 17 of the regulation 6.

Process 12 is designed to accumulate, process, and memorize the dependences of the initial amplitude and the time of signal relaxation. They are set to 8.9 regulators

20 values of the amplitude and duration of pulses of the variable magnetic field, as well as to compare this dependence with the reference historical data.

The device contains an analogue-analogue converter-CPU-18, which controls the input 19 for connecting

Κ 25 vyχοdu προtsessορa 12 schφροvοy inφορmaschοnny vyχοd ΑDTS 18 sοedinen with inφορmaschοnnym vχοdοm 20 προtsessορa 12. Αyaalοgοvy vχοd 21 ΑΙSCH 18 sοedinen with vyχοdοm κοgeρenτnο- gο deτeκτορa 7 vχοd 22 οπορnοgο naπρyazheniya κοτοροgο sοedinen sο vτορym vyχοdοm geneρaτορa 3. ynφορmaschοnny

30 input 23 of amplifier 5, which is an external input of the amplifier, is connected to the output of the switch 2, and the output 24 of amplifier 5 is connected to the output of output 6. Amplifier 5 is connected to an external input 25 of the accessory 7. - 10 - Usτροysτvο sοdeρzhiτ izmeρiτeπ φazy 26, 27 uπρavlyayuschy vχοd κοτοροgο ποdeοedinen κ uπρavπyayuschemu vyχοdu προ- tsessορa 12, 28 vχοd οπορnοgο naπρyazheniya sοedinen sο vτορym vyχοdοm geneρaτορa 3 inφορmatsiοnny vχοd 29 ποd- sοedinen κ inφορmatsiοnnοmu vyχοdu usiliτelya 5a. the output of the measuring phase 26 is connected to the input of the 30th process 12.

Pροvοlοchnaya πeτlya I ρasποlοzhena at ground ποveρχnοsτi, ρazρe of κοτοροy uslοvnο ποκazan on φiguρe and sοdeρ- zhiτ πlasτy 31, 32, 33, 34, 35. 32 and 34 Plasτy yavlyayuτsya κοlleκτορayi issleduemοgο ποdzemnοgο mineρala, naπρimeρ zhidκοsτi, πlaeτy 31, 33 and 35 eτοy fluids are contained. Β On the other hand, the switch can be switched off, and 2 can be used with a contactless or non-contacting relay. Referring to FIG. 2, a contact relay is provided with a switch 36 and a general closing 37 and opening 38 contacts. Βο vρemya vοzbuzhdeniya signal YAΜΡ gρuππa zamyκayuschiχ κοnτaκτοv 37 sοedinyaeτ πeρvy vyχοd geneρayuρa 3 προvοlοchnοy πeτley I. Βο vρemya πρiema signal YAΜΡ gρuππa ρazmyκayuschiχ κοnτaκτοv 38 SΟΘDIΗYAΘΤ προvοlοchnuyu πeτlyu I sο vχοdοm 23 (φig.Ι) usiliτθlya 5. Uπρavle niβ πeρeκlyuchaτelem 2 ( Fig. 2) There is a command of process 12 (Fig. 2).

Generator 3 may have been executed, for example, in the case of 39 (fig. 2), 40 of which are known to have been operated on with 41, 41 generators. for any well-known scheme, logical elements 46, 47 and generators 48 of the highest voltage Religion); see pages 4-4, 411).

A total of 39, 40, and 41, 42 connections through a 43 connection is connected to the 4 output of the 4 switch-disconnector 2. There are 41 external connections to the power supply of the power supply. 44, 45 blocking generators connected to outputs - II -

LEGAL ELS 6, 47, respectively. The first inputs 49, 50 of the logical elements 46, 47 are connected to the corresponding outputs of the 48 output voltage. The fuel system 39 is connected to the diode 41 circuit and is connected to the output of the regulator 8 (Fig. Ι). The unit 40 (Fig. 2) and the anode of the diode 42 are connected and connected to the common bus. Generator 48 is output 16 (Fig.) Of the heater 3. One of the outputs of the generator 48 (Fig. 2) is connected to the outputs 22 (Fig.), 28 of the generator is connected to the generator Β At the beginning of regulation 9, the duration of excitatory pulses may be counted 51 (Fig. 2) pulses executed by known circuit β. The counts are 51 connected to the combined second inputs 52, 53 ELECTRONIC ELECTRONES 46, 47 of the alarm 3. The counts of 51 pulses are 9 seconds long.

In the case of regulator 8 (Fig. Ам), the amplitudes can be used, for example, the circuit of the converter in case of excessive voltage is unstable. There is no reason to be able to launch a non-profitable appliance (a non-consumable product). Pρeοbρazοvaτel sοdeρzhiτ silοvye τρanzisτορy 54 (φig.Z), 55, 56 vysοκοchasτοτny τρansφορmaτορ, Naya vτορich- οbmοτκa 57 κοτοροgο sοedineny sο vχοdοm diοdnοgο mοsτa 58 and πeρvichnye οbmοτκi 59, 60 ποdsοedineny κ nοllenτορam τρanzisτοροv 54, 55 and with sοedineny isτοchni- power The κοm (not shown in FIG.). Emissions of 54 and 55 are unified and connected to the common bus.

The downloadable one in the center is a tensile capacity of 61 capacities in a few decimal places or hundreds of thousands of microns. The short-circuit generator can be operated in the form of a multivibrate 62, the output is connected to the first inputs - 12 - 63, 64 logical elements 65, 66, and the second inputs 67, 68 elements 65, 66 are connected and connected to the output of the 69th section. 70 70 τ 69 ге ге ми 69 Schmitt is not with a common point voltage divider, assembled on

5 of rooms 71, 72, the free outputs of the wiring are connected to the output of the 58th exit. 73 73 Schmitt is the entrance of 14 of the 8th. Βy ^χ οdy lοgiche- sκiχ elemenτοv 65, 66 sοedineny τρanzisτοροv with the bases 54, 55. Pοlοzhiτelnaya οbκladκa κοndensaτορa 61 yavlyaeτsya

We will exit the regulator of 8 amplitudes.

For example, the performance of amplifier 5 of the information signal and the control of gain 6 are shown in Fig. 4. Amplifier 5 could be performed on the 0U777 world (J.Hut-kobsky "Integrated Operational Amplifiers" since 5th November, the Republic of Moldova, 1978). "Ρиρ", Μοѕсва ^" , see pp ^. 287-289) or its analogue.

Amplifier 5 of the input signal supports the input circuit 74, a separate input 75, a separate input to input 74, an intermittent output

20 τ 76, subsequently connected to a 75, rotatable 77, switched on in parallel 23 of the amplifier 5 of the 5th signal. The output of the microcircuit 74 is the output of the amplifier 5 of the information signal.

25 On the gain control, 6 amplifications can be used any relay. The output of the sample 78 is the output of the 17 gain control 6. The closing contact 79 is connected to the 24 amplifier 5. The free outputs of the relay 78 and the closing contact 79 are connected to the wiring

30 busbars. The optional detector 7 and meter 26 phases can be performed on microcircuits of the ΗΑ-2820 or ΗΑ-2800 type (J. "ин Α ин 1977 1977 1977 (((((((1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 1977 , Russia, see page 398).

35 MCP 18 may be performed according to the scheme described in the book (J. Jutsk "Integrated Transitional - thirteen -

YAJILI "(Typical manual), published in 1978, published by" ρиρ ", Moscow; see pages 241, 1 2, 243).

Β On the other hand, the 12th year may have used the well-known EH, for example, type 9815 5 of the FIRST TIME, Ρ на ά ά ά (the first part of the United States, 1981, USA).

Fig. 5 shows the diagram of the dependence of the distribution of mineral concentration on the depth of its occurrence, as agreed. Ηa φig.6 izοbρazhen gρaφiya zavisimοsτi ρasπρedeleniya nοntsenτρatsii ποdzem yχ vοd οτ depth, ποluchen- ny in ρezulτaτe ρaδοτy οπyτnοgο οbρaztsa usτροysτva dπya izmeρeniya πaρameτροv deposits ποdzemnyχ mineρalοv, sοglas- nο izοbρe τeniyu. Ηa φig.7, 8, 9 ποnazany evsπθρimenτalnο snyaτye gρa- φiκi dπya ρazlichnyχ χaρaκτeρnyχ sduchaβv ρasπρedele Nia Mi- neρalizatsii ΠΟDZΘΜΗYΧ vοd, sοglasnο izοbρeτθniyu: at φig.7 izοbρazhen gρaφin zavisimοsτi φazy signal YAΙLΡ οτ πlοschadi vοzbuzhdayuschβgο imπulsa for vοdοnοsnοgο gορizοnτa in inτeρvale depths οτ 28 to 80 meters with a min-β-test of β less than 0.9 grams / liter; in Fig. 8 - "- the phase dependence of the signal phase, which is the area of the excitating pulse for the foreign part in the interval of depths of 12 to 50 meters with a distance of - 1" - Phases of the signal from the area of the excitatory pulse for the structure of two foreign countries. The outer part in the interval of the depths is from 12 to 28 months, the lower is from 36 to 80 meters. The upper-horizontal component has a mineralization of 0.9 grams-liter, the lower one is about 1.27 grams / liter.

Suschnοsτ izοbρeτe-tion zaκlyuchaeτsya in τοm, _chτο: with πο- mοschyu προΕοlοchnοy πeτli I (φig.Ι) ρasποlοzhennοy on πο- vθρχnοsτi land sοzdayuτ ποsledοvaτelnοsτ vοzbuzhdayuschih5 imπulsοv πeρemennοgο magniτnοgο ποlya with carrier chasτοτοy, ρavnοy ρezοnansnοy chasτοτe isκοmοgο mineρala. Investigation - 14 - during the operation of each impulse, due to nuclear magnetism, the magnetic moment of the deposit is disconnected from the destruction of the earth. At the end of his excitement

5 πulsa magniτny mοmenτ vοzvρaschaeτeya κ svοemu sτaτiches- κοmu ποlοzheniyu, sοveρshaya πρetsessiοnnye movement vοκρug veκτορa induκtsii _ ^> magniτnοgο ποlya Earth sοzdavaya πρi eτοm over fallow mineρala zaτuχayuschie κοlebaniya πe- ρemennοgο magniτnοgο ποlya (signal svοbοdnοy πρetsessii

10 or a Ya signal at a specified frequency, only for a reasonable mineral).

Между Interposing between excitatory impulses with the help of the same main circuit I have these vibrations. The presence or absence of signal 5

15 at a given frequency of the fluctuation indicates the presence or absence of the original underground mineral. The range of signal fluctuations I depend on the size of the underground mineral deposits and the depth of its occurrence, that is, there is no increase in the earth's surface.

20 Sκοροsτ zaτuχaniya eτiχ κοlebany οπρedelyaeτsya, πρi προ- chiχ ρavnyχ uslοviyaχ, neοdnοροdnοsτyu ποsτοyannοgο magniτ- nοgο ποlya earth .κοτορaya mοzheτ οπρedelyaτsya, naπρimeρ, χaρaκτeροm πορisτοy sρedy, sοdeρzhaschey isκοmy mineρal. For reference to one and the same angle of magnetic moment

25 heights of the same capacity, ^* but are wider at deeper depths, a larger value of the amplitude of the pulse excites is more intense

However, a change in duration is limited in time.

30 reflections of the signal YaΜΡ, the maximum values of the signals do not exceed a few seconds. By changing the amplitude or duration of the pulses of the exciting magnetic field in the underground area, the amplitude of the signal is different. This is

35 it is more convenient to express through the dependence of the initial part of the signal that I have an excitatory impulse, which is due to - 15 - lennogo in the form of a square, the same as the production of the amplitude of the pulse of the alternating current, the short-circuit through the simple circuit I, for a long time.

The operation of the device begins with a cycle of excitement.

5 In order to set the amplifier to cut off by 5 by the negative voltage, which decreases through the switch 2 while the excitation is on, and thereby reduce the “switch-off” of the amplifier 5, the Οdnοvρemennο πο κοmande προtsessορa 12 ρegulyaτο- ρy 8 and 9 in usτanavlivayuτsya nachalnοe sοsτοyanie and προ- vοlοchnaya πeτlya I πeρeκlyuchaτelem 2 ποdκlyuchaeτsya κ gene- ρaτορu 3. Β ρezulτaτe in προvοlοchnοy πeτle I vοzniκaeτ imπuls τοκa vοzbuzhdeniya. At the end of this impulse

15 At command 12, the I circuit breaker 2 is turned on to amplifier 5, and the gain is set to be on when the amplifier is turned on. The amplified signal is supplied to the component detector 7. At the command of the process 12

20, the DSP 18 is started, the supplied and processed signal of a separate process is received in memory of the process 12.

At the same time, the device registers with the amplitude of the main part of the signal of its own.

25 incidents and times of relaxation of this signal, because of the amplification of the amplitude 3 _1; the pulse of the excitation current in the continuous loop I for the duration. * With this impulse.

You can radiate this dependence by changing the amplitude and / or duration of the excitatory pulses

30 magnetic field, by adjusting the amplitude of the γ excitating pulses of the alternating circuit in the main circuit of I and / or the long pulse. These changes in the device are governed by the regulators 8, 9 of the amplitude and the duration of the respective.

35 due to the inevitable “late childhood” of the first amplitude path Ε _{0 of the} initial part of the signal is free - 16 - The recession is usually happening. Β At the same time, the accuracy of the concentration division - the underground miner depends on the accuracy of the measurement Ε ₀ . Therefore, the process 12 is registered for the amplified amplitude and time of the signal relaxation

5 before extraction, it first calculates Ε ₀ and remembers this first point of the cursor Ε ₀ (I χ), and the extra information in memory is erased. After this command, process 12 is set to 8 and 9, and the cycle of excitation, operation, and processing of the signal is turned off.

Yu Xia. Β ρezulτaτe προtsessορ 12 zaποminaeτ vτορuyu τοchκu κρivοy Ε ₀ ^ ι ^χ ^ - Eτi tsiκly ποvτορyayuτsya dο τeχ πορ, ποκa not budeτ dοsτignuτο πρedelnοe ποlοzhenie ρegulyaτο- ροv 8 and 9 and the entire initial chaeτ κρivοy ^{Ε-, (ϊ ^ χ - ~} ) οκa - It is pressed in memory of process 12. A download of this battery

15 The maximum accessibility for a compact unit with an excitable impulse is allocated to the maximum. To improve the accuracy of measurement, turning Ε ₀ ( ₁ ^< Г) is accumulated in memory of process 12 by means of a large excitation, bypassing and decoupling of the signal.

20 . Pοele naκοπleniya κρivοy ₀ Ε (Ι ^ χ -) προtsessορ 12 προizvοdiτ ρeshenie οbρaτnοy task πο zadannοmu algορiτ- mu sοποsτavlyaya zaρegisτρiροvannuyu zavisimοsτ with aπρiορ- GOVERNMENTAL data χρanyaschimisya in egο πamyaτi and ρezulτaτe vychislyaeτ φunκtsiyu (ζ), κοτορaya ρegisτρiρueτsya vyvοd -

25 devices (not shown in FIG.). Zavisimοsτ * 1 (ζ) daeτ ποlnuyu inφορmatsiyu ο deposits ρasποlοzhennοgο ποd προ- vοlοchnοy πeτley I mineρala, το esg ο depth of πlasτοv-κοlleκτοροv Sφig.5 32) and 34 and iχ mοschnοsτi and τaκ- same ο ρasπρedelenii κοntsenτρatsii mineρala πο depth,

30 that is, at a percentage of mineral content in areas 31, 32, 33, 34 and 35. However, in the interval between deposits 32 and -34, it is unavailable to its valid value is _, and in the interval it’s

35 deposits 32, 33 and 35, not containing the desired mineral, the value ^ = 0. - 17 - Izvesτnο, chτο eleκτροπροvοdnοsτ vοdοnοsnyχ gορi- zοnτοv οπρedelyaeτsya SΤΘPΘ ΗBYU mineρalizatsii ποdzemnyχ vοd, sοdeρzhaschiχsya in eτiχ gορizοnτaχ (avτορsκοβ svideτθl- sτvο SSSΡ Ν2 947,805, _ V 01 W / ΙΙ, οπublinοvanο in 1981.). Peρeyennοβ magniτnοe ποde, sοzdavaemοθ προvοlοchnοy πβτyaey I vο vρemya vοzbuzhde YAΜΡ of the signal, in navοdiτ eleκτροπροvοdschiχ vοdοnοsnyχ πlasτaχ vihρevye τοκi, κο- shορye sdvigayuτ φazu magniτnοgο ποlya, deysτvuyuschegο on προτοny vοdy, vsledsτvie chegο φaza signal YAΜΡ, πρini- maemοgο προvοlοchnοy ΠΘ ΤLΘY I, Compared with the case, when the elec- tricity of the underground water is equal to zero. Variable magnetic field, combined with water, that is, the signal itself is YA, also it is a part of the external process, which is sensitive to acoustic signals. ΕСΤΘСΤΕΘΗΗΟ, in the middle phase of the Ya signal, we catch the ΠΘ Largest I ’, the shift is more severe, since there is little more than a little Ηelineynaya dependence mοsτ φazy shift φ οτ πlοschadi 3 _* - * ΠΟZΒΟLYAΘΓ πuτβω eοοτvβτsτvugaschiχ maτemagichesκiχ ρaschβτοv in προtsessορe 12 of eτοy zavisimοsτi ποsτροiτ κaρginu ρasπρedeleyaiya eleκτροπροvοdnοsgi ποdzemnyχ vοdοvmeschayuschiχ ποροd πο depth and dag οtsennu ρasπρedeleniya πο depth SΤΘΠΘΗI mineρalizatsii vοdy.

Zaπazdyvanie φazy vyχοdnοgο signal φ usiligelya 5 izmeρyaeτsya πο οτnοsheniyu κ οπορnοmu signal geneρaτορa 3 vοzbuzhdayuschiχ imπulsοv with ποmοschyu uπρavlyaemοgο προtsessο- ροm izmeρiτelya 12 and 26 φazy vvοdiτsya chθρβz inφορmatsiοn- ny vχοd 30 προtsβssορ 12 οbρabοτκi and ρegisgρatsii φunκtsii ψ (3ι '*) and This is the most recent collection of information on the mineralization of underground water at a depth, along with data on the depth of occurrence of the surrounding area, its large area and the size of the area. - 18 - Ηa φig.2 ποκazan πρimβρ vοzmοzhnοy sχemnοy ρealiza- tion uπρavlyaemοgο πeρeκlyuchaτelya 2, 3 geneρaτορa vοzbuzh- authorizing ^χ imπuπsοv and ρegulyaτορa 9 dliτelvοsτi vοzbuzhdayu- schiχ imπulsοv. The funnel test I in FIG. 2 shows 5 as an induction coil. Dο start ρabοτy geneρaτο- ρa 3 vοzbuzhdayuschiχ imπulsοv zamκnuτa gρuππa κοnτaκτοv 38 πeρeκlyuchagelya 2. Β eτο vρemya προvοlοchnaya πeτlya I sοedinena sο vχοdοm 23 (φig.Ι) usiliτelya 5 inφορmatsiοn- nοgο signal and προizvοdiτsya nasτροyκa vχοdnyχ and vyχοdnyχ

The Y chain has amplified 5 informative signals at the frequency of the process of the nuclear poisoning of the original mineral. This part is determined by the type of mineral and the value of the magnetic field induction of the Earth at the working site, which is known to be known or may be inhibited. The frequency of installation is-

15 generatrix 48 (Fig. 2) of a high voltage, which, for the sake of simplicity, is indicated for the generation of 3 stimulating pulses, is indicated. After the assurance of a listed positive operation, a cycle of excitation begins. For this command, process 12 (fig.) For

20 input 13 is set to switch 2 in module 36 (Fig. 2), the relay is supplied with a pulse, terminal 37 is closed and is connected to the power supply Simultaneously with the controlled outputs of process 12 to the controlled input 15

25 ^"9 ρegulyaτοra dliτelnοsτi vοzbuzhdayuschiχ imπulsοv on uπρavlyayuschy vχοd 16 geneρaτορa 3 vοzbuzhdayuschiχ imπulsοv and uπρaglyayuschy vχοd 1 ρegulyaτορa 8 amπliτudy vοzbuzhdayuschiχ imπulsοv ποsτuπayuτ κοmandy zaπusκa. Β zavisimοs- τi οτ sοsτοyaniya scheτchiκa 51 οπρedelyayuschegο DLIΤΘLΗΟSΤ

30 _. vοzbuzhdayuschegο imπulsa, cheρez vχοd 10 geneρaτορa 3 vοzbuzhdayuschiχ imπulsοv ποdaeτsya naπρyazhenie power The geneρaτορa 3 vοzbuzhdayuschiχ imπulsοv, sοbρannοgο silοvyχ bysτροdeysgvuyuschiχ τiρisτορaχ to 39 and 0 to πaρallelnymi vsτρechnο vκlyuchennymi diοdami 4-1 and 42. Znacheniθ naπρyazhe-

35 power supply at the input of 10 or a long series of starting pulses at the input of the II generator 3 excitatory - 19 - the pulses are set in such a way that the output of the I pulse is adjustable for a long period of time;

5 before and after the completion of the cycle of excitation, reception, registration, accumulation and memorization of the YA signal.

Impairment of excitatory impulses of a transient circuit in the primary circuit of I is generated after the supply of amplifying impulses to emitting 40 electric pulses.

These controllers are emitted from the blocking generators 44 and 45, while the other simple ones are triggered by signals from the logical 46 and 47 components. At the exit of logical elements 46 and 47, a logical unit appears after the impulse sign that is missing is lost

15 at entrances 52, 49 and 53, 50 respectively. Pρi ποsτuπlenii uπρavlyayuschegο imπulsa on uπρavlyayuschy eleκτροd τiρisτο- ρa 39, οn οτκρyvaeτsya and προvοdiτ τοκ in τechenie ποlοzhi- τelnοgο ποluπeρiοda cheρez κοndensaτορ 43 and προvοlοchnuyu πeτlyu I. Zaτem τοκ izmenyaeτ svοe nalρavlenie and προτeκaeτ

20 through diode 41. On the 39th voltage, a negative voltage is applied, the same voltage as the output diode 41 and it turns off. After a while, the process is reversed, which accelerates the pulse to the output voltage of process 40 and the process. В result in

25 INVENTORY CIRCUIT I VARIABLE VARIABLE CURRENT.

The capacitance of 43 depends on the inductance of the main earth I and the magnitude of the magnetic induction of the Earth, that is, the magnitude of the earth is ignored. Β in case of public resignation,

30, for example, this frequency may vary from 1000 to 2800 _{ζ ζ} , depending on the geographical location of the device.

Amplitude I of the output current of the generator 3 of the excitating impulses is divided by the value of the supply voltage,

35 Available at its input 10 At the specified values of the inductive circuit of I and the capacitance of the capacitor - 20 - ρа 43). Parameters of the primary circuit I, which controls the switch 2 and power elements of the generator 3, are excitating pulses of a variable depth 0t of this depends and konk-

5 A recirculation diagram of these components, because of the large amplitude of the excitation, the unit can change and vary by a few thousand amperes.

To control the value of the magnetic field induction, which is applied to the underground mineral, by changing

In the amplitude of the pulse of the current in the output circuit I, in the device, the regulator of the 8 amplitudes of the exciting pulses is used.

One of the possible options for the systematic solution of 8 amplitudes of excitatory pulses is shown in

15 φig. 3. This is the regulator 8 at the command of the process 12

(Fig. Ι), which starts at input 14, sets at input 10 of the generator 3 excitating pulses the set value of the voltage of the power supply of this generator 3. The power supply

20 non-regulated voltages at a constant regulated voltage. After turning on the power, the multi-vibrator 62 starts to generate high voltage, which is connected to inputs 63 and 64 of the 66 and 66 cells. 66 and 66

25, the voltage is pulled, cutting off the impulses of the multi-vibrator 62 to the power base of the transformer 54 and 55 of the converter. On page 57, the 56 transformer 56 shows a high voltage, it is directly powered by a 58 diode and charges a battery

30 th 61 of large capacity, which is, in fact, directly, and is the source of power supply of the generator 3 excitatory impulses. The output voltage of the appliance is monitored by 69 Schmitt, at the exit 70 from the divider, which is carried out on resins 71 and 72, it is running

35 the value of the output voltage of the converter, and at the exit 73 after the regulated input 14 of the regulator 8 - the output - 21 - a-governing naπρyazhenie προtsessορa 12. Κaκ τοlκο vyχοdnοe naπρyazhenie ρegulyaτορa 8 κοndensaτορe 61 dοsτigneτ neοbχοdimοgο values sρabaτyvaeτ τρiggeρ Shmiττa 69 and 67 and 68 vχοdy lοgichesκiχ elemenτοv 65 and 66 ποsτuπaeτ naπρyazhenie, zaπρeschayuschee προχοvdenie vysοκοchasτοτnyχ κο- oscillations mulτivibρaτορa 62 on base power transgressions 54 and 55.

After the inclusion of generator 3 (Fig. Ι), excitation pulses from the output of ig 69 69 Fig. 3) Schmitt starts

10 to 67 and 68 vχοdy naπρyazhenie, ρazρeshayuschee προχοvdenie cheρez lοgichesκie elemenτy 65 and 66 vyeοκοchasτοτnyχ κοle--oscillations mulτivibρaτορa τρanzisτοροv 62 on base 54 and 55 dο τeχ πορ, ποκa κοndensaτορ 61 is ποdzaρyadiτsya dο neοb- χοdimοgο naπρyazheniya power The values. Good work cycle

15 προdοlzhaeτsya dο τeχ πορ, ποκa at 14 vχοd not ποsτuπiτ κοmanda izmeniτ-uvelichiτ or umenyπiτ value naπρyazheniya on κοndensaτορe, 6, ποsle chegο uκazanny tsiκl ποvτορyaeτsya dο τeχ πορ, ποκa at 14 vχοd not ποsτuπiτ nο--hand κοmanda changes in πiτayuschegο naπρyazheniya Condensation- 0 τορе 61 or process protection.

Depending on the supply circuit of the generator 3 Fig. 2) excitatory pulses may be changed and the control circuit 8 (Fig. 3) amplitudes of the excitatory pulses.

Fig. 4 shows a fragment of a simple device -

25 st.Fig. Ι, including the serial circuit I, the adjustable switch 2, the amplifier 5 of the input signal and the regulator 6 of the amplifier. At the same time as the Y signal, which is connected to the control circuit I, the switch group 38 of the switch 2 is closed and after 23

30 signal emits an amplifier 5 information signal. The residual resonant component, which is a part of the original I and the 77th component, is damaged by the carrier, but it is not affected by the earth.

35 of the current geographic location of the working site.

After a limited Resistance 76 and Condensation 75 - 22 - signal to ποsτuπaeτ vχοd οπeρatsiοnnοgο usiliτelya 74. vyχοda οπeρatsiοnnοgο usiliτelya 74 ποsτuπaeτ signal to inφορmatsiοnny vχοd -Sφig.Ι 25) κοgeρenτnοgο deτeκ- τορa 7. To sοκρascheniya vρemeni vοssτanοvleniya sen- sτviτelnοsτi usiliτelya 5 and zaschiτy egο οτ προniκayuschegο cheρez κοnτaκτy 37 Fig. 4) of the switch 2 of the voltage of the high excitation pulse, the regulator of amplification 6 is referred to. Аче In the case of such a regulator in Fig. 4, the shown is a magnetic relay, the control is operated

20 schesτvlyaeτsya πuτem πσdachi τοκa cheρez vχοd 17 οbmοτ- κu 78 eτοgο ρele πο κοmande προtsessορa 12. Κοnτaκτ 79 eτοgο ρele vο vρemya προχοzhdeniya signal YAΜΡ πο πρiem- nοmu τρaκτu ρazοmκnuτ, το eeτ οbmοτκa 78 ρele οbesτο- Chen and οπeρatsiοnny usiliτel 74 οτκρyτ. Βο time gene

^ 5 fractions of the excitatory pulse of the contact 79 are reliably closed and the general circuit of the resistor 76 and the compensator 75 ^'are connected with the total bus and, therefore, the voltage is 74%.

In Fig. 5, the block of the earth is shown in condition

On the other hand, on pages 31, 32, 33, 34, 35 and next to it, an alternative diagram is shown, depending on the separation of concentration _ of the mineral ζ of depth ζ. With the diagram, two collects of minerals are visible. Ο One in the interval of depths οτ _-_ to ζ-2 with concentration H _% _>

25 in the interval of depths ο с с with concentration * [_%. Plates 31, 33, and 34 show a mineral concentration of 0.

Fig. 6 shows a diagram of the dependence of the distribution of groundwater concentration on the depth of occurrence obtained as a result of the processing of the product.

30 for measuring the parameters of deposits of underground minerals, according to the invention. From this area you can see that, to a depth of 0 to 100 meters, there are also other types of natural resources: in the depths of 7 to 8, the distance is 12 hours.

35 by using the water and in the interval from 24 to 50 months with a maximum water content of around 3 in the most water- - 23 - in a wide range of areas from 32 to 50 metro. COMMUNITY

The thickness of the provinces) is 1,2 and 26, respectively.

The invention makes it possible to receive data at a depth of 5 bedding, capacity and mineral concentration, as well as to receive information from the earth from the earth.

The invention makes it possible to save one time, reduce energy costs, reduce the weight of the utilities and are completely free of charge. The intentional use of the invention may be used to measure the depth, depth and concentration of underground 15 minerals that give a signal of nuclear magnetism.

Β in case of a change in the parameters of underground underground plants, the invention also makes it possible to evaluate the degree of mineralization ^{* of} water in this environment.

Izοbρeτenie mοzheτ nayτi πρimenenie in inzheneρnο-izysκa- - 20 τelsκiχ ρabοτaχ in sτροiτelsτve and meliορatsii and τaκzhe in gidροgeοlοgii πρi vybορe mesτa for eκsπluaτatsiοnnyχ vοdοzabορnyχ sκvazhin and οπρedeleniya inτeρvalοv οτbορa ποdzemnyχ vοd.

Claims

- 2 -

ΟΡΜΟΡΜΟΡΜΑΑ ΑΟ I I I. Usτροysτvο for izmeρeniya πaρameτροv deposits ποd- terrestrial ^χ mineρalοv, dayuschiχ signal yadeρnοgο magniτnοgο ρezοnansa-YAΜΡ, sοdeρzhaschee ρasποlοzhennuyu ποveρχnοsτi on land προΕθlοchnuyu πeτlyu (I), for πρednaznachennuyu sοzda- Nia on chasτοτe yadeρnοgο magniτnοgο ρezοnansa in magniτ- nοm ποle earth imπulsnοgο vοzbuzhdayuschegο πeρemennοgο magnetic niτnοgο ποlya πuτem προπusκaniya cheρez eτu πeτlyu (I) momentum πulsοv πeρemennοgο τοκa, geneρaτορ (3) momentum vοzbuzhdayuschiχ πulsοv πeρemennοgο τοκa, uπρavπyaemy πeρenlyuchaτel (2) in οdy ^χ / ^χ you οdy κοτοροgο ποdsοedineny κ προvοlοch nοy πeτle (I) »and vχοd C ^) - κ πeρvοmu vyχοdu geneρaτορa SOC) vοzbuzhdayuschiχ imπulsοv πeρeme nnοgο τοκa, πρiemniκ for πρiema signal yadeρnοgο magniτnοgο ρezοnansa, indutsiρue- mοgο in προvοlοchnοy πeτle (I) in ποdzemnym mineρalοm προme- zhuτκa ^χ between vοzbuzhdayuschimi imπulsami, inφορωatsiοnny vχοd (23) κοτοροgο ποdκlyuchen κ inφορmatsiοnnοmu vyχοdu uπρavlyaemοgο πeρeκlyuchaτelya (2) for πρednaznachennοgο ποπeρemennοgο ποdκπyucheniya προvοlοchnοy πeτli (I) I πeρ- vοmu vyχοdu geneρaτορa SOC) vοzbuzhdayuschiχ imπulsοv πeρe- mennοgο τοκa and κ inφορmatsiοnnοmu vχοdu (23) πρ the luminaire in the installed mode, in addition to that it regulates with 8) the amplitudes and the regulator (9) are dliτelnοsτyu vοzbuzhdayuschiχ imπuπsοv πeρemennοgο magniτnοgο ποlya sοοτveτsτΕennο and ποlucheniya zavisimοsτi amπliτudy and vρemeni ρelaκsatsii signal YAΜΡ οτ variation of the amπliτudy and / or dliτelnοsτi eτiχ vοzbuzhdayuschi ^χ imπulsοv, vyχοdy ρegulyaτοροv amπliτudy C8) and τi dliτelnοs- (9) vοzbuzhdayuschiχ imπulsοv ποdsοedine κ s sοοτveτsτ- vuyuschim vχοdam (ΙΟ DΙ) geneρaτορa SOC) vοzbuzhdayuschi ^χ momentum πulsοv πeρemennοgο τοκa, προtsessορ 12) uπρavlyayuschie vyχοdy κοτοροgο ποdsοedineny κ uπρavlyayuschemu vχοdu (13) uπρavlyaemοgο πeρeκlyuchaτelya (2), κ uπρavπyayuschemu vχοdu (16) geneρaτορa (3 ) excitatory impulses of an alternating current, - 25 - κ uπρavlyayuschiy vχοdam (14, 15) ρegulyaτοροv amπliτudy ( ^"8) and DLIΤΘLΗΟSΤI (9) vοzbuzhdayuschiχ imπulsοv, analοgο-tsiφροvοy πρeοbρazοvaτθl -ΑTSP (18) uπρavlyayuschy vχοd (19) κοτοροgο ποdsοedinen κ uπρavlyayuschemu vyχοdu προtsβssορa (12) 5 and inφορmatsiοnny vyχοd ΑTSP (18) sοedinen with inφορmatsiοnnym vχοdοm (20) προtsessορa (12) πρi eτοy πρiemniκ sοdeρzhiτ usiliτeπ (5) inφορmatsiοnnοgο signal κοgeρenτny dβτeκτορ (7) and ρegulyaτορ (6) amplification vyχοd κοτοροgο ποdsοedinen κ uπρavlyayuschemu vχοdu ( 24) amplifier (5)

Yu inφορmatsiοnnοgο signal and vyχοd usiliτelya (5) inφορya- tsiοnnοgο signal sοedinen with inφορmatsiοnnyy vχοdοm (25) κοgeρenτnοgο deτenτορa (7) vyχοd κοτοροgο sοedinen with analοgοvym vχοdοy (21) ΑTSP (18) vχοd (22) οπορnοgο naπρyazheniya κοgøρenτnοgο deτeκτορa ( 7) connected to the second

15 vyχοdοy gβneρaτορa (3) vοzbuzhdayuschiχ iyπulsοv πeρemennο- gο τοκa and uπρavlyayuschy vχοd (17) ρegulyaτορa (6) with a gain sοedinen uπρavlyayuschim vyχοdοm προtsθssοra (12) for πρednaz- nachennοgο naκοπlβniya, and οbρabοτκi zaποminaniya depend simοsτi nachalnοy ayπliτudy and vρemeni ρβlaκsatsii signal

20 la Ya oust installed ρβ regulation (8, 9) significant values of the pulse duration and duration of the pulsed magnetic field, and it is also for comparison with the aerials.

2. DEVICES πο π.Ι, ο τ и и ч θ θ s i

25 τey, chτο for ποluchβniya zavisiyοsτi φazy signal YAΜΡ οτ ayπliτudy and dliτelnοsτi imπulsοv πeρemennοgο magniτ- nοgο ποπya οnο sοdθrzhiτ izmeρiτel φazy inφορmatsiοnnοgο signal vχοd (28) οπορnοgο naπρyazheniya κοτοροgο SΟΘDI- nen sο vτορym vyχοdοm geneρaτορa (3) momentum vοzbuzhdayuschiχ

30 πulsοv πθρemβnnοgο τοκa, uπρavlyayuschy vχοd (27) ποdsοβ- union of κ uπρavlyayuschemu vyχοdu προtsessορa (12) inφορmatsiοnny vχοd (29) with SΟΘDIΗΘΗ inφορmatsiοnnym vyχοdοm usiliτe- A (5) inφορmatsiοnnοgο signaπa and inφορmatsiοnny vyχοd ποdsοedinen κ inφορmatsiοnnοmu vχοdu (30 ) προrocessορа (12).