SU693310A1 - Acoustic well-logging apparatus - Google Patents

Description

The invention relates to the field of well logging.

A device is known for determining the moment of arrival of an acoustic signal with increased noise immunity, in which the response level of the threshold device is set in proportion to the noise level 1.

However, a change in the trigger level of the threshold device during well logging reduces the accuracy of recording the acoustic parameters of rocks.

In radar signal processing circuits having a threshold device, the property of detecting a useful signal is used to distinguish between the frequency of the useful signal pulses and noise emissions based on the use of type-type or n-type logic. In particular, n-n logic is practically implemented in simultaneous appearance on the circuit of coincidence of n pulses of a signal, n - 1 times delayed by the magnitude of the duration of its period T. Thus, the time of detection of a signal by a circuit is determined by the moment of arrival of the n pulse of the pre-air delayed pulse of the useful signal 2.

With acoustic logging, the time of entry of the second and subsequent phases of the received wave pattern depends on the absorption of sound energy in the rock, the state

borehole walls, the position of the instrument in the well. Therefore, the use in acoustic logging equipment of the described scheme for extracting the moment of arrival of the signal, although it increases the accuracy of the selection of the useful signal in the presence of interference, but at the same time, instrumental errors in measuring the sound propagation time in the rock are introduced.

In an acoustic logging system, to measure a parameter of a wave train before

A predetermined event has two channels for processing the received signal. In the second channel, the acoustic signal is delayed for about a period or memorized. The first channel with a rough threshold

Claims (4)

signal detection gives permission to measure the same signal, delayed in the second channel, tuned to a more sensitive threshold. Thus, the first channel excludes the operation of the second channel for interference and noise recorded before the useful signal, which increases the noise immunity of circuit 3. However, the described device does not exclude the appearance of “skew per phase, and at noise exceeding the threshold level of the first channel, the second channel receives the resolution on the registration of interference. The known method of signal processing in the acoustic diagram of wells, which provides correction for random errors caused by the deterioration of the signal-to-noise ratio, and the device used. The device contains a downhole tool consisting of a radiator, a receiver, an electronic circuit, ground equipment, containing an auxiliary memory block, a measuring drive, a comparator, a pulse extraction circuit, an amplifier, a threshold device, a synchronizer 4. Time count from the moment of emission to response the threshold device is produced by a counter controlled by a trigger. The measured time of the last sending of the acoustic signal is compared by a comparator with the measured time of the previous sending stored an auxiliary storage unit, and if the absolute difference between the two signals arriving at the comparator is less than a previously selected threshold value, for example, the period of the received acoustic signal, then the measurement is considered true and the last signal is transmitted to the auxiliary storage unit and to the measurement drive. Thus, this device only passively states the cases of “jump to the phase of the threshold device. The scheme does not produce a timely analysis of the reliability of the acoustic signal extraction and only, as a result, based on the results of the measurements and comparisons, a false measurement is rejected and information is lost. The aim of the invention is to improve the noise immunity of the device. This goal is achieved by introducing a coincidence circuit into the device and a window driver whose input is connected to the output of the threshold device, and the output is connected via the coincidence circuit to the information input of the measuring storage device and the installation input of the zero trigger controlling the operation of the pulse generator of standard signal generator. In the case of the etotz, the information input of the auxiliary storage unit and the second input of the coincidence circuit, the third input of which is connected to the trigger output, are also connected to the output of the threshold device. FIG. 1 shows a diagram of the device; in fig. 2 - voltage plots for the work of the proposed device. The device for acoustic logging contains a downhole tool consisting of an emitter 1, a sound receiver 2, an electronic unit 3, and a ground equipment consisting of a synchronizer (software device) 4, an amplifier 5, a threshold device 6, a radiation pulse extraction circuit 7, measuring the trigger 8, the key 9, the generator of counting pulses 10, the pulse counter 11, the auxiliary memory block 12, the measuring accumulator 13, the driver of the window 14 and the coincidence circuit 15. The generator of counting pulses 10 is connected in series with the key 9, a pulse counter 11, an auxiliary memory unit 12, and a measuring drive 13. Synchronizer 4 synchronizes the operation of the downhole tool and zeroes pulse counter 11. The signal from the downhole device enters through the amplifier 5 to the radiation pulse isolation circuit 7 and the threshold device 6. The output of the threshold device 6 is connected to the information input of the auxiliary storage unit 12, to the input of the former 14 and to the input of the matching circuit 15. The output of the radiation pulse extraction circuit 7 is connected to the installation input one gical measurement trigger 8. Log zero setting the measuring trigger 8 is connected to the output of the coincidence circuit 15, and the output of flip-flop 8soedinen key 9 and the third input of the coincidence circuit 15. The coincidence circuit 15 output is also coupled svhodom information receiving accumulator 13. The measuring apparatus operates as follows. A pulse from the output of synchronizer 4 triggers the emitter 1 of the downhole tool and zeroes the counter 11. The acoustic signal received by receiver 2 is amplified in the electronic unit of the downhole tool and, together with the pulse of radiation 16 (Fig. 2), goes to the ground amplifier 5. instrumentation. With the amplifier 5, the signal is fed to the pulse emission circuit of the acoustic signal 7 by the emitter 1.,. The momentum of the signal 16 emitted by circuit 7 (Fig. 2) allocated to "1 measuring trigger 8, which opens key 9 and prepares a matching circuit 15 for analyzing the arrival time of pulses at its input. The public key 9 transmits counting time pulses from the generator 10 to the pulse counter 11. The counter starts counting the time from the moment of emission of the acoustic signal by the emitter 1 of the downhole tool. With amplifier 5, the signal also arrives at the threshold device 6, which, when a signal of a certain level 17 is exceeded, forms a sequence of pulses 18-21. The pulses of the threshold device arrive at the information input of the auxiliary storage unit 12 and the state of the cells of the counter 11 corresponding to each instant of operation of the threshold device 6 is transferred to the auxiliary block of memory 12. Each pulse of the threshold device 6 starts the shaper of the window 14. The shaper of the window 14 generates a pulse the window with a delay relative to the triggering pulse is by a time shorter than the period of the emitted useful signal TO, equal to tjo 0.7-0.9 To. The window duration is set to te-0.2-0.3 TO. The time parameters of the window are refined during setup and operation of the acoustic well logging tool, depending on the complexity of the geological section, the cavernousness of the borehole wall. The window shaping pulse arrives at the second input of the coincidence circuit 15. If the first operation 19 of the threshold device 6 is caused by Interference, then the likelihood of the second operation 20 in the window 21 of the driver of the window 14, i.e. through the oscillation period of the acoustic signal, is insignificant . In this case, when the second triggering of the 20th threshold device 6 occurs, the coincidence circuit 15 does not generate a resolution pulse for transmitting the number from the auxiliary storage unit 12 to the measurement drive 13, and in the auxiliary storage unit 12, the number corresponding to the second response time 20 does not appear. 20, the window former 14 is restarted and the comparison cycle is repeated. If the next trigger 22 of the threshold device 6 coincides with the pulse of the window 23, then the coincidence circuit generates a pulse 24 allowing the transfer of information about the previous trigger 20 of the threshold device 6 from the auxiliary storage unit 12. The transfer of information about the previous trigger of the threshold device to the measurement drive occurs after analyzing the pulses of the threshold device for a periodicity that coincides with the period of the emitted signal, it testifies to the reliability of the selection of the first acoustic input eskogo signal. The measured time of the previous sending of the acoustic signal stored in the auxiliary storage unit 12 is compared with the measured time of the last sending, located in the counter 11, in the comparator by a command from the synchronizer 4 (software) through the delay unit. The proposed device provides high accuracy in measuring the arrival time of an acoustic signal by increasing noise immunity. The use of high-tolerance acoustic logging equipment in the study of wells increases the accuracy of the measured acoustic properties of rocks, necessary for estimating oil and gas reserves, to assess the stability of the borehole walls, which are drilling under conditions of abnormally high formation. A device for acoustic well logging, comprising a borehole device consisting of a radiator, a receiver and an electronic unit, and ground equipment including an amplifier connected to a threshold device, a pulse extraction circuit of the radiator connected to an amplifier and to a measuring trigger connected to the key and the measuring drive, the generator of counting pulses connected through the auxiliary memory block to the measuring drive, and the synchronizer connected to the electron A block and a pulse counter, characterized in that, in order to increase the noise immunity of the device, a coincidence circuit and a window former are inputted to it, the input of which is connected to the output of the threshold device, and its output through the coincidence circuit is connected to the information input of the measuring accumulator and the installation input zero of the measuring trigger, while the output of the threshold device is also connected to the input of the information of the auxiliary storage unit and the second input of the coincidence circuit, the third input of which is connected to you Odom trigger. Sources of information taken into account in the examination 1. USSR author's certificate number 247528, cl. G 01 V 1/40, 1968. 2.Samsonenko S. V. Digital methods for optimal processing of radar signals. M., 1968, Military Publishing, p. 320. 3. The patent of Great Britain No. 1444937, cl. G 01 V 1/40, published 1976. 4.Patent of France No. 2171957, cl. G 01 V 1/40, published 1973 (prototype). one g ji