SU572735A1 - Acoustic well-logging apparatus - Google Patents

Description

period duration into control voltage, tunable to a local oscillator, two mixers and an electromechanical filter.

The drawing shows a block diagram of a device for acoustic transient wave logging, which contains a downhole tool 1 with radiators and a receiver of acoustic pulses, a cable 2 connecting the downhole and surface equipment, consisting of the emitters starting pulse generation circuit 3, matching device 4 , amplifier 5, threshold device 6, longitudinal wave period measuring circuit 7, longitudinal wave period converting circuit 8 to control voltage, tunable local oscillator 9, mixer 10, electromechanical matic filter 11, mixer 12, filter 13, threshold device 14, circuit 15 measuring the shear wave interval time recorder 16, generator 17, circuits 18 and 19 measure the transverse wave amplitude measurement circuit 20 and the attenuation of the transverse wave synchronizer 21.

The device works as follows.

The signal from the trigger pulse shaping circuit 3 is fed through a cable into the squall another device and triggers acoustic emitters. The acoustic signal passed through the rock under investigation is recorded by the receiver, converted into an electrical signal, and through cable 2 through matching device 4, after amplification by amplifier 5, enters threshold device 6, which selects the first longitudinal wave entry. Next, circuit 7 measures the longitudinal wave period, then converts this period to voltage in circuit 8, which rearranges the local oscillator 9. The signal from the local oscillator is mixed in mixer 12 with a full acoustic signal and, thus, at the output of the mixer, the spectrum of the input signal is transferred to The working section of the electromechanical filter 11. As a result of the operation of the described system, the frequency of the longitudinal wave signal is continuously monitored, and the filter is tuned to the frequency of the shear wave.

To return the spectrum of the signal to the original, it is fed to the input of mixer 12, where the signal from tunable heterodyne 9 arrives. From the mixer output, the signal goes through a low-frequency filter 13 to a threshold device 14, which separates the first shear-wave entry, then transverse wave time and then to the recorder, where it is recorded as a function of the well depth. The signal from the threshold device 14 also enters the shaper 17 of the shear wave time window formation on the time axis of the full signal, during which the maximum amplitude measurement in circuits 18 and 19 is allowed.

The signals from the outputs of these circuits are fed to the shear wave attenuation circuit 20 and to the recorder 16, where they are recorded as a function of the depth of the well. The operation of the entire device is controlled by the synchronizer 21. Thus, when the frequency of the transverse wave B is changed, the well logging process at the expense of the filtering properties of the rock simultaneously changes the transverse wave filter, thereby ensuring a more reliable separation of this wave from the full acoustic signal. As a result, the accuracy of measurement of the dynamic and kinematic parameters of the transverse wave is increased, and thereby the geological efficiency of the acoustic logging of oil and gas wells is increased.

Claims (2)

1. US Patent No. 3-332238, cl. 18/5, published. 1967. 2. USSR author's certificate number 227952, cl. G 01V 1/40, 1967.