SU800934A1 - Device for checking polarity of connection of geophones - Google Patents

Description

The invention relates to seismic exploration and is intended to determine the correct inclusion of groups of geophones.

A device for indicating seismographs is known, consisting of a harmonic signal generator, a direct current source, a reference resistance, and a lamp voltmeter, in which, to determine the polarity, a small amplitude direct current and an alternating current whose frequency is equal to the natural frequency of the tested receiver are passed through the seismic coil and a reference resistance. . Under the influence of direct current, an inertial spring either contracts or stretches, which leads to a decrease or increase in the natural> frequency of the geophones. And a change in the alternating voltage of the generator at the reference resistance connected to the lamp voltmeter [1].

However, this device cannot be used to determine the polarity of the inclusion of groups of geophones located on the profile, since with increasing length of the seismic line the reliability of the test decreases due to an increase in the ohmic resistance of the line, the shunting effect of the capacitance of the line on the group of geophones, and also because large scatter of parameters of groups of geophones.

, Closest technical • D ^and k the proposed an apparatus for checking the polarity switching geophones in seysmografnuyu line consisting of a generator of harmonic signals, the diode and the measuring resistance indicator. An alternating current is supplied to the seismic line, part of which is branched and detected * by a diode. The sign of the rectified current determines the direction of the deviation of the arrow of the measuring device, and the last one determines the polarity of the inclusion of the seismic receiver in the seismic line [2].

However, this device is also not used during field seismic surveys due to the fact that the low direct resistance of the semiconductor diode shunts the seismic receiver coil, which leads to a decrease in its sensitivity; when checking the polarity of groups of geophones, a set of semiconductor diodes identical in parameters is necessary, the selection of which is difficult; the reliability of the indication is low, especially when grouping large numbers of seismic receivers and for large seismic streamers (up to 3-5 km), since it depends on the deviation angle of the pointer electrical measuring instrument, as well as on the active and capacitive resistance of the line, the values of which vary over wide limits when changing the distance to the groups of geophones, especially when working on the OG method.

The purpose of the invention is to increase the reliability of checking the polarity of the inclusion of geophones in a seismic streamer.

This goal is achieved by the fact that a polarity discriminator, an amplitude rectifier and a comparator are introduced into a device containing a harmonic signal generator, a diode, a measuring resistance and an indicator, and the input of the polarity discriminator is connected to the line,. and the outputs - with the inputs of the amplitude rectifier, the outputs of which are connected to the inputs of the comparator, which allows you to fix in the line even a slight difference in the amplitudes of the half-periods of the alternating current.

To reduce the shunting effect, the semiconductor diode is connected in parallel 'to the entire group of geophones, and to exclude its influence on the shape of seismic signals in the working range of amplitudes of useful signals in the device ^; introduced a pulsed semiconductor diode with high internal resistance at a constant forward voltage of 1-2 V.

To reduce the influence of line capacitance on the difference between the amplitudes of positive and negative. half-periods, which determines the measurement accuracy, the frequency of the harmonic signal generator is set to 10 Hz. At this frequency, the capacitance of a seismic line with a length of 5000 m is much greater than the total resistance of the group of geophones and practically does not have a shunt effect during the measurement process.

The drawing shows a block diagram of a device.

. The device comprises a harmonic signal generator 1, a line 2-3, a diode 4, a group of geophones 5,.; measuring resistance 6, discriminator 7-8 polarity, amplitude rectifier 9-10, precision comparator 11 and sound indicator 12.

The device operates as follows.

Diode 4 is connected to the group of geophones 5 in such a polarity that, if connected correctly

- The seismic receiver to the seismic streamer at the output of the comparator 11 had a positive voltage, and if it was wrong (reverse polarity), a negative voltage was supplied to its output, which controls the sound indicator, 12.

A signal is supplied from a generator 1 of harmonic signals and a current flows through a circuit consisting of a seismic line 2-3,; diode 4, a group of geophones 5, a measuring resistance 6,. On the measuring resistance 6 creates a variable potential difference. The discriminator of 7-8 polarity separates the positive and negative half-periods of voltage from each other, which are rectified by an amplitude rectifier 9-10 into constant voltage of positive and negative polarities. Direct voltage 25 is applied to the input of the comparator 11, the sign of the output voltage of which is determined by the input voltage that is large in absolute value. If the 3Q seismic receiver is connected to a seismic streamer of the wrong polarity, then a negative voltage appears at the output of the comparator 11 and the indicator 12 gives an audio signal. If the polarity of the connection by the geophone ^{33 is} correct, then the indicator signal is absent.

Claims (2)

nosti; when checking the polarity of seismic receiver groups, it is necessary to set a set of semiconductor diodes identical in parameters, the selection of which is difficult; reliability of indication is low, especially when grouping large numbers of seismic receivers and with large lengths of seismic streamers (up to 3-5 km), since it depends on the magnitude of the deflection angle of the electrical measuring instrument, as well as on the active and capacitance resistances of the line, the magnitudes of which vary over wide limits when changing the distance to groups of seismic receivers, especially when working on the OGT method. The purpose of the invention is to increase reliability and polarity check of incorporation of seismic receivers into seismic streamer. The goal is achieved by introducing a polarity discriminator, amplitude rectifier and comparator into the device containing the harmonic signal generator, diode, measuring resistance and indicator, and the discriminator inputs are polar connected to the line, and the outputs to the amplitude rectifier inputs, the outputs of which are connected to the inputs of the comparator, which makes it possible to record even insignificant lines in the line. azlichie amplitudes of the AC half periods. In order to reduce the shunt effect, the semiconductor diode is connected in parallel to the All group of seismic receivers, and to eliminate its influence on the shape of seismic signals in the working range of amplitudes of useful signals, a pulsed semiconductor diode with high internal resistance is introduced into the device. B. To reduce the effect of capacitive line resistance on the amplitude difference of the positive and negative half cycles, which determines the accuracy of the measurement, the frequency of the generator -ethnic signal is set equal to 10 Hz. At such a frequency, the capacitance of a seismic line with a length of 5000 m is much greater than the impedance of a group of receivers and has almost no effect of a shunt effect in the process I9 | measurements. The drawing shows a block diagram of the device. The device contains a generator of 1 harmonic signals, line 2-3, diode 4, .- group of geo-receivers 5 ,,; Measuring resistance b, disk riminator 7-8 polarity, amplitude rectifier 9-10, precision comparator AND and audible indicator 12. The device works as follows. Diode 4 is connected to a group of seismic detectors 5 in such a polarity that, when properly connected, the logical receivers to the seismic spit at the output of the comparator 11 have a positive voltage, and if the wrong one (reverse polarity), negative voltage is applied to its output, which controls the switching sound indicator .12. From the harmonic signal generator 1, a signal is applied along a circuit consisting of a seismic line 2-3, a diode 4, a group of seismic receivers 5, a measuring resistance b, and a current flows. A measuring potential difference is created at measuring resistance 6. The discriminator 7-8 polarity separates the positive and negative voltage half-periods from each other, which are rectified by an amplitude rectifier 9-10 to constant voltages of positive and negative polarity. Rectified voltages are applied to the input of the comparator 11, the sign of the output voltage of which is determined by the large absolute value of the input HbiM voltage. If the seismic receivers are connected to an irregular polarity seismic spit, then a negative voltage appears at the output of the comparator 11, and the indicator 12 generates a sound signal. If the polarity of the connection is correct, then there is no indicator signal. Apparatus of the Invention A device for checking the polarity of incorporation of seismic receivers into a seismic streamer containing a harmonic signal generator, a diode, a measuring resistance and an indicator that, in order to increase the reliability of checking the polarity of incorporation of seismic receivers into a seismic streamer, a discriminator of polarity is inserted into it , amplitude rectifier and comparator, with the inputs of the polarity discriminator connected to the line, and the outputs from the inputs of the amplitude rectifier, the outputs of which are connected to The signals of the comparator, the output of which is connected to the indicator. , Sources of information taken into account in the examination 1. US patent number 2653305, cl. 340-155, published. 1953. 2. Authors certificate of the USSR. No. 112991, cl. G 01 V 1/16, 1956 (prototype).