SU693316A1 - Electric geosurvey apparatus - Google Patents

Description

    The invention relates to the field of geophysical instrumentation, in particular, to the equipment methods of non-stationary secondary electromagnetic fields. Devices are known for measuring non-standard secondary electric fields and induced polarization fields, which include a field excitation generator and a measuring channel containing receiving electrodes, an amplifier, and a loop oscilloscope to record the curve of the photocell i}, their relatively small fast action recording formation curves are possible only on LATE.X times (starting from 0.1 s). In addition, there is no possibility of operational quality control of works, for the evaluation of which the preliminary development of oscillographic tapes is required. These drawbacks are eliminated in devices based on stroboscopic oscillography of the temporal characteristic of the induced polarization and the formation of the field. Examples of such a device can be known equipment Yenisei Mytishchi instrument-making plant. It contains a generator with a source of an electromagnetic field (grounded cable) and a measuring channel consisting of a receiving line, a key, an amplifier, a low-pass filter and an indicator unit (a DC amplifier with a pointer instrument at the output) 2. This equipment allows you to measure only the transient response of the electrical component of the secondary FIELD intensity discretely at a certain set of pre-specified time points (5, 15, 30 ms), which significantly limits the amount of information necessary for geological interpretation of materials when determining dimensions , depths and electrical conductivity of the desired objects. The closest to the proposed device is the equipment VPP-67, which solves problems similar to the Yenisei equipment. It contains a field driving generator and a measuring channel consisting of a series-connected receiving line (receiving electrodes), an amplifier, a key and a storage device with an indicator | 3 The measured signal is fed from the output of the pre-amp amplifier to the memory device through the key, open-. Wax for 0.2 s after 0.5 s after switching off the current in the generator. The equipment makes it possible to measure the instantaneous value of the voltage of an established electric field with a fixed delay of the output pulse relative to the moment the current is turned off in the generator device,. Its disadvantage is that it is not possible to measure the time of the transition of the EMF of the transient process through zero and the time value of the strength of the unstable electric field BO, which contains important geophysical information. The equipment of Runway-67 makes it possible to measure only the parameters in the known polarization and has limited information content. The purpose of the invention is to increase the research informativity. The goal is achieved by the fact that a device containing a generator connected to the floor sensor and a measuring installation consisting of a successively connected field receiver, amplifier, key, storage device and indicator, the generator being connected by a synchronizing line to the first control a key input; a magnetic field, an amplifier, a null organ, and a time interval measurement unit are connected in series with the receiver. The zero-organ output is connected to the second control input of the key, and the first control input of the klyugcha is also connected to the second input of the time interval measurement block ... By introducing new blocks, it is possible to additionally measure time toi at which the EMF of the transition process goes to zero, and the intensity of the unsteady electric field S at time t0 while maintaining the possibility of measuring the polarization parameters. An analysis of well-known theoretical solutions to the problems of becoming electromagnet 64. Whom the FIELD in the earth and the calculations performed show that the value of Eg is proportional to the specific resistance of a homogeneous half-space and is expressed by the formula, 15, where j9 is the specific electrical resistance. Stimulation, K - coefficient of the applied installation. When applied to geological environments, E has the meaning of apparent resistance p.,. Over a conductive horizontal layer, the magnitude of Eg is inversely proportional to its longitudinal conductivity 9 and, for example, for an exploded installation with an inductive STI excitation source (loop, frame) E 0.062 Vs) where K Te is the installation factor, L is the length of the receiving line, © is the effective area of the generator loops (frames), G-installation spacing, 0-azimuth angle. From the measured value of t, it is possible to determine the depth of the formation h by the formula h-O, 6 f -§. Consequently, the values of E and I for a particular installation with a constant K are equivalent to measuring the parameters of the geoelectric section 0 and S in the induction zone, when the EP effects are insignificant, which allows expanding the application area of the device, increasing the information content of the EP method, and also increasing the productivity of work compared to with the method of becoming in the near zone due to the reduction of time for measurement and the subsequent processing and interpretation of the data obtained. The drawing shows a bdlk-diagram of the device. The device consists of a generator I with a sensor electromagnetic field 2 (grounded cable, ungrounded loop), a measurement setup containing a receiver field 3 (receiving electrodes), amplifier 4, key 5, storage device 6 with dial gauge 7, receiving frame 8, amplifier 9 , null-fgan 10, time interval measurement unit 11, containing a generator of reference frequency-12, key 13, counter 14, and indicator 15. Constituting the field of a pulse generated from the generator I by the generator pulse from the generator I through field source 2 Fitted with a chic floor 3 and frame 8,

Claims (3)

abba; / -. The signal of the electric component of the voltage field -E from the receiving line 3 after amplification in the amplifier 4 is supplied to the key 5, which is turned off by the sync pulse from the generator 1 at the moment of switching off the generator pulse. At the same time, the same pulse through the switch 13 starts the measurement unit of time interval 11. The signal of the magnetic component of the field strength. from the receiving frame, 8, after amplification in the amplifier 9 enters the null organ 10, a signal is generated by the cagor at the time of going through zero, closing the keys 5 and 13. Thus, on the input of the memory 6, the indicator 7 the EQ field at the time of the transition of the magnetic component to the field through zero, and fixed on the indicator 15; To measure the polarizability parameter, the key 5 switches to operation from the internal delay cell (g. 1 not shown) controlled by the same sync pulse from generator 1. As a result, the key 5 is closed at a predetermined moment of time determined by the set time. (for example, 0.5 s), and at the output of the memory device 6 incatorox: 7 Fsh Si-1, the intensity of the secondary electric field rises. At a certain point in time, i.e., the intensity of the field VP. When a constant opening signal is applied to the key 5, the device measures the total strength of the primary signal and. secondary fields proportional to the resistance of the medium. The use of new edgemets — a unit for isolating the moment of transition of magnetic strength — composes the field through zero, the zero-organ, and the time interval measuring unit — makes it possible to additionally measure E and 1, uniquely associated with the parameters of the geological section Cp, 5, thereby to increase the information content of the EP method, the productivity of field work by reducing the time for measurement and the Subsequent processing of the results obtained, as well as to extend the practical application of methods of unidentified electromagnet s fields in order to solve problems of geological mapping. An apparatus for geoelectromagnetic, comprising a generator set comprising a generator connected in series and a sensor field measuring installation consisting of a series connected receiver field, amplifier, key, memory device and indicator, the generator being connected by a synchronizing line with the first control input of the key, This is due to the fact that, in order to increase the informativeness of research, it has / sequentially connected the magnetic field receiver, it will A null organ and a time interval measurement block, the zero organ output connected to the second control key input, and the first control key input connected to the second input of the time interval measurement block., Sources of information taken into account during the examination 1. Geophysics handbook, t. W Gostoptekhizdat, 1963, p. 339. 2. Technical description. And operating instructions for the Yenisei electrical prospecting standard, MPZ. 3. Komarov V. A. Electrical prospecting by the method of induced polarization. L., Nedra, 1972, p. 195 (prototype) ..