SU184984A1 - - Google Patents

Description

Interference analysis methods are known for seismic prospecting, with the release of reflected or diffracted waves, by reproducing and summing oscillations with different time shifts.

The proposed method differs from the known ones in that the oscillations are summed over a large reception base, in particular, the traveltime curve is approximated by two straight lines, and temporary shifts are introduced that correspond to the position of these forward waves. This increases the resolution of the proposed method compared with the method of directional reception (RNP) of seismic waves.

The method also differs in that the construction of the section cuts includes four functional potentiometers, which in the form of electrical voltages set the X-Z handwriter coordinates, the velocity section and the explosion-device distance, calculate the time, hodograph angle and angle between the decoupling devices approximating straight lines, reproduce oscillations in the analyzer by two groups of magnetic heads exposed on straight lines, the angle between which is changed in the process of summation and establish the position of the middle of the Single heads with respect to time, the magnetic heads - is tangential to the hodograph and the angle between the two groups of heads by means of follower systems. This provides an automatic construction of the section in the form of seismic records by solving a direct problem.

Pa drawing shows a diagram of the analyzer and the section builder for the implementation of the proposed method.

In order to implement the proposed method, seismic vibrations are recorded by the existing method using oscillographs-attachments at ordinary stations or at stations with magnetic recording that can be replayed.

During playback, the oscillations are summed with the introduction of time delays over a large base, which allows an increase in the analysis resolution by recording the two superimposed waves separately.

So that, when summing over a large base, there is no distortion of the useful waves, temporary shifts are introduced that correspond to the position of the computed hodographs of the diffracted (scattered) or reflected waves.

The method is carried out with the help of analyzer A, the section builder I and the slave block of computing devices that approximate the locus of the hodograph with two straight lines extending from the point corresponding to the center of the summation base. Field recordings are played back and summarized in the analyzer. In addition, the instrumentation for the optimization of seismic wave analysis consists of an amplifier V of the sum signal from the analyzer output; amplifier O to control the illuminator; stepping mechanisms I / i and I / a (not shown in the drawing) for moving the analyzer and recorder / recorder along the X axis; D-L, Da, Dz and D engines of the following systems for testing the values of t, A / j, A4 and f; master (leading) engine ZD; the lead screw and potentiometer 2 of time t (time of arrival of the wave at the observation point) with the slider 3; potentiometer 4 with the sliders 5 of the X sensor, the sliders 5. of the sensor A (abscissa of the observation point) and the sliders of the sensor 7 of fixing the position of the explosion point.

The analyzer consists of a base 8, a table 9 on which I and II gathers with tracks 10 with different phase shifts of the reading elements 11 (slots, reproducing heads) are located, a rotary base 12 of the reading elements; rotation angle potentiometer 13; potentiometer 14 for testing the movement of semigroups ac and be of readout elements with the help of control r ad, bd and cd.

The section builder consists of a coordinate table 15 on which the paper for building the cut / I is placed; carriages 16 with a recorder guiding the carriages 17; lead screw and potentiometer 18 depth sensor Z; a turntable 19 for practicing the angle φ (the angle of inclination of the reflecting boundary); engine 20, illuminator 21.

Reproducing elements (magnetic heads or slits during photo recordings) are placed on a trolley that moves abruptly across the seismogram from track to track at the end of each analysis cycle.

The movement of the seismogram along the time axis (substitution) is carried out with the help of a dynamic tracking system according to the value ty produced by the computing device. Control over the movement of the seismogram over t is made by comparing the calculated voltage and voltage taken from the potentiometer 14.

The movements of the reading elements in accordance with the angle of inclination of the tangent to the hodograph are made by rotating the corresponding angle of the whole block of the producing elements with the help of a tracking system. The rotation angle is controlled by a circular potentiometer 13. All reproducing elements are switched on in series, and the total voltage is applied to the amplifier. Moving the slider's carriage along the X axis is also carried out in steps, and along the depth axis using a lead screw rotated by an electric motor. Potentiometers 22 and pattern F (Z) are fixed to output the voltage in proportion to the depth and velocity V (Z) on the carriage.

The total voltage taken from the output of the analyzer amplifier is fed to the recorder, which records the oscillations on the paper at the point where it is at the moment. The number of recorder passes along one vertical is determined by the maximum possible distance for a given discharge angle of the reflecting boundaries M. For this, the recorder runs sequentially along all verticals to both sides of the middle of the section when repeatedly reading in the analyzer seismogram along the same middle track.

Thus, the potentiometers available in the analyzer and the builder set in the form of stresses two coordinates J and Z of the recorder, the dependence of velocity on the depth in the section, and also the coordinate x of the position on the profile of the center of the summation base relative to the explosion point. From these voltages, the computing devices determine, for the summation base, the arrival time of the wave, the slope of the hodograph, and the angle between the two approximating straight lines. Based on the calculations, the tracking systems establish reproducing elements in the analyzer by comparing the calculated and actual values.

The proposed method for the interference analysis of seismic waves is not solved by the inverse, but by the direct problem, i.e., the time of arrival of the wave, the slope of the hodograph and its curvature are calculated from the given position of the point on the section and from the given coordinates of the explosion point and reception point. in this case, the locus of the hodograph corresponding to the summation base is approximated by two rectilinear segments, which simplifies the task of setting the reading elements but the hodograph.

Subject of invention

Claims (2)

1. The method of interference analysis of seismic waves during seismic exploration with the release of reflected or diffracted waves by reproducing and summing oscillations with different time shifts, characterized in that, in order to increase its resolution, the oscillations are produced at a large reception base along the calculated hodographs diffracted (reflected) waves, in particular, the hodograph approximation of the wave by two straight lines intersecting in the center of the summation base, and introduces shifts corresponding to the position of the hodograph (these direct). 2. A method according to claim 1, characterized in that, for the purpose of automatically constructing a section in the form of seismic records by solving a direct problem, for each point of the medium, four functional potentiometers are included in the section builder circuit, which in the form of electrical directives the coordinates / f and Z of the Peroisce, the velocity section and the distance of the explosion – device; the calculating devices calculate the time, the slope of the hodograph and the angle between the two adjoint lines, reproduce the oscillations in the analyzer with two groups of magnetic, straight angled angles between which they change in the process of summation and set the poluli of the middle of the head unit over time, the magnetic head unit tangentially to the hodograph, and the angle between the two groups of heads with the help of tracking systems.