SU1109072A3 - Method of seismic prospecting - Google Patents

Abstract

A method of seismic exploration, including the excitation of transverse waves by means of at least a pair of vibrators placed at the excitation point, characterized in that the same number of vibrators are located at the excitation point on either side of the profile line compression waves on equal distances for each pair, and compression wave vibrators located on opposite sides of the profile line, excite out of phase with one and the same same frequency. O) with

Description

1 The invention relates to a method for seismic exploration of soil by means of shear waves (5-waves). In the known methods of seismic exploration methods reversed. waves oscillating in the ground are excited by an explosion (1 3 or using one or more C2 vibrators. The oscillations being excited are compression waves (P-waves) and received by ordinary geophones, for example, vertically mounted inductors, after being reflected. and the reception of C2 transverse waves creates the possibility of calculating the Poisson constant for individual characteristic reflected waves of the NS ratio of the velocities of the P- and 5-waves, which gives information about the lithological properties of the reflecting horizons The closest technical solution to the proposed one is a method of seismic exploration, including the excitation of transverse waves through at least a pair of vibrators placed at the excitation point GZ 3 However, this method of seismic exploration is complex and cannot be applied conditions. For the implementation of this method, cumbersome shear wave generators containing a steel plate, which has pyramidal thickenings or are blunt, have heavy inertial mass and Its oscillatory displacement is horizontal. In the course of operation, the means of moving inertial mass are subject to heavy wear, and the protrusions of the steel plate cause great damage to the terrain, especially on the roads. A significant disadvantage of powerful vibrators currently used is the fact that they require the use of a very large inertial mass, the installation and transportation of which is difficult. In addition, shear wave vibrators as sources of type 5H shear waves do not give good results in loose sands and water-saturated sediments. The purpose of the invention is the expansion of the field of application and simplification of seismic 2 subsurface intelligence on transverse waves. This goal is achieved by the fact that according to the seismic exploration method, which includes the excitation of transverse waves by means of at least a pair of vibrators located at the excitation point, the same number of compression wave vibrators at equal distances for each pair up to her, and vibrators located on opposite sides of the profile line, excite in antiphase with the same frequency. This allows seismic exploration of transverse waves using simpler compression wave vibrators, which do not damage the soil during operation. If we assume that the vibrators radiate mainly spherically — symmetrically into a homogeneous half-space, then with a close arrangement of two vibrators of the P-waves and the out-of-phase control of the P-wave, the amplitude of the excitation power in the horizontal direction in the common-mode is less compared to . For this reason, it is recommended that four vibrators, preferably installed at the corners of a square, for which the profile cut line is the center line, and the vibrators located on one side, are controlled in phase with each other and opposite to the vibrators on the other side. the other side of the center line. When using out-of-phase P-wave vibrators, it is possible to generate 5H waves on soils consisting of relatively loose sand and water-saturated sediments. FIG. 1 shows a schematic section of the profile line with the installation of vibrators; in fig. 2 lines of a section of a profile with the vibrators installed on both sides, top view; in fig. 3 embodiment of the method. To implement the method, on the surface of the earth 1, on both sides of the line of the profile or the center line 2 or 3, the same number of vibrators 4 and 5 of the compression waves are set. Since the vibrators 4 and 5 are located close to each other, the compression waves excited by them are mostly damped out at least in the central part due to antiphase control. The generated waves propagating in the direction of arrow 6 are SH type waves with the direction of oscillations indicated by double arrow 7. Returning to the surface of the earth after reflection, signals received by horizontal geophones 8 connected to conventional recording equipment are reflected. A sweep generator 10, which supplies the generated sweep signals to the control device 11, is output from the receiving equipment by radio or wired communication 9, which sends signals from the control device 11. further, the connecting channels 12 and 13 of the vibrators 4 and 5 are supplied, wherein the control device 11 ensures that the signals in the channel 12 are identical in frequency and amplitude, but opposite in phase to the signals in channel 13. In FIG. Figure 3 shows the use of conventional compression wave vibrators, which are connected by simple additional devices. Both vibrators 4 and 5 through each conventional control unit 14, 15 are each connected to a sweep generator 16, 17- excited via wireless or radio 18, 19 from the recording station. In order for both vibrators 4.5 to transmit the same-sized signals with opposite phases to Eniao, a comparator 20 is provided, connected through sensing and unfolding devices 21, 22 to the internal devices themselves. The signals emitted by the vibrators 4.5 are compared to each other in the comparator -20, which generates a voltage that is applied to correct the amplitude and phase of one of the vibrators, in this case of the vibrator 4, through the pro- The noise generator 24 ensures that the signal produced by the generator 16 is opposite in phase, but otherwise the same as the generator signal 17. The device additionally ensures that all effects of the soil are fully taken into account. The application of the invention will make it possible to extend the use of seismic prospecting on transverse waves in water deposited sediments and loose sands, to exclude disturbance of the soil cover, and to simplify the maintenance procedure.

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Claims (1)

METHOD OF SEISMIC EXPLORATION, including the excitation of transverse waves by means of at least a pair of vibrators located at the excitation point, characterized in that, in order to expand the scope and simplify seismic exploration on transverse waves, the same number is placed on different sides of the profile line from the excitation point vibrators of compression waves at equal distances to each pair, and vibrators of compression waves located on opposite sides of the profile line excite in antiphase with the same frequency that. CO C And 09072> 1 1109072