RU9978U1 - DEVICE FOR VIBRATION SEISMIC EXPLORATION - Google Patents

Abstract

1. A source of seismic vibrations, containing at least two radiating plates associated with a vibration exciter fixed to the frame, characterized in that it is equipped with a plate fixed on the frame through which the rod of the vibration exciter is passed, while one of the radiating plates is pivotally connected to the specified rod , and each of the other radiating plates is pivotally connected to a stand pivotally mounted on the plate. 2. A source according to claim 1, characterized in that the plate is mounted on the frame with the ability to move along the pathogen. 3. The source according to claim 1 or 2, characterized in that the rack is made of variable length. A source according to any one of claims 1 to 3, characterized in that said other radiating plates are located around one radiating plate.

Description

Device for vibrational seismic exploration.

The proposal relates to seismology and can be used for geophysical surveys.

Vibration seismic exploration is a method of generating waves in which the loads transmitted to the medium are harmonic or quasi-harmonic (Vibration seismic exploration. Edited by MB Schneerson, M., Nedra 1990).

Based on the classical concepts, it is argued that the processes of excitations and wave propagation in real media are linear. The theory and practice of seismic exploration as a whole and its vibrational modification show that, in general, this thesis is justified, however, recent studies show that in real media 14 non-linear components of wave fields appear along with linear ones.

As laboratory and field studies have shown, physical non-linearity is associated with the very characteristics of the rocks. These include; heterogeneity, fracturing, porosity and other structural defects of various scale levels. Fracturing most significantly affects nonlinear properties, since cracks open most easily, therefore, the elastic expansion modulus is smaller than the compression modulus - as the cracks close, the latter tends to the modulus of a continuous medium. Strong nonlinear properties possess two- and

three-phase media :: collector - fluid, collector - fluid - gas. The role of gas bubbles is special: they impart extremely high non-linearity to liquids, just as non-linearity to a solid indicates fracturing. It follows that oil and gas fields must have stronger nonlinear properties than the host medium (Problems of nonlinear seismic, USSR Academy of Sciences, Institute of Physics Land, editor-in-chief: Dr. A.V. Nikolayev, Ph.D. I.N. Galkin, M., Nauka, 1987, pp. 12-13).

A known source of seismic vibrations (RF patent 2094827, class G 01 V 1/147 of 10.27.97, application No. 95112213 of 07.27.95), containing a radiating plate pivotally connected to it at one end of the rack, the pathogen, a movable rod which is connected to the second end of the rack, is equipped with a device for changing the angle of inclination of the rack relative to the pathogen and its position lock. The invention also provides for the use of at least one additional plate and various types of its connection with the rod of the exciter and the radiating plate to control the parameters of seismic pulses.

The disadvantage of this technical solution is that the radiating plates are kinematically connected to each other. This leads to the complexity of the design and the inability to actuate each plate separately.

The technical result of this proposal is to simplify the design of the source of seismic vibrations and ensure the kinematic independence of the emitting plates.

2 To solve this problem, the source of seismic vibrations,

comprising at least two radiating plates connected to a vibration exciter fixed to the frame, provided with a plate fixed to the frame through which the rod of the vibration exciter is passed, while one of the radiating plates is pivotally connected to the specified rod, and each of the other radiating plates is pivotally connected to a stand pivotally mounted on the plate, which can be mounted on the frame with the ability to move along the rod of the pathogen. The stand can be made of variable length, and other radiating plates in order to increase compactness, it is advisable to place around one radiating plate.

For a better understanding of the proposal, a variant of its specific implementation is given with links to the attached drawings, on which:

figure 1 is a structural diagram of the proposed technical solution (source with a pathogen conditionally not shown),

figure 2 is a view along aa (see figure 1).

The proposed source of seismic vibrations contains a rigid movable rod 1 of the pathogen, with a hinged end 2 of which is connected to the Central 3 radiating plate. At the same time, an intermediate plate 4 is installed on the undercarriage of the source of seismic vibrations (not conventionally shown in the drawing), through which a rigid movable rod 1 of the pathogen passes. On the outer ring 5 of the intermediate plate 4 are mounted brackets b for mounting the struts 7, which, in turn, are pivotally connected to additional radiating

3 8. In addition, the intermediate plate 4 has the ability

displacement along the vertical axis.

The installation is as follows.

The central frequency fi is supplied to the central radiating plate, and the frequency fj to the additional (or additional) frequency. or frequency f, etc.

The occurrence of waves with Raman frequencies that will be recorded by geophones will indicate the presence of a hydrocarbon reservoir.

4

Claims (4)

1. A source of seismic vibrations, containing at least two radiating plates associated with a vibration exciter fixed to the frame, characterized in that it is equipped with a plate fixed on the frame through which the rod of the vibration exciter is passed, while one of the radiating plates is pivotally connected to the specified rod , and each of the other radiating plates is pivotally connected to a stand pivotally mounted on the plate.  2. The source according to claim 1, characterized in that the plate is mounted on the frame with the possibility of movement along the pathogen stem.  3. The source according to claim 1 or 2, characterized in that the rack is made of variable length. 4. A source according to any one of claims 1 to 3, characterized in that said other radiating plates are located around one radiating plate.