SU1144064A1 - Movable device for seismic signal excitation - Google Patents

Abstract

A MOBILE DEVICE FOR THE EXCITATION OF SEISMIC SIGNALS, containing an electrodynamic source of pulse generation. associated with the lifting mechanism and interacting with the Emitters, characterized in that, in order to provide excitation of transverse acoustic waves, the emitters are arranged symmetrically on both sides of the source, are rigidly connected with it and the hinge rods to the vehicle with the possibility of rotating the emitters relative to the transport means parallel to the median longitudinal plane and perpendicular to it, one of which is made integral and with the possibility of changing its length. (L 4 o a 4

Description

1 The invention relates to exploration geophysics and is intended to excite seismic signals, in particular transverse waves in the ground. A device for exciting transverse waves is known, which contains an emitter rigidly coupled to the ground with pins, a mass for striking the emitter, a drive system for lifting the radiator to the transport position, giving the mass speed and orientation of the beam with the pilot. The disadvantages of this device are the difficulty of adjusting the control of the pulse duration and amplitude, as well as the presence of auxiliary operations for deepening the radiator, commensurate with the pulse excitation time, which reduces the performance of geophysical works. The closest to the proposed technical entity is a mobile device for the excitation of seismic signals, containing an electrodynamic source of pulse generation, associated with the mechanism of lifting and interacting with the radiator, and used for simple control over the duration and amplitude of impulses 2. However, the known device is assigned for excitation Nowadays, acoustic waves in the sempa do not allow excitation of transverse acoustic waves. The purpose of the invention is to provide excited transverse acoustic waves in the ground. The goal is achieved by the fact that in a mobile device for exciting seismic signals, containing an electrodynamic source of pulse generation, associated with a lifting mechanism and interacting with radiators, the radiators are located symmetrically on both sides of the source and are rigidly connected with the vehicle and the hinge rods. with the possibility of rotation of the emitters relative to the vehicle parallel to the average longitudinal Ø10SKO ty and perpendicular to it, one of which is the composition oh and it is able to vary the length of its 4 1 schematically illustrates a device, side view; in FIG. 2, the same plan view; on fig.Z - scheme of work; FIG. 4 is a view A of FIG. 3; in FIG. 3, node I in FIG. 3 (connection of the radiator to the vehicle), in FIG. 6, section BB, in FIG. 3 (attachment node of the cable to the vehicle) J in FIG. 7, section B In FIG. 3 (attachment unit for the radiator). The device is mounted on a vehicle 1, for example, a car, on the platform of which a console 2 is located, which provides a signal for charge-discharge of electric energy accumulators 3. The accumulators 3 are made in the form of cabinets in which capacitors with a system that controls charge or their discharge are located, and are connected by cable 4 to console 2 and cable 3 to electrodynamic source 6 for generating pulses. Source 6 converts electrical energy stored in accumulator 3 into mechanical impulses transmitted at regular intervals (as energy is accumulated in accumulator 3) into the earth through radiators 7 located symmetrically on both sides of source 6. Source 6 together with radiators 7 suspended by flexible element 8 to rack 9 through the system of blocks 10. Lifting and lowering of source 6 with radiators 7 takes place by means of a hydraulic system 11 triggered by a pneumatic crane 12. Emitters 7 are connected to a vehicle 1 with a spit 13 and a composite t4 t gami, which allow adjusting the angles of the emitters entering the earth 7. The th ha 13 rotates on an axis 15 in a plane parallel to the median longitudinal plane, and together with the yoke 16 it can rotate on a finger 17 in an plane perpendicular to the middle longitudinal plane. The connectors 13 and 14 are pivotally connected to the radiators with the help of fingers 18. The device operates as follows. When moving the device to the seismic prospecting site, the source 6 together with the radiators 7

is in the upper transport position (Fig. 1).

To bring the source 6 and emitters .7 into the working position, the crane 12 activates the hydraulic system 11. The source 6 and emitters 7 are lowered due to rotation about the axis 15 tons, g 13 and 14 connected to the radiators with fingers 18.

As soon as the emitters 7 touch the earth, the image of an angle with its horizontal plane enters the earth's surface due to self-deepening until the bottom of the groove becomes parallel to the surface of the earth.

The movement of the vehicle can be suspended to obtain an accumulation of reflected seismic waves at each point or it can continue without further deepening of the radiators 7.

The power is turned on, which is a synchronous generator driven by the engine of the vehicle 1.

The command from the remote control 2 switches on the charging circuits of the electric energy storage device 3.

The charging of accumulator 3 begins, after which a control signal is sent to the discharge circuit, through which the discharge currents from accumulator 3 through the cable system 4 and 5 flow through the windings of the source 6, where the source is 1440644

The conversion of electrical energy into mechanical impulse, which is transmitted to the soil, excites elastic seismic waves. 5 To open a transport

the means 1 and the emitters 7 tons gi 13 together with the yoke 16 can rotate relative to the vertical fingers 17 in the stiffness perpendicular to the average upper limit plane of the vehicle 1.,

After registration of the reflected oscillations, the seismic excitation device is moved to a new location, for which the source 6 together with the radiators 7 is installed in the transport position.

In doing so, the crane 12 turns on the hydraulic system drive 11 for lifting 20 of the source 6 with radiators 7,

The implementation of the device according to the invention makes it possible to create a reliable and convenient in operation mobile transverse-wave excitation device with an electrodynamic source of mechanical pulses, providing simple adjustment of the duration and amplitude of the pulses, to increase the productivity of geophysical work by reducing the time for auxiliary operations to deepen the emitters provided. It is necessary to excite transverse waves in the process of moving the device. J The economic effect from the use of a piece of equipment is approximately 40 thousand rubles.

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Claims (1)

MOBILE SEISMIC SIGNAL EXCITATION DEVICE containing an electrodynamic pulse generating source connected with a lifting mechanism and interacting with emitters, characterized in that, in order to ensure transverse acoustic waves, the emitters are located symmetrically on both sides of the source, are rigidly connected to it and articulated rods with a vehicle with the ability to rotate the emitters relative to the vehicle parallel to the average longitudinal plane and perpendicular s molecular weight, wherein one of the rods and formed integral with the ability to change its length. Figure 1