SU1312503A1 - Seismic signal source - Google Patents

Abstract

The invention relates to the excitation of seismic vibrations by electro-hydraulic method and can be used for seismic prospecting, as well as in technological processes using the properties of an electro-hydraulic effect. The purpose of the invention is to increase the seismic efficiency and reliability of the device. The introduction of a pulse current generator connected to an electrohydraulic radiator via an additional electrode of a spark switch allows the source to increase the seismic efficiency due to reliable interception of the arc by a shock generator. Introduction to the shock generator additional high-voltage winding reduces the weight and size of the device. 1 hp f-ly, 2 ill. and (L with

Description

The invention relates to the field of seismic oscillation by electro-hydraulic method and can be used for shallow seismic prospecting, in physical installations by the emission of electric discharge in a liquid and its activation of various materials, as well as in technological processes using the properties of an electro-hydraulic effect.

The purpose of the invention is to increase the seismic efficiency and reliability of the device.

Figure 1 shows the electrical circuit of the device; Fig. 2 are graphs illustrating the operation of the device.

The seismic signal source consists of a shock generator 1, the low-voltage (working) winding 2 of which is connected via a valve block 3 and a choke 4 of the congestion to the input electrode 5 of the electro-hydraulic radiator 6.

The high-voltage winding of the shock generator 7 through the valve 8 and the current-limiting resistance 9 are included in the charging circuits of the generator 10 of pulse currents and the generator 11 of pulse voltages. The pulse current generator 10 and the pulse voltage generator 11 are connected by electrodes 12 and 13 of the spark switch 14 to an electrohydraulic emitter 6. The pulse voltage generator 11 is turned on by the controlled spark switch 15. The common bus 16 is connected via protection inductance 17 to windings of the shock generator.

The device works as follows.

The shock generator is driven into rotation and energized to the rated voltage. The high-voltage winding 7 through the valve 8 and the charging resistance -9 charges the capacitor banks of the generator 10 pulsed currents and the generator 11 pulsed voltages. The signal from the seismic station to the positive half-wave of the EMF of the working winding 2 at time t (Fig. 2) triggers the control of the discharger 15, which switches on the High voltage generated by the pulse voltage generator 11, breaks the spark gap between the electrodes 5 and 13 communo

0

0

The probe 14 and the breakdown between the electrodes of the electrohydraulic radiator 6, During the periodic discharge of the pulse generator 1, when the negative half-wave of the drive passes through at time t, the breakdown between the positively charged electrode 12 and the negatively charged electrode 5 of the switch 14 and the generator 10 pulse currents are connected to the arc channel by an electro-hydraulic radiator: 6. At time t, the electric arc is intercepted by the working winding 5 2 of the shock generator 1.

Due to the joint use of the pulse voltage generator and the pulse current generator in the proposed device, a breakdown of the interelectrode gap of a great length is carried out and conditions are created for reliable interception of the arc by the shock generator.

In the time interval tg - t was 0

There is a breakdown of the inter-electrode gap, and in the interval t, a discharge channel is formed by the generator of 10 pulsed currents, as a result of which its resistance is significantly reduced.

This makes it possible to increase the contribution of the energy transferred from the percussion generator to the arc discharge, and to increase the efficiency and reliability of operation of the device 5. After passing a positive current pulse, the electric arc between the electrodes of the electro-hydraulic radiator goes out and the device returns to its original state.

Claims (2)

1. A seismic signal source containing an electrohydraulic emitter, to the electrodes of which a low-voltage winding of the shock generator is connected to the electrodes, and a two-electrode spark switch is connected to a pulse voltage generator through a two-electrode spark switch, which also connects to a high-voltage source. that, in order to increase the seismic efficiency and reliability of the source, it introduced a pulse current generator connected to a high voltage source, and the lawsuit oic switch provided dopolnitelgeneratora pulsed currents, 2. Signal source according to claim 1, T - which is characterized by the fact that, with a cereal generator, there is a high-voltage winding connected to the input of a high voltage source. W .AND  J5 FIG. 2 Editor P.Geershi Compiled by S.Kutakov Tehred L. Serdyukova Proofreader S. Cherni Order 1969/44 Circulation 731 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production (2-printing-polygraphic enterprise, Uzhgorod, Proektna st., 4