SU1187123A1 - Source of seismic oscillations - Google Patents

Abstract

ELECTRODYNAMIC seismic sources, comprising controlling the operating mode system, the active node with the power windings of the armature and the reactor three phase sinhronny generator and a three-phase rectifying mntelny bridge, whose output is connected to the power windings of the armature and the reactor, characterized in that, in order to increase the reliability and durability the source, as well as reducing its dimensions and weight, a thyristor, a thyristor-diode unit, a sensor unit for passing an electromotive force through a zero value are entered into it, which are kinematically connected to a three-phase synchronous generator, and electrically - one output of each sensor through a diode and an adjustable resistor is connected to a control electrode of a thyristor shunted by a diode of a thyristor-diode unit, the second outputs of the sensors are combined and connected to the first output of a three-phase down-bridge, (L the second output of which is connected through the thyristor, the control electrode of which is connected to the operating mode control system, is connected to the input of the active node, and the outputs of the three-phase synchronous windings th generator through thyristor-diode unit connected to vho00 give three phase bridge rectifying unit. W s

Description

1 The invention relates to electrodynamic sources of seismic vibrations and can be used during continuous seismic exploration of mineral resources. The purpose of the invention is to increase the reliability and durability of the source of seismic vibrations, as well as to reduce its weight and overall dimensions. The drawing shows a power supply and control circuit for an electrodynamic source of seismic vibrations. It includes an active node containing power windings 1.1. and 1.2 core and reactor, a three-phase rectifying bridge with diodes 2.1.-2.6 a three-phase synchronous generator 3. The connection of a three-phase rectifying bridge with a three-phase synchronous generator 3 is carried out through a thyristor-diode unit, including thyristors 4.T, 4.2 and 4.3, shunted by diodes 5.1., 5.2, 5.3. The three-phase generator 3 is mechanically connected to the sensors 6.1-6.3 passing the electromotive force of each phase through zero. Sensors 6.1-6.3 are connected by one of their outputs through an appropriate variable resistance 7-9 and diodes 10-12 for protection of the control circuit from a power electrical signal connected to the control electrode of the corresponding thyristor 4.1-4.3, and their second inputs are connected to the positive potential of a three-phase emergency bridge -. The negative output of the three-phase expressive bridge is connected to the power windings of the core and reactor of the active node I via the thyristor 13, the control electrode of which in turn is connected to the system controlling the operation of the seismic source (link not shown). At the output of the active node, a normally open contact 14 is connected, connected to the inputs of the three-phase switching bridge through diodes 2.1-2.3. On the opposite side with respect to the inputs, the three-phase bridge also contains 2.4-2.6 diodes. The synchronous generator has outputs of 15-17 phase windings. In phase 17 32 of the synchronous generator 3, an actuator coil 18 is connected in parallel with the auxiliary contact 19, the On button. 20 and the Off button. The operation of the circuit is as follows. When you press the On button. 20 starter coil closes contact 14 and the block-contact 19. Circuit included. Next, a seismic signal is supplied to the control electrode of the thyristor 13. As soon as in one of the phases, for example in phase 15, the synchronous generator 3, the EMF is zero, a signal from its inductive sensor 6.1 is applied to the control electrode of the thyristor 4.1. When a positive signal is applied to the control electrode, the direction of the current in the power circuit and the control thyristor peer coincide, the latter opens and begins to pass current. The current flows through the circuit as follows: from phase 15 through thyristor 4.1, diode 2.1, thyristor 13, windings 1.1 and 1.2, diodes 2.2, 2.3 into phases 16 and 17 of a three-phase synchronous generator 3. At the same time, synchronous generator 3 operates in a sudden, short mode closures. The amplitude of the power pulse and its flow time are determined by the parameters of the windings 1.1 and 1.2 of the active node, the synchronous reactance of the circuit in the sudden three-phase short circuit mode of phase 15 and the component of its activation. The current and time of its flow occur at the turn-on of phase 15 at the moment when the emf is induced in it, equal to 0. The corresponding moment of switching on each of the three thyristors 4.1, 4.2 and 4.3 is ensured by adjusting the trimmers 7-9. A drop in the current flowing through the thyristor 4.1 to O results in its closure and the overlapping of the current passing through the windings 1.1 and 1.2. in the case of a signal from the seismic station, when an emf is induced in phase 16 is equal to 0, the positive signal from sensor 6.2 opens thyristor 4.2. The current flows through the circuit as follows: phase 16, thyristor 4.2, diode 2.5, thyristor 13, windings 1.1 and 1.2 of the active node 1, contact 14, diodes 2.3, 2.1,

5.1, 5.3, phases 15 and 17. When a signal is sent to the thyristor 13 from the seismic station when the value of the EMF is induced in phase 17 is O, the positive signal from sensor 6.3 opens the thyristor 4.3 and the current flows through the circuit as follows: phase 17 , thyristor 4.3, diode 2.6, thyristor 13, test-notes 1.1 and 1.2, contact 4, diodes 2.2, 2.1, diodes 5.1 and 5.2, phases 15 and 16.

Thus, the circuit provides the opening of thyristors 4.1, 4.2

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and 4.3 only at the time of passage of the EMF of the corresponding phase through O and, as a consequence, the maximum current pulse in the windings, which, when the charging unit is removed, determines the ratio of the frequency and amplitude of the force, giving the same seismic effect as with the charging unit devices. The exclusion of the charging unit design from fO increases the reliability and durability of the source and reduces its overall dimensions and weight.

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Claims (1)

ELECTRODYNAMIC SOURCE of SEISMIC OSCILLATIONS, containing an operating mode control system, an active unit with armature and reactor power windings, a three-phase synchronous generator and a three-phase rectifier bridge, the output of which is connected to the armature and reactor windings, characterized in that, in order to increase reliability and the durability of the source, as well as reducing its overall dimensions and weight, a thyristor, a thyristor-diode block, a block of sensors for the passage of electromotive force through a zero value are introduced into it, which kinematically connected to a three-phase synchronous generator, and electrically one output of each sensor through a diode and an adjustable resistor connected to the control electrode of a thyristor shunted by a thyristor-diode diode - · block, the second sensor outputs are combined and connected to the first output of a three-phase rectifier bridge, the second whose output is through a thyristor, the control electrode of which is connected to the control system of the operating mode, connected to the input of the active node, and the outputs of the windings of a three-phase synchronous generator ora through thyristor-diode unit connected to inputs of a three-phase rectifier bridge. SU „„ 1187123 eleven