SU205322A1 - DEVICE FOR THE EXCITATION OF SEISMIC VIBRATIONS - Google Patents

Description

The known devices for exciting seismic vibrations, consisting of an inert ussha magnetic system and a reference slab, make it possible to excite persistent harmonic oscillations, but do not allow the creation of single or ground seismic impulses of the desired shape and duration.

The proposed device provides the ability to select the optimal shape and duration of the pulse and adjust its parameters during operation. Its distinguishing feature is that the magnetic system is made in the form of a magnetic circuit, an excitation winding fed by a DC generator and a pulsed winding placed in an annular air gap of the magnetic circuit and connected to an electrical circuit for supplying current pulses to the winding. The electrical power supply circuit consists of a series-connected charging register, a charging valve, a delay unit, a discharge valve and throttle and in parallel the batteries and non-return valve. In addition, the support plate is provided with a damper (for example, oil), the stem of which is associated with the inert mass.

The device contains a magnetic circuit consisting of parts 1, 2, 3, and 4, an excitation winding 5, an impulse winding 6, a coaxial current lead 7, a base plate 8, and an oil damper 9.

The power supply circuit, in addition to the windings 5 and b, includes a DC generator 10, a charging resistor 11, a charging valve (thyristor) 12, a delay unit 13, a discharge valve (thyristor) 14, a battery 15 of capacitors, a reverse valve 16 and an adjustable resistor (or choke) 17 for adjusting the pulse width. The device is installed on the cleaned

from loose soil cover.

Powered by generator 10, winding 5 creates a powerful magnetic note in the magpitube. In the air gap of the magnetic circuit, the working winding 6 is placed. When current passes through the winding 6, which is placed in the air gap of the magnetic circuit, a shock occurs that is directed along the vertical axis of the device. The impact force through the support plate 8 is transmitted to the soil surface.

Under the action of impact, the entire device rises to a height proportional to the impulse of force and inversely proportional to the mass of the device. To ensure a shock-free return of the device to its original position

devices that prevent free movement upwards, MO slowing down its movement.

The current pulses into the winding 6 are supplied as follows. The control pulse through the input 18 and the delay block 13 enters the charging valve 12. The latter opens and the battery .15 is charged from the generator / O through the charging resistor // and the valve / 5. After the current decays, the valve J2 closes. When a new control pulse is fed to the input 18, the capacitor battery 15 is discharged to the winding 6 through the open discharge valve 14.

The resistor (or choke) 17 is used to select the required duration of the discharge impulse, i.e. the duration of the mechanical shock. A reverse (shunt) valve 16 is necessary to prevent the oscillatory process in the discharge value and to prevent recharging (polarity reversal) of the battery. The use of a shunt fan allows the use of electrical capacitors.

The delay unit 13 must be designed for a time longer than the full discharge time of the battery. Then, after the battery is discharged, the valve M will close and then the valve 12 will open to recharge the battery 15.

Magnetic flux can be created without using winding 5 by performing

all or part of the links 2, 3, 4 magnetobods from a material with high coercive force.

Subject invention

Claims (3)

1. A device for the excitation of seismic vibrations, containing onorny nlitu, magnetic system with an inertial mass and power supply circuit, characterized in that, in order to select the optimal shape and duration of PM and its parameters in operation, the magnetic system is made in the form of a magnetic core, an excitation winding connected to the DC generator and a pulsed winding placed in an annular air gap of a magnet duct and connected to an electrical circuit for the injection of current pulses into the winding. 2. Device of claim 1, characterized in that the electrical circuit consists of a series-connected charging resistor, charging valve, delay unit, low-pressure valve and throttle and parallel connected batteries (for example, a capacitor) and a non-return valve. 3. The device according to claim 1, characterized in that the on-plate is provided with a damper (e.g., oil), the brushes of which are made up with an inert mass.