SU1679435A1 - Source of seismic waves - Google Patents

Abstract

The invention relates to non-explosive sources of seismic signals and is intended to excite longitudinal waves in the ground. The purpose of the invention is to improve the manufacturing process, simplify the assembly and reduce the size. The source contains a cup 1 of a sealed tank, bonded to the radiating plate 6t of the shell 2 with flanges 3 and 4, inside which the inertial mass 14c is placed with a guide surface. Between the lower flange 4 of the shell 2 and the glass 1, a rigid transverse partition 8 is installed, on which the inductor 9 of the exciter is fixed. The upper flange 3 of the shell 2 is installed between the removable L-shaped lugs 20 and the buffer 19 located on the supporting end in the upper part of the inertial mass 14. This ensures, when installed inside the shell, simple technology of manufacturing, assembling and disassembling with convenient access to the internal source nodes, reduces the size. 1 il. Z / Ё 5 yu ate

Description

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The invention relates to non-explosive sources of seismic signals and is intended to excite longitudinal waves in the ground,

The purpose of the invention is to improve the manufacturability, simplify assembly and reduce size.

The drawing shows the source of seismic waves, a general view.

The source of seismic waves contains a sealed tank filled with liquid, the body of which includes a cup 1, equipped with a shell 2 with the top 3 and bottom 4 flanges. Glass 1 has a rigid bottom 5, bonded to the radiating plate 6. Between the flange 4 of the shell 2 and the flange 7 of the lower part of the glass 1 there is a rigid transverse partition 8, on which the inductor 9 is mounted, the mechanical vibration exciter.

The partition 8 divides the cavity of the hermetic tank into two parts. The lower cavity 10 of the hermetic tank is filled with liquid and gas, and the upper cavity 11 is completely filled with liquid. Inside the inductor 9 placed measles 12, which plays the role of a piston. The installation of the core 12 to its initial position is carried out with the aid of a stop 13 mounted on the bottom 5 of the cup 1.

The inertial mass 14 is provided with a guide surface 15 and is located in the shell 2 of the cup 1 with axial movement along bearings 16 mounted on the guide surface 15 of the inertial mass 14. The side clearance between the shell 2 and the guide surface 15 is sealed with sealing rings 17 To limit the stroke of the inertial mass 14 in the axial direction, at its supporting end 18, a buffer 19 and removable stops 20 are L-shaped, with the possibility of their interaction alternately with the upper flange 3 of the sleeve 2. ravlivanie air bubbles from the working chamber 11 sealed tank is effected via a tube 21.

The source is assembled as follows. The lower part of the glass 1 is fastened to the radiating plate 6. On the partition 8, the inductor 9 of the mechanical vibration exciter is fixed. The partition 8 assembled with the inductor 9 is installed on the lower part of the cup 1, and the inductor is located in the cavity 10. The measles 12 of the mechanical vibration exciter from vnop U are installed. The partition 8 is set with 2, With the help of flanges 4 and 7 of the oscillator. and bottom

a portion of the cup 1 is rigidly fastened. An inertial mass 14, on the supporting end 18 of which buffer 19 is fixed, and on the guide surface 15 - sealing rings 17, is installed inside the shell 2, oriented by bearings 16. Inertial mass 14 is automatically under the action of its own weight mounted on the upper flange 3 through a buffer

0 19. Removable stops 20 are installed, which are fixed to the supporting end 18 of the inertial mass 14, for example, by means of a bolted connection (not shown). At the end of the assembly, the cavities 10 and 11 of the sealed tank are filled with the working fluid. When operating between the lugs 20 and the flange 3 of the shell 2, there is a gap 22, which eliminates the interaction of the flange 3 with the stop 20 when seismic waves are excited.

The source works as follows.

At the place of seismic prospecting, the source is installed on the ground surface with the help of radiating plate 6. At the same time, inertial mass 14 presses radiating plate 6 through buffer 19 in contact with flange 3 of shell 2. Anchor 12 of mechanical exciter

0 oscillation is in the initial position on the stop 13.

When an electric pulse is applied to the windings of the inductor 9, an electrodynamic force arises on the core 12, which moves it upwards in the axial direction. The fluid pressure in the working cavity 11 increases dramatically. Under the action of this pressure, the inertial mass 14 is moved upwards, and the inductor 9 in assembly with interchangeable 8, cup 1, shell 2 and radiating plate 6 moves downwards. As a result of the action of the radiating plate 6, a seismic wave is emitted on the surface of the earth.

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After the termination of the electric impulse supplied to the windings of the inductor 9, the measles 12 under the action of the pressure of the liquid in the working cavity 11, due to the weight of the inertial mass 14 and the elasticity of the earth, return to their original position on the stop 13. strength of power and set

5 on the flange 3 of the shell 2 with the help of buffer 19.

After that, the source is ready for the next pulse.

The use of the present invention allows to improve the manufacturability

design, reduce the size of the source.

Claims (1)

Claims of seismic sources containing a sealed tank, the body of which is designed as a sealed glass cup, a mechanical vibration exciter mounted on a rigid partition dividing the cavity of a sealed tank into two cavities, one of which is filled with liquid and gas, and the other liquid the inertial mass mounted for movement relative to the glass, and the radiating plate bonded to the glass are distinguished, and five and so that, in order to improve the manufacturability, simplify assembly and reduce dimensions, a shell with upper and lower flanges is mounted on the glass, a rigid transverse partition is fixedly fixed between the cup and the shell, sealed from above by an inertial mass made in the form of a stepped cylinder, less the stage of which is enclosed by the shell, and the large step of the bate through the buffer on the upper flange of the shell and is equipped with removable L-shaped clamps covering the upper flange of the shell th interact with it in a vertical Move schenii.