SU1548760A1 - Source of seismic signals - Google Patents

Abstract

The invention relates to the field of geophysical engineering, namely, to sources of seismic signals. The aim of the invention is to expand the field of application by providing impulse effects on the vibratory source of seismic vibrations. The source contains a support plate 2, a vibration exciter 3, which includes a hydraulic cylinder 4 with a piston 5 and an inertial mass 8, a frame 9 connecting the vibration exciter 3 with a support plate 2. At the ends of the piston 5 there are bores in which plungers 6 are installed that come in contact with the lids 7, rigidly connected to the ends of the hydraulic cylinder 4, and the frame 9 is connected to the base plate 2 and through the holes in the hydraulic cylinder 4 with the piston 5. The cavity 19 formed by the hydraulic cylinder 4, the end of the piston 5 and the cover 7 is connected to the power supply system by line 16 which is installed extra ADDITIONAL accumulator 18 and controlled by a check valve 17 that permits the pulsed effect on the ground. 1 il.

Description

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The invention relates to geophysical techniques, namely, devices for the excitation of seismic vibrations used in the search for oil, gas and other minerals using seismic prospecting. The purpose of the invention is to expand the field of application by providing pulsed effects on the vibratory source of seismic vibrations.

The drawing schematically shows the Brush seismic signals.

The source consists of a vehicle 1, a base plate 2, a vibration exciter 3, including a hydraulic piston | miiflp 4 with a piston 5, plungers 6, mounted on the ends of the piston 5 ii in contact with the covers 7, gesture Connected to the hydraulic cylinder 4 connected to the hydraulic cylinder 4 inertial mass 8, frame 9, rigidly connected to base plate 2 and through overtresses in hydraulic cylinder 4 with piston 5, power supply system 10 with battery and non-return valve connected through hydraulic booster 11 with cavities 12 and 13 formed by the ends of plungers 6 and piston 5, lines 14 and 15 and line 16 through a controlled check valve 17 with an additional battery 18 with a cavity 19 formed by the end face of the piston 5, hydraulic cylinder 4 and cover 7 s Cavity 20, opposite cavity 19, is made open-up0 Between the vehicle 1 and the base plate 2, vibration isolation unit 21 is installed.

The source works as follows.

The source is installed at the physical point. The support plate 2 through the vibration isolation unit 21 is loaded with the weight of the vehicle 1. The working fluid is supplied from the power supply system 10 to the hydraulic booster 11, which according to a given law feeds it into cavities 12 and 13, thereby causing the plungers 6 to move relative to the piston 5. Since the plungers 6 abut against the covers 7 rigidly connected to the hydraulic cylinder 4, the hydraulic cylinder 4 with an inertial mass 8 relative to the piston 5 is displaced.

Due to the fact that the hydraulic cylinder 4 with the inertial mass 8 is heavy, the resulting reactive force is transmitted from the piston 5 through the frame 9 to

Q

with

five

0

five

support plate 2. Thus, the vibrations produced by the vibration exciter 3 according to a given law are transmitted through the frame 9 and the support plate 2 to the ground. The vibration isolation unit 21 damps vibrations transmitted to the vehicle 1.

Claims (1)

In order for the vibration exciter 3 to operate in a pulsed mode, the working fluid (or compressed air) through line 16 is fed through a controlled check valve 17 into the cavity 19, the hydraulic cylinder 4 rises to the upper end position0. Then the hydraulic booster 11 delivers the working fluid through the line 14 into the cavity 13, the hydraulic cylinder 4 moves downward, displaces the fluid from the cavity 19 into the battery 18. The check valve 17 closes and the battery 18 is charged. After that, the hydraulic booster 11 receives a command that connects the cavity 13 through line 14 to with By means of a shower, and the cavity 12 through line 15 - with injection, there is an instantaneous movement of the hydraulic cylinder with an inertial mass 8 upward, the reactive force of the piston 5 through the frame 9 and the support plate 2 is transmitted to the ground. Thus, the vibration exciter 3 generates a pulse, which is transmitted to the soil. A seismic signal source comprising a vehicle, a base plate, a vibration driver, including a hydraulic cylinder with a piston and inertial mass, a frame connecting the vibration driver with a base plate, a vehicle vibration isolation unit, and a power supply system with a battery and non-return valve, characterized by that, in order to expand the field of application due to the provision of impulse effects, j-bores are made at the ends of the piston, in which plungers are installed, which are in contact with lids rigidly connected to the ends of the hydraulic cylinder, and the frame is connected to the piston through the holes in the hydraulic cylinder, with one cavity formed by the hydraulic cylinder, the end of the piston and a blind cover connected to the power system by a line in which an additional battery and a controlled check valve are installed, and the other cavity is open.