RU2094826C1 - Seismic source - Google Patents

Abstract

FIELD: geophysics. SUBSTANCE: device has ultrasound nozzle, force chamber, resonator chamber, constant volume chamber which has flexible walls and is filled with liquid. Latter chamber is located in ground and is connected to resonator chamber through membrane. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to methods and devices for exciting seismic waves and can be used in geophysics.

A variety of methods and sources of excitation of seismic waves are known, such as explosive, shock and vibration [1]
The closest technical solution chosen for the prototype is a device based on the method of exciting seismic waves [2] through which create pulsations of gas pressure on the ground. Self-oscillations are adjusted in a supersonic jet flowing at the entrance to the resonator shaft by changing the distance between the supersonic nozzle and the entrance to the resonator shaft and pressure in the nozzle chamber. The elastic walls of the cavity cavity placed in the soil experience pulsating pressure from the gas filling the cavity shaft. Under the action of a pulsating force, a seismic wave arises in the soil. The oscillation frequency is controlled by the dimensions of the cavity cavity.

 The disadvantage of the prototype is the low power of the resulting seismic waves at high frequencies (f> 100 Hz), which is associated with a decrease in the size of the cavity-cavity with increasing frequency.

 The task of the invention is to increase the power of seismic waves at high frequencies of exposure (f≳100 Hz).

 The problem is solved due to the proposed design of a two-chamber source of seismic waves containing a variable-cavity resonator chamber connected via a membrane to a chamber of constant transmitting volume filled with liquid and placed in the ground.

 These features distinguishing the claimed technical solution from the known, are not identified in other solutions when studying the level of this technical field and, therefore, it is new and has an inventive step.

 The drawing shows a diagram of a source of seismic waves.

 The source contains a supersonic nozzle 1 with a prechamber 2, which are mounted coaxially to the cavity-chamber 3 of variable length. The resonator chamber 3 is separated by a membrane 5 from the chamber with a constant transmitting volume 4. The chamber 4 is placed in the ground and filled with liquid, the walls are made of elastic material (rubber).

 The source of seismic waves works as follows.

 A supersonic jet, flowing out of the nozzle 1, leads to an oscillatory gas flow in the resonator chamber 3. The dimensions of the chamber 3 are set and determined by the necessary frequency of self-oscillations arising. Fluctuations in the pressure of the gas in the chamber 3 through the membrane 5 is transmitted to the chamber 4 with a liquid, where pulsating forces occur, acting on the elastic walls of the chamber and the soil.

 The proposed source allows you to create seismic disturbances of a small wavelength (λ 1 m), operate at a high frequency f 1 kHz and receive seismic waves of sufficient power.

 The tests showed the efficiency and effectiveness of the proposed source to solve the problem.

Claims (1)

 A seismic wave source containing a supersonic nozzle, a prechamber, a resonator chamber, characterized in that it contains a constant-volume chamber with elastic walls, filled with liquid, placed in the ground and connected to the resonator chamber through a membrane.