SU532835A1 - Seismic source - Google Patents

Description

one

The invention relates to geophysical prospecting of mineral deposits, such as chromites, sulphide p-uts, and can be used as a source of seismic signals when emitting a research institute of increased sound absorption in the interwell space, fracture zones, and contacts of heterogeneous acoustic stiffness of rocks to determine the elements of the bed, the size of the absorbers and their absorption coefficients, as well as to determine the speed of propagation of sound vibrations.

Known apparatus for interwell acoustic transmission with a transducer emitting a tone signal 1}

However, the capabilities of this equipment, in which downhole resonators are used as sound emitters, are limited only by amplitude measurements at fixed frequencies and do not allow measuring the speed of sound.

The ability to measure the amplitude and speed of sound at fixed frequencies is embedded in devices based on R) Names as sources of excitation of magneto-richdia converter.

Also known is a downhole magnetostrictive transducer, the oscillatory system of which is located along the axis of borehole 2. The transducer is two-way with a concentrator having a paraboloid of rotation attached to one of the ends of the magnetostrictive package. This leads to the fact that, along with directional radiation into the array of transverse and longitudinal waves from the concentrator, simultaneously non-directional emission of elastic energy from the free end of the converter occurs. Cross-well acoustic sounding using known transducers requires information on their orientation in the well, taking into account a complex radiation pattern, and is ineffective due to the fact that most of the radiated acoustic energy is carried along the well and radiated to the rock at an angle of 56 to the longitudinal radiator axis.

Claims (3)

The source of seismic signals with a magnetostrictive transducer, made in the form of a cylindrical cup with the end of a non-emitting side jammed with the help of a blown chamber end 3, taken as a prototype of the present invention, has much better radiating properties. However, the creation of an efficiently operating B wells of a one-sided magnetostriction converter is associated with overcoming the effect of hydrostatic pressure on the filling of the non-emitting end of the converter. Under the pressure of 30-40 atm, which corresponds to the immersion into the well to a depth of ZOO-350 m, materials such as porous rubber, a corporation, a paper bag lose their sound-insulating properties, and at hydrostatic pressures up to 100-120 atm porous or Laminated solid soundproofing materials become ineffective. The purpose of the invention is to increase the intensity of the radiating signal under conditions of increased hydrostatic pressure. For this, in the device, the plugged end of the converter is elastically connected with the power of a rubber sealing ring with a cylindrical machine, the ring being placed at a distance corresponding to the antinodes of the oscillations of the converter, and the cup is rigidly attached to the magnetostrictive converter at its own oscillation. The drawing shows a block diagram of the device. The source of seismic signals consists of a magnetostrictive package 1, a cylindrical nozzle 2, a sealing ring 3 and a cylindrical glass 4, fixed with rigid connections 5 to the magnetostrictive package 1 in its oscillation unit 6. A nozzle is attached to the radiating end of the magnetostrictive package 7, the magnetostrictive packet is placed in the protective housing 8, rigidly coupled with it in the vibration assembly. Windows 9 are cut in the protective housing on the side of the radiating end and a conical reflector 10 is installed. The oscillating vibrations excited in the magnetostriction package are reflected from the air gap 11, soe 5 of this blog with the presence of a sealed chamber, measure the phase by 180 and folding in phase with oscillations reaching the radiating attachment, with the help of a conical deflector, they are radiated through the windows of the protective housing into the environment. The emitter becomes one-sided and pinpoint. The sound pressure level of such an emitter reaches 120-130 dB with an electric power of no more than 0.5 KW and its use allows interwell sounding in the intervals of depths from 20 to 1000 m with distances between driver and receiver from 30 to 30%. The use of a set of borehole radiators with magnetostrictive packets of various lengths allows acoustic translucence at fixed frequencies of the sound range. The invention The source of seismic signals with a magnetostrictive transducer, made in the form of a cylindrical cup with a end filled with a non-radiating side using an air chamber, is characterized by the fact that, in order to increase the intensity of the radiated signal under conditions of high hydrostatic pressure, it has a muffled end face elastically connected by means of a rubber sealing ring with a cylindrical cup, the ring being placed at a distance corresponding to the antinode of the collar The converter is fixed, and the cup is rigidly attached to the magnetostriction converter in the node of its own oscillations. Sources of information taken into account in the examination: 1. Author's certificate number 313192, M. Kl. C, 01 V 1/40, 31.08. 1971. 2.Rzhevsky V.V., Yamshchikov V.S. Acoustic methods of investigation and control of rocks in the massif. Science, M „1973, p. 164. 3. Bergman L. Ultrasound and its application in science and technology, IL. , 1956 (prototype).