SU681401A1 - Ultrasonic sound logging probe - Google Patents

Description

(54) ULTRASONIC SEISMICALLY-TRAINING PROBE

one

The invention relates to physical studies of materials, mainly rocks, and can be used in mining, engineering geology and geophysics.

A well-known ultrasonic borehole transducer with a cylindrical body and a piezoelectric element placed inside it on a support plate, under which a pneumatic chamber is laid, which serves to press the piezoelectric element to the borehole wall. The piezoelectric element is returned by means of coil springs and a rubber ring mounted on the radiating surface of the piezoelectric element and the sensor body.

The disadvantages of this sensor are the unreliable return of the piezoelectric element due to distortions and jamming of the cylindrical springs, as well as the absence of acoustic insulation between the piezoelectric element and the housing, which prevents the sensor from being used in multisectional seismic logging probes.

The closest to the proposed technical essence is ultrasonic seismic logging

a probe consisting of several sections, each of which contains a piezot element placed in a cylindrical housing with a support plate suspended from the covers of the housing on soundproof elastic straps, and a pressure device.

The disadvantage of such a probe is the bulkiness and rigidity of its

0 design that does not ensure reliable contact of the piezoselements with the rock along the entire length of the probe, as well as strict fixation of the location of the piezoselements, as a result

5 which limits the measurement range of the measurement base length.

The aim of the invention is to improve the reliability of the probe and the accuracy of measuring the speed of ultrasound.

This is achieved by the fact that the connection of the section bodies is made by sliding tubular elements 5 of two diameters from materials with different acoustic rigidity.

The drawing shows an ultrasonic earthquake probe, section.

The device consists of several 0 sections, each of which contains

a piezoelectric element 1 fixed on the base plate 2 and a main chamber 3 placed inside the cylindrical body 4 with end caps 5 and a window b for exiting the piezoelectric element. The support plates are suspended from the case covers on elastic belt extensions 7 insulated by sound and insulation 8, and the sections and pneumatic chambers are interconnected by sliding tubular elements 9 and 10 of two diameters from materials with different acoustic rigidity. The extensions are fixed on the covers of the case by means of clamping planks1m 11. A shielded cable 12 is used to transmit and receive electrical signals.

The device works as follows.

Before sending the logging probe into the well, in all its sections, elastic tape stretch 7 centers the piezoelectric element. 1 relative to the output window 6. Simultaneously with the centering of the piezoelectric element, changing the tension force of the stretch, regulate its return to the initial level. After adjustment, the stretch is fixed with pressure plates on the section bodies.

The expansion of the tubular elements establish the necessary measurement base between the piezoelectric elements. The probe is sent to the well to a predetermined depth using rods. The pump then pumps air into the chambers.

sections and press the piezoelectric elements to the wall dkvazhiny. After the countdown, the air from the chambers is released and the piezoelectric elements are returned to their original position by the action of elastic stretches. Moving the probe through 5 wells, the operations associated with pressing the piezoelectric elements to the squigkin wall are repeated, taking the readout and returning the piezoelectric elements to their original position.

0 The proposed ultrasonic seismic-logging probe ensures reliable operation of the clamping device and the sound insulation of the section between them. The probe of the proposed design allows ultrasound

measurements in wells at variable bases with high performance and accuracy.

Claims (1)

Invention Formula An ultrasonic seismic-logging probe, consisting of several sections, each of which contains a piezbeleme placed in a cylindrical housing with a support plate suspended from the housing covers on soundproof elastic straps, and a pressure device, characterized in that, in order to increase reliability of operation and accuracy ultrasound speeds, the connection of the section bodies is burst out with sliding tubular elements of two diameters from materials with different acoustic rigidity.