SU756332A1 - Piezoresonator sensor of seismic oscillations - Google Patents

Description

The invention relates to geophysical instrumentation and can be used to measure seismic oscillations in deep water conditions _

Noah marine seismic, into the well ^e zhinah and on land.

A piezoresonator sensor is known, which comprises a piezoresonator made in the form of a lens or plate, to the edges of which a measured force or sensitive element is directly applied, for example, the inertial mass of a seismic receiver.

A sensor is also known which contains a body, two identical membranes, two piezoresonators and an inertial mass fixed between the membranes. The resonators are symmetrically fixed in the heel of the membranes and the housing.

The disadvantages of the known device low sensitivity, complex construction and low-tech when assembling. - ,.

The purpose of the invention is to increase the sensitivity of the device.

This goal is achieved by the fact that in the proposed sensor the elastic "element is made in the form of a cylindrical cup with a console and with a rigid

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the base of the hole, inside of which two piezoresonators are rigidly mounted on the supports on the walls of the glass.

The drawing shows the proposed sensor, the overall appearance.

The sensor consists of a cylindrical cup 1 with a rigid base 2 and a console 3. On the inner walls of the glass, they are rigidly and symmetrically fixed on the supports of the acousture And two identical piezoresonators 4 and 5.

The sensor works as follows.

Under the action of the force G applied to the upper end of the console 3 and orthogonal to the plane of the plates of piezoresonators 4 and 5, a moment of force Μ = Ρ · создается is created on the walls of the glass, which causes equal in magnitude but different deformations of the piezoresonators. The deformations of the piezoresonators, in turn, lead to the same in magnitude, but different in sign, the deviation of the resonant frequencies, which is proportional to the applied force G. The frequency departures of the piezoresonators can be recorded by their inclusion in any of the known autogenerators.

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756332

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combined elastic element and body, which reduces the number of structural components, and its shape is convenient

in the assembly.

circuits as frequency-emitting elements, followed by subtraction of frequencies, which provides a differential sensor. The sensitivity of the sensor can vary over a wide range by varying the length of the console to and the height of the supports V *. The sensor works reliably at high external pressures and can be used to measure force and weight. When mounted on the end of the mass console, it will be able to measure accelerations, seismic oscillations. If the mass is replaced by hydro or aerodynamic resistance, then it becomes possible to reliably measure the flow rates of the liquid or gas. This suggests that the functionality of the proposed sensor is wider than the known one. Sensor contains

Claims (1)

Claim A piezoreonator seismic oscillation sensor containing a cylindrical elastic element, a console and two identical piezoreononators, characterized by the fact that • in order to increase the sensitivity of the device, the elastic element is made in the form of a cylindrical cup with conical salt and with a rigid base at the hole, inside of which two piezoresonators are rigidly fixed on supports to the walls of the cup.