SU1109697A1 - Geophone - Google Patents

Abstract

SEISMIC RECEIVER, containing a sealed enclosure - with placed in if. one . and ....... g, :: Jt / {, hiE; - TV,:.,.: it is a capillary, inertial mass in the form of a liquid metal, an electrolyte placed in containers connected by a capillary, two electrodes one of which is placed in a liquid metal, the other in an electrolyte, in that, in order to broaden the frequency and dynamic ranges and linearize the characteristics in both directions of the sensitivity axis, the liquid metal is partially placed in the capillary, and the body is divided by a transverse partition into two hermetic compartments filled with gas, with the gas pressure in liquid metal compartment exceeds its pressure in the electrolyte compartment. (L O O5

Description

The invention relates to seismology and can be used to record accelerations, mechanical disturbances. A known electrochemical sensor for detecting small mechanical stresses, containing a protective shell, limited from the frontal sides of the other membranes, filled with an electrolyte and a section divided into two compartments with a narrow channel partition, providing the required accuracy and measuring range h, and due to the use of an additional inertial mass of large magnitude lj. . The disadvantages of this seismic receiver are high hydrodynamic resistance to flow, which reduces reliability and narrow frequency range due to the presence of membranes. The closest to the proposed to the technical essence and the achieved result is a seismic receiver containing a sealed case with a capillary housed in it. mass in the form of a liquid metal electrolyte, placed in containers connected by a cartridge, two electrodes, one of which is placed in the liquid metal, the other in the electrolyte 2 However, Such a seismic receiver has a wide frequency and a low frequency range, and also possesses a nonlinear characteristic in one of the directions of the sensitivity axis. The purpose of the invention is to expand the frequency and dynamic ranges, as well as linearize the characteristics in both directions of the sensitivity axis. The goal is achieved by the fact that in a seismic receiver containing a hermetic body with a capillary placed in it, an inertial mass in the form of a liquid metal, an electrolyte placed in capacitances connected by a capillary, two electrodes, one of which is placed in a liquid metal, the other in an electrolyte , the liquid metal is partially placed in the capillary, and the shell is divided by a transverse partition into two sealed compartments filled with gas, and the gas pressure in the compartment with liquid metal exceeds its pressure in the compartment with electrolyte. In the drawing and Pictured seismic receiver. The seismic receiver contains a hermetic case 1 with two hermetic compartments 2 and 3 separated by a partition, connected by a capillary 4, leaving its broadened ends 5 and 6 deep into the compartments 2 and 3. The broadened end 5 is filled with liquid metal 7, and the electrolyte 8 is placed in the capillary 4 and in its broadened end 6. The position of the edges. Section 9 liquid metal - electrolyte is caused by the pressure difference of gases in compartments 2 and 3. Electrolytes 10 and 11 respectively provide a current lead from the liquid metal 7 and electrolyte 8. The proposed seismic receiver works as follows. In the dynamic mode of operation of the device, under the influence of mechanical disturbances, the interface between liquid metal-electrolyte moves, the length of the electrolyte column in the capillary changes, and, consequently, the resistance of the geophone, as well as the resistance when the alternating power source is connected to the electrodes 10 and 11 current is determined by the length of the electrolyte column in the capillary. When the disturbance ceases, the boundary of the section 9 liquid metal is that the electrolyte returns to its original position. Densities at the ends of the capillary 4 reduce the hydrodynamic resistance to the flow of the electrolyte and the liquid metal. The operating position of the geophone is vertical. Meter-. on the axis (axis of sensitivity) passes, along the extended capillary 4. The choice of a certain (always the same) pressure difference in compartments 2 and 3 provides the location of the liquid metal-electrolyte interface in the capillary, which, in turn, leads to linearity of the characteristic in both directions m. (upward) axis of sensitivity and increasing sensitivity, since the pillar. liquid metal (mercury) will be in the capillary. By selecting the absolute pressure values in the compartments (with the same difference), the frequency range of the seismic receiver can be changed. The shape of the suspension of the liquid metal column due to the different pressures in the compartments ensures a reliable return of the liquid metal to its initial position after removing mechanical disturbances, which put 3,119,96974

impact on the wide enough frequency and range of the device. The dynamic ranges, which is very important. Using the invention will allow in seismology, in the service of control

make reliable measurements of the signals of the earth's seismic background.

Claims (1)

A SEISMIC RECEIVER containing a sealed enclosure with a capillary located in it, an inertial mass in the form of a liquid metal, an electrolyte placed in containers connected by a capillary, two electrodes, one of which is placed in a liquid metal, the other in an electrolyte, and so on, that, in order to expand the frequency and dynamic ranges and linearize the characteristics in both directions of the sensitivity axis, the liquid-metal is partially placed in the capillary, and the body is divided by a transverse partition into two sealed compartments filled gas, and the gas pressure in the compartment with the liquid metal exceeds its pressure in the compartment with the electrolyte. 1 1109697