SU575592A1 - Seismoreceiver - Google Patents

Description

This invention relates to vibration measurement technology and can be used in seismic instrumentation.

A seismic receiver is known, which comprises a housing, a magnetic system, which was subdued in May, su, connected to the housing by an elastic suspension consisting of iris and cylindrical springs. Such an elastic suspension has a low rigidity and a large supporting force, providing a heavy moving mass with a low natural frequency and a predetermined working position.

The described geophone; It has a major flaw. Due to the non-linearity of the load characteristics of the iris springs, the total load characteristic of the elastic suspension is also non-linear, which causes a significant dependence of the natural frequency on the position of the moving mass, which can vary for many reasons, including temperature changes, the instrument axis of the instrument, and fatigue deformations in the springs.

The aim of the invention is to increase the stability of ensuring independence of

frequency and attenuation of ccMicMouiineMjruKa from the change in the angle of its temperature ycTajiODKii it.

After the chain is reached, it is due to the fact that on the ground and on the body there are 1 cm 1 of 1 sec (the cable is mounted on the co-axes, according to the movement of the moving mass, iiocTosuiUbie magnets facing each other with the same poles.

FIG. 1 shows a section of the proposed seismic receiver; in fig. 2 - load characteristics of the elastic suspension of the moving part of the seismic receiver

The magnetic circuit of the seismic receiver consists of a permanent magnet 1 with two pressed-on pole lugs 2 and an annular magnetic circuit 3. The magnet with pole lugs is centered in the housing 4 using the bottom 5 and the rivet 6 and forms an annular magnetic gap with the magnetic circuit in which the iris springs 8 form and 9 is suspended coil 7 with two windings. Iris springs attached to the coil of the roller center it in the gap and create the main force

to keep the coil in working position. A coil spring 10 is fixed at the upper end of the coil 7 to adjust the natural frequency and precisely set the coil to the working position, the other end of which is fixed through an adjusting device 11 on the bracket 12. At the upper end of the coil 7 a permanent magnet 13 is fixed. a permanent magnet 14 fixed in the frame 15, which screwed on the cylinder 16 fixed on the lid 6. Turning the frame 15 changes the distance between the magnets 13 and 14. The iris springs | 8 and 9 are prestressed, therefore when working in the position: close to flat, it also has a large supporting force and, due to the cylindrical spring 10, low rigidity. FIG. 2 curve A is the total load characteristic: an elastic suspension consisting of iris springs 8 and 9 and a cylindrical spring Y.

The required value of its own frequency at the selected position of the moving mass is achieved by varying the rigidity of the linear cylindrical spring 10 by changing the number of active turns of this spring by screwing or unscrewing the thread part of the 1J device from the spring. In this case, the change in the amounts; the arian acting force is compensated by changing the tension of the spring 10 by moving the device 11 in the bracket 12

The loading characteristic of the additional elasticity, formed by the interaction of the magnets 13 and 14, is shown in FIG. 2 curve B. This characteristic is nonlinear in its physical nature. Therefore, it can be selected plot about with a curvature, close and opposite in sign to the curvature of the load characteristics of the iris and cylindrical springs. The choice of this section is made by changing the distance between the magnets 13 and 14. The varying supporting force is compensated by changing the tension of the cylinder spring 10. The total load characteristic of the suspension of the moving mass within the area a b can be obtained in a high degree of linear, with a given stiffness K, providing the moving mass the required value of the natural frequency.

Other variants of the seismic receiver are also possible, depending on the choice of the working section on the load characteristic of the suspension and the location of the permanent magnetic mounted on the body of the geophone in relation to the selected section of the characteristic.

Claims (1)

Claims of the invention Seismic receiver, comprising a case, a magnetic system, a moving mass connected to the case by an elastic suspension consisting of iris and cylindrical springs, characterized in that, in order to increase stability to ensure independence of natural frequency and attenuation of the seismic receiver from changes in its installation angle and temperature , on the moving mass and on the case of the seismic receiver, CEPS are installed, in the direction of movement of the moving mass, the permanent magnets facing each other in the same pole. Vuf. one (fut.Z