SU1117551A1 - Multi-pendulum seismometer - Google Patents

Abstract

HOSITION SEIZMOMETER, comprising a body and a set of spherical pendants connected to the body by elastic suspensions, which is also so that, in order to increase reliability, efficiency and informativity, it also contains magnetoelectric converters made in the form spherical segments located 1) 1X in the gaps of magnetic systems and equipped with two-section coils with stepped layer-by-layer winding, with the turns of each layer arranged with an angular shift, and the resultant angular Motor does not exceed 90, moreover, the elastic under scales formed as bipruzhinnyh sleeves coaxially disposed flexible extensible ierast inserts and coil two-section electrically connected to galvanometers unit.

Description

The invention relates to geophysical instruments and can be used in seismometry in the study of earthquakes, explosions and industrial vibration processes. Multiple semographs are known, containing a set of polarized seismometers, a common magnetic unit, an illuminator, an optical system, a tape mechanism, a recording media carrier. However, the full use of the principle of seismograph and oscillographic recording of the oscillation process on photographic paper, the need for continuous supply of the electronic system with a high current, they reduce the reliability of operation of the above-mentioned multiple seismographs and increase the cost of operation. The closest to the invention is a multi-rotor seismometer comprising a body and a set of spherical pendants connected to the body by elastic suspensions (an IGIS multi-peat seismometer): The seismometer contains a set of spherical pendants weighing 1.65 kg each with periods from 0.05 up to 1.2 s and logarithmic decrements of oscillations from 0.15 to 0.40. In the upper part, the suspension of each tambourine is pressed into a rubber stopper, which regulates the stiffness and attenuation of the tiller. Seismic movement is recorded with a needle on a spherical smoked glass. When processing the data obtained, only one value is used — the maximum needle swing, i.e. doubled oscillation amplitude 2j. The disadvantages of the known multi-seismic seismometer are the instability in time of the oscillating scientific research institute and attenuation, depending on the properties of the used rubber in traffic jams, the presence of unsuitable friction between the steel needle and the glass, the inseparability of the sensor and the recording element, which complicates the work5 of the device in crude values, the difficulty of installing the device B is the working position and its operation. The purpose of the invention is reliability, efficiency; -; information. This goal is achieved by what a many semicometer. comprising a case and a set of spherical tandems connected to the case by elastic suspensions, additionally contains magnetoelectric transducers made in the form of spherical segments fastened with tangs, located in the gaps of magnetic systems and equipped with two-section coils with single-layer winding, and the coils of each layer are angled shear, and the final angular shear does not exceed 90 °, in addition, elastic, suspensions are made in the form of a bip spring sleeves with coaxially arranged flexible Erastus extensible inserts and coil two-section electrically connected to galvanometers unit. Figure 1 shows the device, side view; in fig. 2 is the same, top view, in FIG. 3 - spring insert; in fig. And - coil winding. The transcend seismometer contains a set of spherical non-magnetic pendants 1, having the ability to record in any direction the horizontal movement of the instrument. The pendulum can vertically move and fasten on the rod 2, which in the upper part is connected by a spring-loaded bushing 3 of different length and thickness near the pendants with different periods of oscillation. The sleeves 3 in the upper part are secured in metal clips in the brackets 4, which, at their ends, enter the vertical support column 5. The brackets 4 to the rack 5 are attached at different heights. Below the brackets 4 to the rack 5, the shovel-shaped supports of the 6 pairs of double cladding machines 7 with contiguous opposite poles, in the spherical gap of which the frames with working coils 8 and three-hog hangers 9 are suspended. The upper magnet is attached to the support post by means of the console 10, which holds the arrestor. The seismometer is covered with a cog 11. In the biped-in sleeve 3, there are Tfujips 12 with Bottom 1), which are separated by inserts 13 in the Aida; g; Pg. Mass tubes, which are necessary to ensure the flexibility of the system with horizontal and sphcness from all-gigantic: 5; In the direction of the current, the coil current (FIG. 4) is produced in a light spherical segmetste in two semicircular sections in one direction with a conductor perimeter along a large circumference outside the magnet gap, shifted by a small angle of turns of each overlying layer of the winding wire. The maximum possible rotation of the layers at the end of the winding with respect to the direction of the first coil should not exceed 90. The withdrawal of all non-working parts of the coils from the magnet gap is necessary in order to prevent the occurrence of a counter current in the coils. When the frame moves in any direction other than the vertical, the maximum current arises in the coils located perpendicular to the direction of motion, in the coils angled to the line of motion, a current of Lesser force is produced, which is added to the current of the perpendicular coils. The seismometer is equipped with a block of galvanometers connected to two-section coils 8. To indicate the amplitude of seismic motion from the block of galvanometers, a set of arrows of galvanometers is used according to the number of necessary values of periods and attenuation of oscillations, i.e. the number of handsets and two lightly inertialessing blinds, which are moved apart by arrows. 514 The working position of the device is brought about by uncoupling the thumbnails and bringing the curtains of all galvanometers with arrows closer together. During mixing: the base of the instrument, caused by an earthquake or other oscillatory process, due to the inertia of the pendulous suspension, an emf arises, causing the arrows of the galvanometers to move and move the curtains apart in proportion to the maximum seismic displacement. Since the earthquake spectrum has a wide oscillation frequency band, the opening of the galvanometer shutters connected to master coils with different natural oscillations and decay periods is different. The reading can be carried out either visually or by photographing all the galvanometers at the same time. This results in a spectral picture of seismic movement without the use of preprocessing of the material obtained and calculations. After removing the 1st galvanometer, the device is prepared for operation by moving the curtains with the arrows of the galvanometer. The advantages of the proposed seismometer are the possibility of promptly obtaining seismic information in a wide frequency range, as well as increased accuracy and reliability. Associated with the use of stable in-line pendants and separation of the seismometer and recording system.

Initial turns

Fig.C Final Coils

Claims (1)

MULTI-PENDULUM SEISMOMETER, comprising a housing and a set of spherical pendulums connected to the housing by elastic suspensions, with the fact that, in order to increase reliability, economy and information content, it additionally contains magnetoelectric transducers made in in the form of spherical segments fastened with pendulums located in the gaps of the magnetic systems and equipped with two-section coils with stepwise layer-wound winding, the turns of each layer being located with an angular shift, and the final angular shift pull out does not exceed 90 °, moreover, the elastic under * scales formed as bipruzhinnyh sleeves coaxially disposed flexible inextensible inserts and coil two-section electrically coupled with the block galvanometers>