SU393710A1 - METHOD OF SETTING PENDULAR SEISMOMETERS - Google Patents

Description

one

The invention relates to a pendulum seismometer used to study the seismicity of the satellites of the solar system: the Moon, Mars, etc.

It is known that when an -seismometer is installed, for example, on the moon, the weight of the inertial mass of the seismometer decreases by 5.6 times; the electrical and mechanical parameters of the three-boron change accordingly: sensitivity, attenuation, period. The springs holding the inertial mass of the seismometer suspended in them under the conditions of the Earth in zero position will raise the inertial mass, as it has become 5.6 times lighter. The device stops working.

A foreign-made lunar seismometer is known for Surveyor and Apollo (experimental lunar seismometer). In the known seismometers, an electromotor, photoresistance, incandescent bulbs, power sources, etc. are necessary for ensuring automatic posting. Thus, the seismometer for Surveyor and Apollo consumes 15 watts of power.

The aim of the invention is to create a method for tuning a satellite seismometer, which makes it possible to determine the electrical parameters of the instruments under the Earth’s conditions while retaining these parameters after installing the instruments on other satellites and

/ planets without the use of hanging and corrective devices, and, consequently, without power sources.

The goal is achieved by the fact that under Earth conditions the weight of the coil of the seismic receiver is 5.6 times less than the weight of the magnetic system.

FIG. Figure 1 shows the relative position of the elements of the seismometer when it is installed in the Earth: a is a vertical section; b, c - spiral-ray spring, d - position of the spring relative to the cushion; in fig. 2 - the relative position of the elements of the seismometer circuit when it is installed on the moon.

The seismic receiver contains the container 1, the magnetic system 2, the coil 3, the tube 4 with the spring attachment details, two spiral radiators 5, two conical clamps 6, locking screws 7, the stop 8.

The magnetic system 2 with the help of locking screws 7 is pressed against the support 8 to the container 1 (Fig. 1, a). The conical clips 6 are encased in the tube 4. The coil 3 is mounted on the tube 4 and is connected via a spiral-beam spring 5 to the magnetic system 2. Under Earth conditions, the coil with pneumatic is a mobile inert mass that can oscillate. The weight of the coil with the tube and the parts attached to (springs is 5.6 times less than the weight of the magnetic system 2.

Spiral-beam springs (Fig. 1, b) are installed in a position whereby the outer rings of the springs are clamped on the magnetic system 2, the inner rings are clamped on the coil 3, while the springs are turned so that when mounted on them, the coils and the tubes spring attachment the inner ring of the spring will become in one plane with the outer ring of the spring (Fig. 1, d).

When using a seismometer under the conditions of the Moon, the locking screws 7 are unscrewed (Fig. 2a), the springs 5 are removed from the installation site, rotated around the section through 180 ° and re-installed into place. The conical clips 6 are screwed to the position where the tube 4 is wedged between them. The stop 8 will move away from container 1, in the conditions of the Moon, the weight of the magnetic system 2 will become equal to the weight of the coil with a tube in Earth conditions, and the spiral-beam springs (Fig. 2.0) rotated 180 ° around their section will lift the magnetic the system and put it in the same position as the coil with the tube in the Earth conditions. In this case, the inert mobile mass will become the magnetic system 2, which will be stirred relative to the fixed coil and the tube.

FIG. 1.6 shows the spring, the outer ring of which, when inserted into the device, is clamped on the magnetic system, and the inner ring on the coil frame (fig., C). Pa feg. 1, g shows the position of the spring when its weight is loaded. In terms of the Earth

this mass is a coil 3 with a tube 4. Pa. FIG. 2, c, d shows the position of the spring in the conditions of the Moon: the inner ring of the spring is fixed (Fig. 2, e), and the outer ring fixed on the magnetic system 2 is movable.

Pa figs. 2, Z shows the position of the spring when loaded with its mass under the conditions of the Moon. This mass is a magnetic system 2, the weight of which has become equal to the weight of the coil with a tube in the Earth conditions.

The seismometer can be used in the Moon conditions without turning the springs 5. In this case, the device should be installed upside down, while it is necessary to remove the stoppers 7 and clamp the tube with 4 conical clips 6.

Subject invention

A method of setting up an earth seismometer containing a coil with a winding and a magnetic system, characterized in that, in order to determine the mechanical and electrical parameters of the seismometer under the Earth’s conditions for further use, for example, on the Moon, the magnetic system of the seismometer is fixed and fixed as an inert mass uses a coil with a winding, register elastic oscillations, and then fix the coil with a winding fixedly and use a magnetic system as an inert mass, while setting coils wound 5.6 times less than the weight of the magnetic system.

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