SU35392A1 - Gravitational variometer - Google Patents

Description

There are gravitational variometers in which the moment of gravitational forces is measured not by the free deflection of the rocker arm in the horizontal plane, but by the measured torque introduced by known methods, which presses the end of the root arm weakly against the stop located near it. When the rocker arm lags behind the stop, the entered torque will not be equal in magnitude, but opposite in direction to the desired moment of gravity. In the proposed gravity variometer, various devices are used for ease of use of the device.

The schematic drawing shows a perspective view of a gravitational variometer.

A gravitational variometer consists of an inclined rocker arm 1 suspended on a torsion thread forming axis 2 of rotation. By the beam, symmetrically with respect to axis 2, mirrors 3 and 4 are fixed, which, together with mirrors 5, 6, 7 and 8 installed outside the beam, form a dual Michelson interferometer. Mirrors 5, 6, 7, and 8 are mounted on a stand 9 supported by a spring 10 and located below (387)

The micrometer screw II is controlled by cord 12. A contact is placed near the rocker arm in the form of a folding blade 13, which is perpendicular to the blade 14 fastened on the rocker arm. plate-shaped weights 17 and 18 or plates independent of the weights, placed between the poles of the damper magnets 19 and 20. Lever 21 is fixed on the suspension thread, the end of which rests on the micrometer screw 22 controlled by the cord 23. None N suspension point 24 is covered by the magnet yoke 25.

Instead of one contact 13-14, two contacts symmetrically arranged with respect to the axis 2 of the suspension can be applied. In this case, the design is missing everything, the magnets are dampers.

In order to measure the suspension thread 2 by operating the cord 23 of the screw 22 on the lever, 21 twist it so as to impart a torque 1 torque exceeding the moment of gravity forces, due to which the rocker comes into fixed contact with the blade 13. Then reduce the steepness the moment until it becomes equal in magnitude, but opposite to the moment in gravity. After that, the separation of the rocker arms from the stop will begin, which can be observed using an interferometer. The measured torque corresponding to the beginning of the movement of the rocker arm from the stop gives the value of the desired moment of gravity forces.

The same device can be used differently, namely, by folding the blade 13, produced by the mechanism available for this, a quick movement reduces the twist of the thread to zero. The gravitational force is determined by the speed of movement of the rocker arm 1, which is measured by the number of interference fringes observed in the interferometer for a certain period of time.

Another way is to observe the interference pattern at the beginning of the measurement, and then the interferometer is rotated with a screw 11 so that the picture remains visible for the same or at least the end of a certain period of time brings it to the same view. From the reading of the micrometer screw 11, the angle of rotation of the rocker arm 1 during this time interval is determined, which makes it possible to determine the force of gravity.

The subject of the invention ./

Claims (7)

1. A gravitational variometer with an inclined, carrying at the ends of the weights, a rocker, characterized in that on its beam 1 strengthened symmetrically with respect to axis 2 of suspension of mirror 3 and-4, which together with mirrors 5, 6, 7 and 8 installed outside the mirror, constitute a dual Michelson interferometer. 2. In the gravitational variometer according to claim 1, use one or two symmetrically mounted with respect to the axis 2 of the suspension of contacts in the form of a folding blade 13, located perpendicular to the blade 14 mounted on the yoke. 3. In the gravitational variometer according to claim 1, the middle part of the rocker arm 1 is in the form of a disk 15, using a damper in the form of a centrally located, covering the disk 15, magnet 16. 4. In the gravitational variometer according to claim 1, the use of magnet, ity dampers 19 and 20, between the poles of which there are loads made in the form of plates 17 and 18 or plates independent of the loads. . In the gravitational -varimeter according to claim 1, use a lever 21 reinforced on a yarn, which serves to tighten the yarn with a micrometer screw 22, controlled by a cord 23. 6. In a gravitational variometer according to claim 1, use for mounting mirrors 5, 6, 7, and 8 of an interferometer mounted on a spring 10 of the adapter 9, which is under the action of a micrometer screw 11 controlled by a cord 12. 7. In the gravitational variometer according to claim 1, apply the soothing oscillation of the magnet 25, which covers the lower point 24 of the rocker arm suspension. //. p2 L2j