SU673950A1 - Absolute gravitational acceleration measuring device - Google Patents

Description

one

The invention relates to the field of gravimetric instrumentation. The device can be used, in particular, in metrology for the measurement of acceleration (gravity).

Absolute gravimeters are known in which measurements are made on symmetrical sections of the free-falling body trajectories. Such gravimeters have a body made in the form of a corner reflector and placed in a vacuum chamber, a catapult for throwing it vertically upwards, an interferometer, a system for measuring the path and time of the free fall trajectory of the corner reflector. The catapult has a power element, a carriage, the guiding movements of the carriage 1.

When the carriage throws up a corner reflector, the recoil force occurs on the power element, which is transmitted to the instrument case and causes displacement and oscillation of the instrument case, the soil on which the catapult is installed, and the interferometer, which leads to systematic and random errors in measuring the absolute acceleration strength of the tin.

The closest to the present invention is the GB-2T transportable gravimeter containing a falling body made in the form of a corner reflector and placed in a vacuum chamber, an interferometer, a system for measuring the path and time of the free-fall trajectory of corners of the body, guides, a pusher with a centering mechanism and electromagnets, connected to the pusher 2.

Claims (2)

In the above electromechanical scheme, the operation of the body toss mechanism introduces an error in the measurement results due to its design features, i.e., the electromagnet measles and the lever connecting measles to the pulley operate along the gravimeter sensing axis. The dynamic loads that occur during the operation of the electromagnet core and the lever are transmitted to the base and transferred to regular intrinsic microseismic effects, which leads to an error in measuring the acceleration of gravity by the symmetric method. The aim of the invention is to improve the measurement accuracy. This goal is achieved due to the fact that in an electromechanical ballistic device containing a vacuum chamber with a working body enclosed in it, guides, a pusher with a body centering mechanism, as well as electromagnets in contact with the pusher, the pusher with a mechanism for centering the working body is in the form of a rod and connected through a system of crank mechanisms to the fodder of two solenoids placed outside the vacuum chamber, located on the same horizontal axis perpendicular to the measuring axis devices. The proposed device is shown in the drawing. It contains a vacuum chamber 1, in the lower part of which there is a bailout mechanism consisting of two solenoids 2 located on the same horizontal axis. Inside them are the core 3 connected to the system of crank levers 4, 5 and 6. The levers 6 are hingedly connected to the in the form of a slider pusher 7, on which the centering mechanism 8 and the working body 9 are located. The device operates as follows. The windings of the solenoids 2 are synchronously energized. The translational movement of Korea 3 is converted by the levers 4 into rotational movement of the levers 5, with the subsequent conversion by the levers 6 of this movement into the translational movement of the pushrod 7. The system of levers 4, 5, 6 works on the principle of a crank mechanism and due to the variable angular velocity of the levers 4 and 6 provides smooth acceleration and braking of the push rod. The ejection body 9 separates from the stockpath when a difference occurs in the speed of movement and continues free flight, during which the acceleration of gravity is measured. The falling body, falling into the centering mechanism 8, according to the same principle, according to which the ascent is carried out, together with the pushing rod, gradually lowers and takes its original position. Thus, the measurements located perpendicular to the axis and the solenoids on the same horizontal axis as two equivalent oppositely directed and simultaneously applied forces and a system of mechanisms eject the working fluid under conditions of a change in the total weight of the ballistic device over the estimated time, which greatly improves the measurement accuracy. Claim 1. A device for measuring absolute acceleration of gravity by the method of free fall, which contains a vacuum chamber with a working fluid enclosed in it, guides and a pusher with a mechanism for centering the working fluid. Electromagnets connected to the pusher, characterized in that, in order to increase measurement accuracy, the pusher with the working body centering mechanism is designed as a rod and connected through a system of curved mechanisms to the crust of two solenoids located on the same horizontal axis perpendicular to the axis of the device. 2. A device according to claim 1, characterized in that the solenoids are located outside the vacuum chamber. Sources of information taken into account during the examination 1. Physics Handbook, Vol. 5, M., 1968. p. 27. 2. Report KhGNIIM. Gravimeter ballistic transportable GB-2T. By note, Kharkov, 1975.