SU628451A1 - Gravimeter for measuring g-absolute value - Google Patents

Claims (2)

bellows bones. leads to transmission through the jiacTH bellows of recoil on the tripod, the ground, and leads to displacements of the iner ferometer, which causes systematic and random measurement errors, the absolute of Who accelerates gravity. The aim of the invention is to improve the accuracy of measurements of the absolute acceleration of gravity. The goal is achieved by inserting into the device an equalizer, on which the power element i of the catapult is placed with the possibility of moving along it, and the power element is connected by an elastic link with a gravimeter housing. The power element of the motor can be placed in a hermetic glass with low viscosity. The elimination of the KOHTSK and the power element of the catapult with its body, achieved by such a design, reduces to a minimum the recoil force transmitted to the body of the catapult, and, consequently, ultimately, on the nanometer. This allows you to install the interferometer and the catapult on the same stitch and create a more compact device. The drawing shows a diagram of the proposed gravimeter. The gravimeter has an angle beam 1 placed in a vacuum chamber 2, a catapult 3, an interferometer 4, a system for measuring the path and free fall time of an angle reflector 5. The catapult 3 contains a carriage 6 on which an angled light reflector 1 is installed, the direction 7 of carriage 6 , mounted on the cortus 8 of the catapult 3. The power element, implemented in the electromagnet 9, is placed in a hermetic toroidal box © Yu, which is connected to the dem}} 11 11 spring of 12 c located on the guides 13. The carriage is connected in a spring 14 with a damper 11. A damper 11 is connected by a bellows 15 to a housing 8. A toroidal case 10 having a streamlined shape and a damper 11 are placed in a small fluid 16. The volume of a toroidal case Yu is adjusted so that its weight and V: x: electromagnet it was close to the weight of the fluid they displaced. In the upper part of the beaker 17, a volume is applied. The tamper 11 of your body may have holes to reduce the resistance of the two. When a Tone Pulse is passed through the coil of the electromagnet 9, electromagnetic forces arise between it and the carriage 6. Under the action of these forces, the carriage 6 moves upward, stretches the spring 14 and flips up the corner reflector 1, and the coil of the electromagnet 9 together with the toroidal case 10 moves downward, compressing the spring 12 .: When compressing the spring 12, a force arises that acts supernaturally. , which is much less than the strength of electromagnetic vvvmodeystv. Under Leastkevm, the springs 12 and 14 damper 11. moves changes the length of the joint 15. Thus / only the force is transferred to the housing 8 of the console 3, the force arises at 15, which is significantly less than the current of the electromagnetic interaction 8 of the compression of the springs of the 12 Carriage 6 is spring loaded 14. Toroiaalws & A case of Yu with an electromagnet 9 coil is returned upwards by springs 12. The proposed gravimeter differs from the indicated prototype because it eliminates the transfer of recoil signals to its interferometer. Claims of the invention A gravimeter for measuring the absolute acceleration of free fall gravity, containing a tossed body agitated in the top of the corner reflector and placed in a vacuum chamber, an interferometer, a system for measuring the time of fall of the body, a catapult with a carriage, guide carriages, a catapult force element, a damper , characterized in that, in order to improve the accuracy of measurements, a guide, power element of the catapult is inserted into it, which is movable and connected by an elastic link zyu with gravimeter body. Sources of information taken into account during the examination: 1. Geophysics handbook, v.5 M.izd. Nedra, 1968, p. 27. 2. Report KHGNIIM. Ballistic gravimeter-transportable GB-2G. By descriptive note. Kharkov, 1975.