Show metadata Hide metadata

(19)

(11)

2 663 273

(13)

(51)

IPC

G01V7/00(2006-01-01)

G01V13/00(2006-01-01)

(21) (22)

Application

2016119760, 2016-05-23

(24)

Start date

2016-05-23

(22)

Actual filing date

2016-05-23

(45)

Published

2018-08-03

(72)

Inventor

Feoktistov Nikolaj NikolaevichTamilin Sergej VladimirovichZaginajlo Maksim Aleksandrovich

(73)

Holder

Obshchestvo S Ogranichennoj Otvetstvennostyu Obedinenie Geosfera"

METHOD OF GRAVITATIONAL FIELD SCANNER CALIBRATION Russian patent published in 2018 - IPC G01V7/00 G01V13/00

Abstract RU 2663273 C2

FIELD: measuring equipment.

SUBSTANCE: invention relates to the field of gravitational research and can be used to calibrate scanners of the gravitational field, containing at least one transducer. Essence: determine the coefficients for each converter, measuring the value of acceleration of gravity at the calibration point. Determine the angles between the measuring axes of each transducer. In this case, as a calibration standard, the gravitational field of the calibration site is used, and the value of gravity acceleration at the calibration point between the measuring axes of the transducers is used as the measuring standard.

EFFECT: technical result: measurement of the angles of the direction of the measuring axes of the scanner with each other and with respect to a given plane.

1 cl

Similar patents RU2663273C2

Title	Year	Author	Number
METHOD OF MEASURING GRAVITATIONAL FIELD OF EARTH	2020	Koneshov Vyacheslav Nikolaevich Solovev Vladimir Nikolaevich Zheleznyak Leonid Kirillovich Mikhajlov Pavel Sergeevich	RU2737034C1
GYRO-STABILISED QUARTZ GRAVIMETER AND CALIBRATION METHOD THEREOF	2015	Krasnov Anton Alekseevich Sokolov Aleksandr Vyacheslavovich Elinson Leon Solomonovich	RU2619132C1
METHOD FOR DETERMINING ACCELERATION OF GRAVITY FORCE ON MOVING OBJECT, AND DEVICE FOR DETERMINING ACCELERATION OF GRAVITY FORCE ON MOVING OBJECT	2010	Stavrov Konstantin Georgievich Kostenich Aleksandr Valer'Evich Suvernev Vladimir Evgen'Evich Guseva Valentina Ivanovna Denesjuk Evgenij Andreevich Malysheva Valentina Fedorovna	RU2479859C2
METHOD AND DEVICE FOR DETERMINING PARAMETERS OF GRAVITATION AND WAVE FIELDS	2003	Krivonosov R.I. Dejnega Gennadij Aleksandrovich Kashik A.S.	RU2260199C2
METHOD OF DETERMINING GRAVITY ACCELERATION AT MOVING OBJECT	2010	Kursin Sergej Borisovich Brodskij Pavel Grigor'Evich Dobrotvorskij Aleksandr Nikolaevich Stavrov Konstantin Georgievich Len'Kov Valerij Pavlovich Fedorov Aleksandr Anatol'Evich Len'Kova Ljudmila Aleksandrovna Chernjavets Vladimir Vasil'Evich	RU2426154C1
MARINE GRAVIMETRIC SURVEY METHOD	2010	Alekseev Sergej Petrovich Kursin Sergej Borisovich Dobrotvorskij Aleksandr Nikolaevich Brodskij Pavel Grigor'Evich Stavrov Konstantin Georgievich Len'Kov Valerij Pavlovich Chernjavets Vladimir Vasil'Evich Zhukov Jurij Nikolaevich Rumjantsev Jurij Vladimirovich	RU2440592C2
METHOD AND DEVICE FOR REMOTE GRAVIMETRIC PROBING	2014	Petrenko Gennadij Alekseevich	RU2581076C2
METHOD FOR GRAVIMETRIC SURVEY OF WATER AREA AND APPARATUS THEREFOR	2014	Titljanov Vladimir Aleksandrovich Stavrov Konstantin Georgievich Denesjuk Evgenij Andreevich Chernjavets Vladimir Vasil'Evich Guseva Valentina Ivanovna Glebov Viktor Borisovich	RU2575316C1
DEVICE AND METHOD FOR MEASUREMENT OF GRAVITATIONAL ACCELERATION	2011	Petrenko Gennadij Alekseevich	RU2504803C2
DEVICE AND METHOD TO MEASURE GRAVITATION	1995	Gerd Bedekker Frants Lajsmjuller Karl Khans Nojmajer	RU2144686C1

RU 2 663 273 C2

Authors

Feoktistov Nikolaj Nikolaevich

Tamilin Sergej Vladimirovich

Zaginajlo Maksim Aleksandrovich

Dates

2018-08-03—Published

2016-05-23—Filed