Show metadata Hide metadata

(19)

(11)

2 781 363

(13)

(51)

IPC

G01P15/00(2006-01-01)

(21) (22)

Application

2022103047, 2022-02-08

(24)

Start date

2022-02-08

(22)

Actual filing date

2022-02-08

(45)

Published

2022-10-11

(72)

Inventor

Solovev Nikolai GermanovichKotov Mikhail AltaevichShemiakin Andrei NikolaevichIakimov Mikhail Iurevich

(73)

Holder

Federalnoe Gosudarstvennoe Biudzhetnoe Uchrezhdenie Nauki Institut Problem Mekhaniki Im. A.Iu. Ishlinskogo Rossiiskoi Akademii Nauk Ran)

DEVICE AND METHOD FOR MEASURING ACCELERATION ON AN OPTICAL DISCHARGE BY THE ELECTRODE AND SHADOW METHOD Russian patent published in 2022 - IPC G01P15/00

Abstract RU 2781363 C1

FIELD: instrumentation.

SUBSTANCE: group of inventions relates to the field of instrumentation. The device for measuring acceleration on an optical discharge by the electrode and shadow method consists of a spherical chamber transparent to laser and visible radiation, filled with a gas mixture; one or more lasers located outside the spherical chamber, the radiation of which is focused in the center of the spherical chamber, two metal electrodes located near the center of the spherical chamber. Two spherical mirrors are installed perpendicular to each other on the outside of the spherical chamber, and on the opposite side of the spherical chamber, opposite each spherical mirror, there is a translucent screen for visualizing the shadow image of the heat flow.

EFFECT: extension of the acceleration measurement range and an improvement in the speed of acceleration measurement.

2 cl, 3 dwg

Similar patents RU2781363C1

Title	Year	Author	Number
DEVICE AND METHOD FOR MEASURING ACCELERATION ON AN OPTICAL DISCHARGE BY THE SHADOW METHOD	2022	Solovev Nikolai Germanovich Kotov Mikhail Altaevich Lavrentev Sergei Iurevich Shemiakin Andrei Nikolaevich Iakimov Mikhail Iurevich	RU2781747C1
DEVICE AND METHOD FOR MEASURING ACCELERATION ON AN OPTICAL DISCHARGE WITH THERMAL INDICATOR PAINT	2022	Solovev Nikolai Germanovich Kotov Mikhail Altaevich Lavrentev Sergei Iurevich Shemiakin Andrei Nikolaevich Iakimov Mikhail Iurevich	RU2781746C1
DEVICE AND METHOD FOR MEASURING ACCELERATION ON AN OPTICAL DISCHARGE WITH ELECTRODE IGNITION	2022	Solovev Nikolai Germanovich Kotov Mikhail Altaevich Shemiakin Andrei Nikolaevich Iakimov Mikhail Iurevich	RU2781365C1
DEVICE AND METHOD FOR MEASURING ACCELERATION ON AN OPTICAL DISCHARGE WITH A PHOTOLUMINOPHOR	2022	Solovev Nikolai Germanovich Kotov Mikhail Altaevich Shemiakin Andrei Nikolaevich Iakimov Mikhail Iurevich	RU2781362C1
DEVICE AND METHOD FOR MEASURING VERTICAL ACCELERATION ON AN OPTICAL DISCHARGE	2022	Solovev Nikolai Germanovich Kotov Mikhail Altaevich Shemiakin Andrei Nikolaevich Iakimov Mikhail Iurevich	RU2781753C1
DEVICE AND METHOD FOR MEASURING ACCELERATION ON AN OPTICAL DISCHARGE WITH LASER IGNITION	2022	Solovev Nikolai Germanovich Kotov Mikhail Altaevich Lavrentev Sergei Iurevich Shemiakin Andrei Nikolaevich Iakimov Mikhail Iurevich	RU2780300C1
DEVICE AND METHOD FOR MEASURING ACCELERATION ON AN OPTICAL DISCHARGE WITH THERMAL IMAGERS	2022	Solovev Nikolai Germanovich Kotov Mikhail Altaevich Lavrentev Sergei Iurevich Shemiakin Andrei Nikolaevich Iakimov Mikhail Iurevich	RU2781745C1
DEVICE AND METHOD FOR DISPOSAL OF OPTICAL DISCHARGE INSTABILITIES	2020	Solovev Nikolaj Germanovich Shemyakin Andrej Nikolaevich Yakimov Mikhail Yurevich	RU2734112C1
METHOD OF PREVENTING OSCILLATIONS OF OPTICAL DISCHARGE	2020	Solovev Nikolaj Germanovich Lavrentev Sergej Yurevich Shemyakin Andrej Nikolaevich Yakimov Mikhail Yurevich	RU2734111C1
DEVICE AND METHOD FOR ELIMINATION OF OPTICAL DISCHARGE INSTABILITIES	2020	Solovev Nikolaj Germanovich Shemyakin Andrej Nikolaevich Yakimov Mikhail Yurevich	RU2738462C1

RU 2 781 363 C1

Authors

Solovev Nikolai Germanovich

Kotov Mikhail Altaevich

Shemiakin Andrei Nikolaevich

Iakimov Mikhail Iurevich

Dates

2022-10-11—Published

2022-02-08—Filed