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RAKHMAILOV ANATOLIJ M

Overview
  • Total Patents
    15
About

RAKHMAILOV ANATOLIJ M has a total of 15 patent applications. Its first patent ever was published in 1991. It filed its patents most often in Russian Federation. Its main competitors in its focus markets engines, pumps and turbines and environmental technology are WILLIAMS RES CORP, SCHILLING ESTATE COMPANY and E H HANS HOLZWARTH DR ING.

Patent filings in countries

World map showing RAKHMAILOV ANATOLIJ Ms patent filings in countries
# Country Total Patents
#1 Russian Federation 15

Patent filings per year

Chart showing RAKHMAILOV ANATOLIJ Ms patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Rakhmailov Anatolij M 15
#2 Kostinskij Vadim A 8
#3 Drozd Igor L 7
#4 Khaletskaya Serafima N 2

Latest patents

Publication Filing date Title
RU2050455C1 Gas-turbine engine and its starting method
RU2052145C1 Method of converting heat energy into mechanical work
RU2037060C1 Method of converting heat power into mechanical work in gas-turbine engine and gas-turbine engine
RU2055227C1 Method of conversion of thermal energy to mechanical energy in gas-turbine engine and gas-turbine engine
RU2044906C1 Method of converting heat into mechanical work in gas- turbine engine and gas-turbine engine
RU2044133C1 Method of starting gas-turbine engine
RU2039323C1 Combustion chamber
RU2033544C1 Method of converting heat energy to mechanical energy in gas-turbine engine and gas-turbine engine
RU2036325C1 Method of converting heat energy to mechanical work in gas-turbine engine and gas-turbine engine
RU2031228C1 Method of converting heat energy to mechanical work in gas-turbine engine end gas-turbine engine
RU2031230C1 Method of converting heat energy to mechanical work in gas-turbine engine and gas-turbine engine
RU2031226C1 Method of converting heat energy to mechanical work in gas-turbine engine and gas-turbine engine
RU2031225C1 Method of converting heat energy to mechanical work in gas-turbine engine and gas-turbine engine
RU2031229C1 Method of converting heat energy to mechanical work in gas-turbine engine and gas-turbine engine
RU2018010C1 Method of converting heat energy to mechanical energy in gas-turbine engine and gas-turbine engine