VNI PI MEKH OBRABOTKI has a total of 791 patent applications. Its first patent ever was published in 1962. It filed its patents most often in USSR (Union of Socialist Soviet Republics), Germany and Russian Federation. Its main competitors in its focus markets machines, chemical engineering and environmental technology are ZHEJIANG SHUANGJIN MACHINERY HOLDINGS CO LTD, EXTEC IND PLC and PFEIFFER CHRISTIAN.
# | Country | Total Patents | |
---|---|---|---|
#1 | USSR (Union of Socialist Soviet Republics) | 734 | |
#2 | Germany | 12 | |
#3 | Russian Federation | 10 | |
#4 | Australia | 5 | |
#5 | United Kingdom | 5 | |
#6 | France | 4 | |
#7 | Austria | 3 | |
#8 | Sweden | 3 | |
#9 | United States | 3 | |
#10 | Brazil | 2 | |
#11 | China | 2 | |
#12 | Finland | 2 | |
#13 | Japan | 2 | |
#14 | EPO (European Patent Office) | 1 | |
#15 | India | 1 | |
#16 | Italy | 1 | |
#17 | WIPO (World Intellectual Property Organization) | 1 |
# | Industry | |
---|---|---|
#1 | Machines | |
#2 | Chemical engineering | |
#3 | Environmental technology | |
#4 | Measurement |
# | Technology | |
---|---|---|
#1 | Milling | |
#2 | Climate change mitigation in goods production | |
#3 | Separating solids | |
#4 | Magnetic or electrostatic solid separation | |
#5 | Mixing | |
#6 | Separating solids using liquids | |
#7 | Flotation | |
#8 | Testing of structures | |
#9 | Working stone | |
#10 | Postal sorting |
# | Name | Total Patents |
---|---|---|
#1 | Zarogatskij Leonid P | 235 |
#2 | Denisov Genrikh A | 93 |
#3 | Ivanov Nikolaj A | 92 |
#4 | Ivanov Boris G | 74 |
#5 | Turkin Vladimir Ya | 65 |
#6 | Rudin Anatolij D | 57 |
#7 | Mitrofanov Evgenij S | 54 |
#8 | Cherkasskij Vladimir A | 32 |
#9 | Revnivtsev Vladimir I | 31 |
#10 | Safronov Andrej N | 29 |
Publication | Filing date | Title |
---|---|---|
RU1797589C | Method and device for transportation of resilient materials | |
RU1775297C | Method of hydraulic equipment from cavitation corrosion | |
RU1787547C | Method of gravity concentration of ores | |
SU1764690A1 | Cone inertial crusher | |
SU1754162A1 | Method of filtration of finely dispersed talcum-serpentenite pulp | |
SU1771814A1 | Crusher operation system | |
SU1763500A1 | Method of accumulator scrap processing | |
RU1788462C | Method and device for investigating lump size of crushed ore | |
SU1736611A1 | Electrodynamic separator | |
SU1750727A1 | Method for magnetic separation of comminuted material | |
SU1748859A1 | Roll crusher | |
SU1717211A1 | Inertial cone-type crusher | |
SU1717209A1 | Cone crusher | |
SU1717210A1 | Cone-type inertial crusher | |
RU1790353C | Centrifugal homogenizer | |
SU1717208A2 | Cone-type inertial crusher | |
SU1749778A1 | Method of automatic supervision over sizes of lump material | |
SU1726016A1 | Cone inertial crusher | |
SU1748890A1 | Method for material separation by size | |
SU1720714A1 | Separator for heavy fraction |