Learn more

NII SHINNOI PROMY

Overview
  • Total Patents
    31
About

NII SHINNOI PROMY has a total of 31 patent applications. Its first patent ever was published in 1965. It filed its patents most often in United Kingdom, France and Germany. Its main competitors in its focus markets machines, chemical engineering and transport are HARBURG-FREUDENBERGER MASCHB GMBH, KARL ZAENGL and VAKUUM VULK HOLDINGS LTD.

Patent filings in countries

World map showing NII SHINNOI PROMYs patent filings in countries

Patent filings per year

Chart showing NII SHINNOI PROMYs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Pinegin Vladimir Alexandrovich 7
#2 Pukhova Regina Lazarevna 6
#3 Davidovich Natalia Ivanovna 5
#4 Badenkov Petr Fedorovich 4
#5 Kulik Nina Alexeevna 3
#6 Roitburd Isaak Shlemovich 3
#7 Yakovleva Tamara Petrovna 3
#8 Sergeev Alexandr Mikhailovich 3
#9 Melamed Yakov Fedorovich 3
#10 Artamonova Raisa Alexandrovna 3

Latest patents

Publication Filing date Title
WO9011198A1 Method of making a breaker for pneumatic tyre
GB1324196A Equipment for building pneumatic tyres
GB1319661A Article unloading apparatus
GB1269902A Apparatus for loading inflatable tubes for pneumatic tyres into a vulcanization half mould
GB1166596A Device for Removing Tyre Casings from the Drums of Tyre-Building Machines
GB1136837A Method of assembling pneumatic tyre casings
DE1261664B Device for placing cord fabric layers on a tire building drum
DE1579299B1 Rolling device for the building drum of a tire building machine
GB1199721A Device for Continuous Preparation of Mixtures
DE1579297A1 Device for processing beads in machines for manufacturing pneumatic tires
GB1149271A Bead-forming device for tyre building machines
GB1125844A Stitcher device for pneumatic tyre building machines
DE1579292A1 Device for molding and vulcanizing pneumatic tire covers
GB1136712A Device for moulding and vulcanising pneumatic tyre covers
GB1123481A Pneumatic tyre building machine
GB1092172A An apparatus for determining the resistance to wear by abrasion of polymeric materials