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SAKURA FINETEK JAPAN CO LTD

Overview
  • Total Patents
    49
  • GoodIP Patent Rank
    215,239
About

SAKURA FINETEK JAPAN CO LTD has a total of 49 patent applications. Its first patent ever was published in 2006. It filed its patents most often in Japan, EPO (European Patent Office) and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets measurement, machine tools and machines are KLOTZ MARKUS, LORENTZEN & WETTRE AB and GUANGDONG DONGGUAN QUALITY SUPERVISION TESTING CENTER.

Patent filings in countries

World map showing SAKURA FINETEK JAPAN CO LTDs patent filings in countries

Patent filings per year

Chart showing SAKURA FINETEK JAPAN CO LTDs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Miyatani Tatsuya 20
#2 Ito Tetsumasa 11
#3 Enomoto Jyunya 7
#4 Murakami Seigo 6
#5 Nakagawa Nobuyuki 4
#6 Kondo Megumi 3
#7 Murakami Masatake 2
#8 Nonoyama Masatoshi 2
#9 Kobayashi Takeshi 2
#10 Nishimura Hiroyuki 2

Latest patents

Publication Filing date Title
WO2014073564A1 Thin-section manufacturing method and thin-section manufacturing device
JP2015014476A Thin slice manufacturing apparatus and thin slice manufacturing method
JP2014115213A Automatic slicer, parameter generator, automatic slicing method and program
JP2014095589A Thin slice preparation device
JP2014095590A Replacement blade feeding mechanism
JP2014095588A Automatic sliced piece sample preparing device
JP2014095587A Block storage device and automatic slicing device
JP2013160744A Thin slice producing device and method for removing swarf
JP2013160718A Thin slice specimen forming device and thin slice specimen forming method
JP2013160719A Thin section preparation device and thin section preparation method
JP2013050324A Embedding tray
JP2011053230A Embedding tray and method of manufacturing the same
JP2009092617A Isolated living tissue placing apparatus and isolated living tissue fixing method
WO2008149438A1 Glass product for inspection
JP2008096370A Material for supporting shape of extracted biomedical tissue, and method for fixing biomedical tissue