Laser length sensors for the diagnosis of geometrical dimensions and surface defects in precision mechanical engineering (Q10240)

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Revision as of 16:26, 25 February 2020 by DG Regio (talk | contribs) (‎Created claim: summary (P836): A new generation of super precise digitally controlled machines in the automotive industry makes it possible to prepare machinery with precision in the nanoscale. However, in order to ensure the highest level of reliability, this exact production requires a 100 % control of the achieved value of precision. The project aims at research and development of unique optical methods to allow for measurement of the geometrical dimensions of engineering...)
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Project in Czech Republic financed by DG Regio
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Laser length sensors for the diagnosis of geometrical dimensions and surface defects in precision mechanical engineering
Project in Czech Republic financed by DG Regio

    Statements

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    22,663,123.2 Czech koruna
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    906,524.928 Euro
    10 January 2020
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    37,104,000.0 Czech koruna
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    1,484,160.0 Euro
    10 January 2020
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    61.08 percent
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    1 January 2017
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    28 September 2019
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    MESING, spol. s r.o.
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    49°11'55.75"N, 16°38'29.22"E
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    61500
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    Nová generace super přesných digitálně řízených strojů v automobilovém průmyslu umožňuje opracovávat strojírenské výrobky s přesností až v řádu nanometrů. Pro zajištění nejvyššího stupně spolehlivosti však tato přesná výroba vyžaduje stoprocentní kontrolu dosažené hodnoty přesnosti. Cílem projektu je výzkum a vývoj unikátních optických metod, které dovolí v automatizovaných výrobních linkách měřit geometrické rozměry strojírenských výrobků s rozlišením blížícím se nanometrové hranici. a. (Czech)
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    A new generation of super precise digitally controlled machines in the automotive industry makes it possible to prepare machinery with precision in the nanoscale. However, in order to ensure the highest level of reliability, this exact production requires a 100 % control of the achieved value of precision. The project aims at research and development of unique optical methods to allow for measurement of the geometrical dimensions of engineering products to be used in automated production lines, with a resolution of the approaching nano dimension. (English)
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    Identifiers

    CZ.01.1.02/0.0/0.0/15_019/0004676
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