responsible for the content:
KEHRER Engineering & Innovation e.U.
Owner and Managing Director: DI Dr. Oskar Kehrer 

Description of business:
Mechatronics, mechanical and manufacturing engineering, mechanical engineering, electrical engineering, electronics, information technology, engineering, automotive engineering, management consulting, medical.

Headquarters:
Rettenbacher Straße 8; 8044 Graz-Mariatrost; Austria, Europe

Project offices:
Marschallgasse 42a / 3; 8020 Graz; Austria, Europe
in planning: Hanuschgasse 6/3/7; 8020 Graz; Austria, Europe

Telephone: +43 (0) 316 225048
Mobile: +43 (0) 650 440 6650
Email: [email protected]
Web:        

www.KehrerEngineering.com
www.Batteriespeicher.top
www.KehrerShop.eu
www.AniTrack.eu

Company registration number:
FN 407667 k

Commercial register court:
Regional Court for Civil Graz

We are successful in the following topics:

* Renewable energy:

- Photovoltaics, focus on balcony power plants
- Battery storage (energy storage)      www.Batteriespeicher.top
- Own developments

* Welding technology

- External welding supervision according to DIN EN-ISO 14731      www.KehrerEngineering.com


* Tracking of animals, persons and objects (IoT - Internet of Things)   www.AniTrack.eu



The technology company KEHRER ENGINEERING offers you the highest quality products and services that are currently available on the market within the topics offered. We are an innovative supplier focusing on the highest quality, flexibility and reliability. Our commitment to excellence and as a reliable service partner has earned us a good reputation in the industry.

Zur Person Dr. Oskar Kehrer:

Mehr als 30 Jahre  praktische Erfahrungen in der Industrie als Executive Manager, Yield  Manager, Production Manager, Manager Industrial Engineering, Manager Process Engineering, European  Welding Engineer, International Welding Engineer, Works Inspector und Schweißaufsicht Aerospace Technology.

Steyr-Daimler-Puch Fahrzeugtechnik, Magna Steyr, Magna  Powertrain, Kendrion Electromagnetics - eh. Binder Magnete,
TDK / EPCOS / Siemens.  Nebenberuflich viele Jahre als Berater / Trainer / Coach für Merten Management International.

zusätzliche Qualifikationen (Auswahl):
European Welding Engineer (EWE), International Welding Engineer (IWE), Six Sigma Champion,  Führen, Projektmanagement, Wertanalyse, Design of Experiments (DoE), FMEA,  REFA (Arbeitswissenschaft)

Schulbildung:
HTL Bulme Graz: Betriebstechnik
TU Graz: (Dipl. Ing.)  Wirtschaftsingenieurwesen Maschinenbau /  Spezialisierung: Mikroprozessoren und  technische Datenverarbeitung
TU Wien: (Dr. techn.) Maschinenbau. Spezialgebiete: Qualitätsmanagement, Fertigungstechnik, Physik.

Dissertation (Institut für Hochleistungsstrahltechnik): Einfluss und Optimierung von  Schweiß- und Prozessparametern hinsichtlich Schweißnahtqualität mit Hilfe von Design of Experiments bei CO₂-Hochleistungslasern

Erfinder aus den Bereichen Schweißtechnik, Werkstofftechnik, Laser, Wärmebehandlung, Härterei,  Oberflächen-Beschichtungen, Fahrzeugtechnik, Maschinenbau, Elektronik, Messtechnik, Sensorik, MultilayerTechnologie verwendet bei MLCC (keramische Kondensatoren), Piezo Stacks (Diesel- und Benzineinspritzsysteme wie Pumpe/Düse oder CommonRail), Piezo Aktuatoren, MLV (Varistoren), NTC (Temperatursensoren).

Patentanmeldungen, die in Produkten oder Prozessen der industriellen Serienfertigung in hoher Stückzahl benützt werden:

• CN103430641(A) - 2013-12-04; Method for producing a film stack, and equipment for producing a film stack
• EP 2689645 (A1) - 2014-01-29; METHOD FOR PRODUCING A FILM STACK, AND SYSTEM FOR PRODUCING A FILM STACK
• WO2012126787 - 2012-09-27; METHOD FOR PRODUCING A FILM STACK, AND SYSTEM FOR PRODUCING A FILM STACK
• DE102011014583 - 2012-09-27; Verfahren zur Herstellung eines Folienstapels und Anlage zur Herstellung eines Folienstapels
• US2007029290 - 2007-02-08; Method for the plasma, laser or electron beam welding of  identical or different materials with a tendency for excessive  hardening, with copper or a copper alloy as a filler material
• EP1667810 (A1) 2006-06-14; Method for the plasma, laser or electron beam welding of  identical or different materials with a tendency for excessive  hardening, with copper or a copper alloy as a filler material
• AT7047 (U1) - 2004-09-27 VERFAHREN ZUM SCHWEISSEN
• JP2007508145 - 2007-04-05 VERFAHREN ZUM SCHWEISSEN
• CA2541236 (A1) - 2005-04-07 METHOD FOR THE PLASMA, LASER OR ELECTRON BEAM WELDING OF IDENTICAL  OR DIFFERENT MATERIALS WITH A TENDENCY FOR EXCESSIVE HARDENING, WITH  COPPER OR A COPPER ALLOY AS A FILLER MATERIAL
• WO2005030423 (A1) - 2005-04-07 METHOD FOR THE PLASMA, LASER OR ELECTRON BEAM WELDING OF IDENTICAL  OR DIFFERENT MATERIALS WITH A TENDENCY FOR EXCESSIVE HARDENING, WITH  COPPER OR A COPPER ALLOY AS A FILLER MATERIAL
• EP1681365 (A1) - 2006-07-19; Method of producing highly stressed machine components
• AT8065 (U1) - 2006-01-15; STAHL FÜR EINSATZGEHÄRTETE HOCHBEANSPRUCHBARE MASCHINENTEILE
• EP1566454 (A1) - 2005-08-24; Process for producing nodular cast iron products and products obtained
• US2004219052 (A1) - 2004-11-04; High-strength, high-ductility noudlar iron, and transmission housing produced therefrom
• WO03014407 (A1) - 2003-02-20; HIGH-STRENGTH, HIGH-DUCTILITY NODULAR IRON, AND TRANSMISSION HOUSING PRODUCED THEREFROM
• JP2004537652 (A) - 2004-12-16; HIGH-STRENGTH, HIGH-DUCTILITY NODULAR IRON, AND TRANSMISSION HOUSING PRODUCED THEREFROM
• EP1415009 (B1) - 2006-01-25; HIGH-STRENGTH, HIGH-DUCTILITY NODULAR IRON, AND TRANSMISSION HOUSING PRODUCED THEREFROM
• EP1415009 (A1) - 2004-05-06;
• CA2456432 (A1) - 2003-02-20; HIGH-STRENGTH, HIGH-DUCTILITY NODULAR IRON, AND TRANSMISSIONHOUSING PRODUCED THEREFROM
• AT5381 (U1) - 2002-06-25; HIGH-STRENGTH, HIGH-DUCTILITY NODULAR IRON, AND TRANSMISSION HOUSING PRODUCED THEREFROM
• US2004136776 (A1) - 2004-07-15; Shaft comprising a part connected thereto by welding          Link:  High-Beam-Research
• US7137897 (B2) - 2006-11-21; Shaft comprising a part connected thereto by welding
• WO02070911 (A1) - 2002-09-12; EP1368573 (A1) - 2003-12-10; SHAFT COMPRISING A PART CONNECTED THERETO BY WELDING
• JP2004522913 (A) - 2004-07-29; SHAFT COMPRISING A PART CONNECTED THERETO BY WELDING
• CA2440084 (A1) - 2002-09-12; SHAFT COMPRISING A PART CONNECTED THERETO BY WELDING
• AT5144 (U1) - 2002-03-25; SHAFT COMPRISING A PART CONNECTED THERETO BY WELDING
• AT7409 (U1) - 2005-03-25; VERFAHREN ZUR HERSTELLUNG EINES WERKSTÜCKES AUS SPHÄROGUSS UND NACH DIESEM HERGESTELLTES WERKSTÜCK
• DE10241947 (A1) - 2003-04-03; Process for surface treating a weakly loaded machine element  comprises mechanically working the workpiece and coating the contact  zones with a nickel layer having embedded particles of an oscillating  damping non-metal
• AT316586 (T) - 2006-02-15; SPHAROGUSS MIT HOHER FESTIGKEIT UND DUKTILITAT UND DARAUS HERGESTELLTES GETRIEBEGEHAUSE
• US6589671 (B1) - 2003-07-08; Method for joining a cast part and a case-hardened steel part and component manufactured according to said method
• WO9958287 (A1) - 1999-11-18; METHOD FOR JOINING A CAST PART AND A CASE-HARDENED STEEL PART AND COMPONENT MANUFACTURED ACCORDING TO SAID METHOD
• JP2002514511 (A) - 2002-05-21; METHOD FOR JOINING A CAST PART AND A CASE-HARDENED STEEL PART AND COMPONENT MANUFACTURED ACCORDING TO SAID METHOD
• EP1087855 (A1) - 2001-04-04; METHOD FOR JOINING A CAST PART AND A CASE-HARDENED STEEL PART AND COMPONENT OBTAINABLE BY SAID METHOD
• EP1087855 (B1) - Link 2003-01-29; METHOD FOR JOINING A CAST PART AND A CASE-HARDENED STEEL PART AND COMPONENT OBTAINABLE BY SAID METHOD (Verfahren zum Verbinden eines Gussteiles mit  einem Teil aus einsatzgehärtetem Stahl und Bauteil erhältlich durch  dieses Verfahren)