Laubinger + Rickmann GmbH & Co. KG
Booth number: 407
www.laubinger-rickmann.de/en
About us
Laubinger + Rickmann (L+R) is a medium-sized family business with about 100 employees and headquarters in northwestern Germany.
In May 2022, L+R celebrated its 50th birthday.
In the fields of non-destructive testing and straightening machines for aluminum structural components, Laubinger + Rickmann, with over 300 special machines manufactured, is known worldwide for intelligent solutions and the highest quality.
In order to meet the high demands of international customers also in terms of service, L+R 2021 expanded strongly in the USA, among other countries, with its subsidiary LR Q-Systems Inc. Another permanent service point is located in Shanghai, China.
L+R is supporting the strong growth of its customers in lightweight construction and the demanding requirements placed on aluminum parts by the emerging e-mobility sector with a capacity expansion of over 15% in 2021.
Address
Gildestr. 20
48356 Nordwalde
Germany
Phone: +49 2573 93880
102 Jordan Drive
37421 Chattanooga, TN
USA
E-mail: sales@lr-q.com
Phone: +1 423 4855888
Internet: www.lr-q.com
267 Rue Alice Carriere
Beaconsfield, QC, H9W 6E6
Canada
Products & Services
The international focus of the special purpose machine development is on fully automated adaptive 3D straightening systems for casted or extruded aluminum parts in the automotive industry.
More than 130 straightening machines are currently in operation worldwide for the following part types:
- Structural components (Suspension strut mounts / shock towers, longitudinal members, Side members, Cross members)
- Battery Housings (Battery trays, Battery frames, Sideplates)
- Chassis components
Different straightening techniques are combined depending on the part specification and/or part distortion:
- Global straightening
- Local straightening
- Datum point straightening
In each case, each system is designed individually and optimally for the part in question and will automatically adjust to varying distortions and material parameters over lifetime.