robolink® warehouse assistance
robolink® places individual parts on the appropriate warehouse shelves
The high degree of modularity and water-tight components are the features that make robolink® so universally usable. Depending on the application, a customised solution can be created from the robolink® construction kit and then supplemented with other products. In addition to conventional or water-tight igus® stepper motors, the robot joint can also be combined with other motors or pneumatic drives. The joint construction kit is not tied to any special control unit and thus enables the greatest possible degree of freedom when it comes to planning and the implementation of automation processes.
robolink® places individual parts on the appropriate warehouse shelves
All robolink® joints of this application are equipped with "underwater sensors".
iPad control system of the robolink® 6 DOF compact unit
robolink® articulated arm 4 DOF and electric gripper as auxiliary arm
robolink® D trade fair site at the Automatica 2014.
robolink® joints ina gesture controlled robot torso, implemented by Habib Nasri.
Automation solutions from France using robolink® components.
robolink® in use at the open house
Low cost automation demo with robolink®, pikchain® and drylin® E
The Alexa experiment at the Fraunhofer Institut IFF in Magdeburg attained a repeat accuracy of 1mm.
Torso with robolink® 5 DOF arms, built with beta test materials from the first prototypes.
Converting gestures (i.e. eye blinking) into motion commands to assist people with physical disabilities.
robolink® articulated arm with angle sensors and drive unit for gesture-based control.
Fraunhofer Institut IFF, Magdeburg participates in the ECHORD project using a robolink® articulated arm.
4-axis arm drive unit and angle sensors to execute movement with "voice control".
Use of the articulated arm possible under water (even in dirty water).
Drive unit with igus® step motors controlled
Project between igus® and the University of Saarland and the University of Wuppertal.
4-axis articulated arm with 2 joints, 4 drives and self-developed control system.
Self-developed electromagnetic gripper for robolink® arm.
The head movement is implemented by robolink® and requires only a drive motor.
In this torso there are no loose cable bundles or energy supply systems in the movable arm.
Drive by connecting rod and lever: Implementation of a natural movement in a puppet arm with simple drive elements using robolink®.
Production of a track vehicle with camera guide with the robolink® multiple-axis joint.
An application that can approach positions, store these in a list and recall them - implemented with robolink® joints.
Pneumatic muscle ( own construction) and a servo motor
Development of a prosthetic arm with the robolink® multiple-axis joint.
Cable pulling technology in drives and mechanics: QuadHelix drive combined with igus® robolink®.
takes bird's eye view pictures with a robolink® camera slide with remote control.
Monday to Friday from 7 am - 8 pm.Saturdays from 8 am- 12 pm.
24h