Robots are used for difficult, fast and precise operations and handling. These robots are implemented in our lines including complete synchronizing with connected conveyors. Safety of the whole workplace is also secured, i.e. unwanted entry of persons in the area with robots during their operation is hindered, etc.
ROBOTIC ROTATION OF PRODUCTS
Two assembly lines with robots for rotation of products. Requested rotation of products on an assembly line by 180° is ensured by an industrial robot Stäubli.
The whole worlplace includes pneumatically controlled pallet fixation, robot stand, robot, tentacle with pneumatic drive for product seizing and camera system for robot guiding. The whole robotic workplace is equipped with a safety fencing with elektronically blocked entry.
You can watch robotic rotation on this video.
ROBOTIZED LINE FOR PACKAGING AND PALLETIZATION
The conveyor line has four robots scara and two palletizing robots Stäubli, which interconnect roller conveyors, chain conveyors and conveyors with modular belt.
Line ensures a placing cups into the trays and their following palletization and packaging.
You can see the operation of line on video
ROBOTIC WORKPLACES FOR PALLETISATION
ROBOTIC WORKPLACES FOR MANIPULATION
DEVELOPMENT DEPARTMENT IN TMT - COMBINATION OF ROBOTS, LASERS AND 3D MEASURING
The company T M T spol. s r.o. Chrudim started the project „The Development of Automated Workplace for Finishing of Intake Frameworks with Output 3D Measuring Protocol“, project number 4.2 PT03/1050 co-financed by EU – ERDF (European Regional Development Fund) in the Operational Programme Entreprise and Innovation managed by Ministry of Industry and Trade of the Czech Republic in 2013.
The development center with the newest technologies - Robotic systems 1Rx160 CS8C supplemented by 600W fiber laser with guidance diode and 3D measuring device ROMER - started live operation in the first half of year 2014. The development operatives received training in necessary control and programming of acquired equipment.
This unique combination of technical devices together with newly gained experience will be used for creating the database of laser cutting technology – finishing the pressings of various types of plastics currently used in industry. The database will contain the parameters of developed technology, especially laser power, cutting speed, date of achieved accurancy and quality of cut, data of material etc. The database will also include topological parameters for setting of optimal robot kinematics and output protocol of 3D measuring.
The obtained data will be initial information and base source for potential future putting this technology into practice.