igus has developed a Low Cost Automation solution made of polymer and stainless steel for environments with splashing water Splash water is no problem, at least for the new robolink IP44. (Source: igus GmbH) The new robolink IP44 from igus: a robot that defies wet elements! igus has developed a Low Cost Automation solution made […]
Even today, 3D printed wear-resistant parts from igus often have the same service life as original parts. Now igus goes one step further and makes the printed components intelligent. Manufactured in filament printing, they warn against overload and report their maintenance requirements. The special feature: for the first time, the sensors are directly “printed into” the parts. As a result, they not only have extremely short delivery times and low costs but also feature useful Industry 4.0 options.
Coupling joints are exposed to various types of loads, such as permanent vibrations, edge loads and high tensile forces and compressive strength. The demands on the material used are therefore extremely high. With the igubal GPZM coupling joint, the motion plastics specialist is now presenting a double joint that is not only lubrication-free and maintenance-free, but also 20 per cent more flexible than the conventional solution thanks to a new housing material. This firmly encloses the ball stud, prevents the penetration of dirt and increases the dependability of the moving application.
Connecting cables individually not only takes time, but is also prone to errors. This is why igus has developed the Module Connect interface concept, with which energy chains can be easily plugged together. To connect the connector to the energy chain, the user can now use an individual adapter. The energy chain thus becomes an interface that saves 80 per cent of the installation time. The design and functionality of the adapter also convinced the jury of the German Design Award 2021.
A forgotten screwdriver in an energy chain, a bent trough as well as ice, snow and bulk material can quickly lead to a total failure of cranes with high costs. This prompted igus to develop a new push/pull force monitoring system. The EC.PR precisely records the force values of the floating moving end and adjusts the force limits. This prevents high repair costs and damage to the system.