DHR EngineeringHey guys, we've made this system to enable our R&D team get more work done within a shorter timeframe.
We're constantly prototyping various mechatronic devices, electrical cabinets and custom robotic grippers. Having the system from the video got our mechanical engineers to match the iteration speed of our software engineers.
We'll be launching a series of videos showcasing the advantages of 3D printing automation and comparing it side by side with manual operation.
3D Printing Automation by DHR EngineeringDHR Engineering2024-08-19 | Hey guys, we've made this system to enable our R&D team get more work done within a shorter timeframe.
We're constantly prototyping various mechatronic devices, electrical cabinets and custom robotic grippers. Having the system from the video got our mechanical engineers to match the iteration speed of our software engineers.
We'll be launching a series of videos showcasing the advantages of 3D printing automation and comparing it side by side with manual operation.
Stay tuned! DimitarIndustrial automation explained over 42 secondsDHR Engineering2024-09-05 | Flexible automation works while you sleep. You don't need high volume parts to utilize it.Human vs Robot in 3D Printing Productivity BattleDHR Engineering2024-08-26 | Extruder Utilization Battle: Human vs. Robot We took the time to measure the machine utilization difference between manual and robotic operation of our 3D printing farm over the course of 24 hours, printing exactly the same parts.
The robotic operation achieved 73.8% more printing hours across the 20 machines.
Next Steps: We plan to extend this test over an entire weekend next month to gather more data and see how the trend develops over a longer period.15 July 2024DHR Engineering2024-07-15 | ...3DHR Bambu Lab FDM AutomationDHR Engineering2024-07-15 | Our custom robot tends 20 Bambu printers over 20 hours. The productivity gain is immense. Which printers should we integrate next?Open source AGV by DHR EngineeringDHR Engineering2020-11-17 | This vehicle was designed for the first automated indoor farm in Basel, Switzerland. It allows "lights out" operation and saves up to 80% of the labor costs.
The AGV is ROS based, with open REST API for easy integration into your process. The modular design allows operation in up to 6 meter height and 100 kg of payload. The horizontal accuracy is +- 2.5mm and +- 0.42 deg. Desgined to be affordable by every small business that needs automation to scale.