Bochum University of Applied Sciences (HSBO) is applying for the installation of a robot cell for automated collaborative manufacturing in the construction industry. This manufacturing cell consists of 6 collaborative robots (cobots) with individual load capacities of 20-25 kg each, which are movably mounted on linear axes and equipped with application-specific or generalist manipulators via tool changing systems. The overall system has 42 degrees of freedom of movement and should thus be able to perform a wide range of automatable tasks from the field of building construction. These include additive manufacturing of complex components, automated and collaborative prefabrication of component parts, automated application of tools such as drills and milling machines in regard to joints in lightweight structures, and applications from the field of non-destructive testing of building materials. The large-scale equipment applied for will make a significant contribution to the establishment of an interdisciplinary laboratory environment for research into working methods for collaborative manufacturing with craftsmen and robots in building construction. The innovative approach is to enable simultaneous and collaborative manufacturing between humans and robots by setting up the large-scale device using small-scale cobots, allowing the precise and rapid production of a variety of prototypes from different materials at 1:1 scale. In this work environment, collaborative workflows involving robots and humans, both in separate and shared workspaces, will be able to be tested. The prototypical fabrication of demonstrators is intended to help find answers to research questions in the fields of "Digitalization of construction and craft", "Demographic change and safety" and "New methods for circular building". The large-scale equipment applied for will be used to develop workflows and record process data, which will form the basis for dealing with the following research questions: To what extent are robotic processes capable of replicating traditional crafts, reanimating traditional techniques and transferring and scaling them to match the realm of construction? Can joint workspaces (simultaneous in terms of space and time) involving craftsmen and robots be developed that efficiently enable the fabrication of building components, e.g., built-in elements in housing construction? How do requirements for work safety and ergonomics change in the context of digital craft and demographic change? How can the existing gap between the experiential knowledge of humans and the precision and speed of robotics be closed in the context of construction processes? Can collaborative human-robot interactions go beyond the synthesizing function to also cater to disassembling and analytically sorting processes, as we encounter an emerging circular construction industry?

DFG Programme Major Instrumentation Initiatives

Major Instrumentation Kollaborative Fertigungszelle für die Herstellung von Holzständerwerken

Applicant Institution Hochschule Bochum

Leader Professor Dr.-Ing. Daniel Schilberg

Co-Investigators Professor Erhard An-He Kinzelbach; Professor Sven Pfeiffer