Add to ORKGTraditional industrial robots have problems interacting with an uncalibrated, ill-defined environment where part geometry and position may vary. Active force control technology has therefore been suggested as a solution to add the extra sensory dimension needed to handle manufacturing tasks like assembly and deburring. The technology is proposed to give increased flexibility compared to other solutions and force control systems are available commercially. Active force control installations, however, are still uncommon in industry. This paper presents two cases of force control applications; assembly of a compliant carbon fiber structure and deburring/cleaning of iron castings. Based on these two cases, some issues are raised concerning how ...
In the area of production engineering, there are ongoing efforts to improve manufacturing strategies...
With strengthening focus on digitalization and flexibility, active and flexible fixtures can provide...
Position-based force control is presented, incorporating compliance in the robot joints and possibly...
Force control is introduced to robots to solve the problem in machining applications due to the fact...
Most assembly tasks in industry require the manipulator end effectors to come into contact with the ...
This paper deals with the use of an industrial robot (IR) for the deburring of hard material items (...
Deburring of cast parts can be a very challenging task. Today, large burrs on large casting are most...
Modern industrial robots are traditionally programmed to follow desired trajectories, with the only ...
In manufacturing, and industrial robot is often used to manipulate objects (work pieces) either in f...
Force sensing provides robots the capability to accomplish tasks where physical interaction with the...
This paper aims to present the critical issues and methodologies to improve robotic machining perfor...
Cast iron parts deburring is a complicate and always more demanding task: it requires to realize an ...
In this paper, the results from a joint industry-academia project in industrial robotic force contro...
The presented paper proposes an analytical force overshoots free control architecture for standard i...
In the last few decades there has been a large increase in industrial robots used in the machining i...
In the area of production engineering, there are ongoing efforts to improve manufacturing strategies...
With strengthening focus on digitalization and flexibility, active and flexible fixtures can provide...
Position-based force control is presented, incorporating compliance in the robot joints and possibly...
Force control is introduced to robots to solve the problem in machining applications due to the fact...
Most assembly tasks in industry require the manipulator end effectors to come into contact with the ...
This paper deals with the use of an industrial robot (IR) for the deburring of hard material items (...
Deburring of cast parts can be a very challenging task. Today, large burrs on large casting are most...
Modern industrial robots are traditionally programmed to follow desired trajectories, with the only ...
In manufacturing, and industrial robot is often used to manipulate objects (work pieces) either in f...
Force sensing provides robots the capability to accomplish tasks where physical interaction with the...
This paper aims to present the critical issues and methodologies to improve robotic machining perfor...
Cast iron parts deburring is a complicate and always more demanding task: it requires to realize an ...
In this paper, the results from a joint industry-academia project in industrial robotic force contro...
The presented paper proposes an analytical force overshoots free control architecture for standard i...
In the last few decades there has been a large increase in industrial robots used in the machining i...
In the area of production engineering, there are ongoing efforts to improve manufacturing strategies...
With strengthening focus on digitalization and flexibility, active and flexible fixtures can provide...
Position-based force control is presented, incorporating compliance in the robot joints and possibly...