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HRC – hype or success model for the automotive industry?

There is great hope in the future of Human-Robot Collaboration (HRC) to bring the strengths of humans and robots together without barriers. The automotive industry is a pioneer of automation, but is this also true for HRC? According to surveys, the concept seems to be very popular with car manufacturers at first sight, but there are also sceptics.


Sebastian Schuster
28 October 2020
Technology
Reading Time: 4 min.

We wanted to learn more about this and asked Christoph Hock, KUKA Systems Head of HRC, to give us a deeper insight into the world of human-robot collaboration in the automotive industry.

Human-robot collaboration: What exactly is behind it?

Human-robot collaboration, or the use of a collaborative robot (cobot), is about the legally compliant implementation of an application in which human and machine can be in the same workspace at the same time. In practice, the term is often used in a different way. Almost every plant in which a lightweight robot is used, a safety fence has been replaced by a scanning field or it has been separated in a way commonly called “HRC-application” or “cobot plant”.

Status Quo: How far is the topic HRC already established in the automotive production?

HRC applications can be found in almost all sectors of automotive production, but they are widely scattered. Many car manufacturers have tested the technology and implemented successful applications.

However, the absolute number of applications is less than predicted years ago. The initial euphoria resembled a ‘HRC revolution’ and accordingly, the expectations of this new technology were very high. In the meantime, the technology has evolved. The planning premises, or boundary conditions, that lead to a successful HRC application, are well known.

External safety devices to monitor the robot environment are also developing rapidly and are becoming more and more precise and intelligent. In addition to classic scanners, safe radar technology for plant engineering is now available, for example. Despite all possibilities, it is important that application designs are not getting too complicated. Good engineering will ensure that the actual “Human-robot collaboration” is not compromised.

Although the current economic situation is causing cobot sales to drop significantly, a positive forecast is very likely. The trend towards cobots is clearly visible since in addition to the collaboration possibilities, this can be an easy-to-use and quick set-up solution.

Robots in use: In which working areas has HRC already been established and where are still possibilities?

The field of cobot applications or open designed plants is very versatile. Successful applications can often be found when the task and periphery can be designed “HRC compatible” without major adjustments:

The combination of the above processes is reflected in the final assembly and its upgrade lines. In this area, the degree of automation is relatively low but can be expanded through further application possibilities. In most cases, the planning premise is “flow operation”, also known as, “assembly in motion”.

Hurdles: What technological challenges need to be overcome?

collaborative-cobot-used-for-assembly-on-the-assembly-line

In principle, the technical challenges for assembly in motion operations have been solved. For the KUKA LBR iiwa, for example, the complete range of functions can be realized with “Assembly in Motion” technology (AIM), while HRC safety and sensitivity are retained.

Also, for conventional industrial robots assembly in motion can be automated by means of “ConveyorTec”. Just as important as the availability of this technology is the question of the component position and the actual operating point of the robot. In theory, conveyor belts only run at a constant, and when using automated guided vehicles (AGVs), slight twisting or a positional offset may occur at different speeds. By means of sensitivity of the robot and appropriate camera and sensor technology, this can be implemented.

The question of the technological challenge is currently more a question of economic efficiency. How much technology must be invested to sustain a stable and safe process and how long does it take to commission these systems, ergo – does automation still pay off then? Additionally, organizational hurdles must also be considered. The system technology must be simple and understandable. Many cobot manufacturers have proven that this is possible.

Future prospects: What are KUKA’s possible further developments and visions and what trends is the market showing?

As mentioned earlier, demand for cobots will pick up significantly once the economic situation recovers. Device prices will continue to fall, while at the same time, technology will continue to improve. Modern tools such as “machine learning” can also help meet the high demand for robot applications in the industry.

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Sebastian Schuster
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