Gear Technology Magazine
www.geartechnology.com/articles/27151

WFL Introduces iControl Process Monitoring System

June 3, 2021
Thanks to the fundamental redevelopment of its in-house process monitoring system, WFL has significantly expanded its range of functions. With the new WFL iControl system, process signals can be registered, evaluated and recorded in the CNC-kernel of the control with the maximum sampling rate. The introduction of new monitoring strategies, such as so-called "yellow limits," results in considerable advantages in tool breakage and tool wear monitoring. Another new feature is the option of integrating external sensors into process monitoring. The latter allows, for example, continuous monitoring and recording of performance data from coolant pumps or conclusions about the condition of spindle bearings.

With the new iControl process monitoring system, WFL gives the future machine operator a whole bundle of functions to ensure reliable and economical production, particularly in series production. On the one hand, the machine and tools should be used with maximum productivity; on the other hand, the process should run as stably and reliably as possible. The software package that WFL provides for this is extremely diverse and offers a suitable monitoring tool for practically every processing situation. The up to 16 process signals to be monitored are configured by WFL at the factory according to the machine equipment and displayed live on the control screen. Important process signals include the forces or torques of the NC axes and spindles, but also the signals from integrated sensors (vibration, pressure, flow, temperature, etc.). These are built into machine components or tools and can be used for a wide variety of applications such as process control, optimization or monitoring.

Process monitoring is typically divided into functions for protecting machines, workpieces and tools, and functions for recording tool wear and ensuring constant productivity. Key new features for detecting tool wear and total breakage include the "wear limit" and the "tool missing limit." The goal was to develop a solution that would respond sensitively and reliably to all conceivable abnormalities in the machining process. This is complemented by a long-time data recording function for process data that WFL offers as an additional option under the name "iControl Data Recording", which is an important topic in the production of safety-relevant components in particular.

WFL is launching two design variants of the new iControl process monitoring system. The "iControl Basic" version monitors the designated maximum machine loads only and triggers a quick stop within ten milliseconds in the event that these are exceeded. The "iControl Advanced" variant also makes it possible to select an individually customizable monitoring strategy for each machining operation and systematically develop a machining process that provides maximum productivity. The software was designed by WFL to ensure that the optimal monitoring strategy could be selected easily and intuitively, and freely combined with other limits. For example, the energy consumption per operation can serve as a comparative value when this operation is repeated, making it possible to detect excessive tool wear or a total breakage at an early stage during drilling and avoid serious damage. However, brief and isolated load peaks in the process sequence probably would not have any bearing on this operation and even small partial breakages on the cutting edge would be acceptable. As a result, the process would not be interrupted provided that the event was not identified as a total failure of the tool. By contrast, when it comes to finish turning, even the tiniest partial breakage on the cutting edge could lead to an unacceptable surface quality, even though in principle the tool would still be functional. These types of events happen in a matter of a few milliseconds and are difficult or impossible for the operator to see during machining. With dynamic monitoring enabled, iControl would detect the inconsistency, interrupt the process immediately and inform the responsible staff member.

The maximum loads on the individual axes and spindles – known as "red limits" – can be freely selected anywhere up to the collision limit. This means that, for each operation, there is a pre-set percentage of the maximum permissible load for each axis or spindle. If no limit is selected, the collision limit set at the factory will apply automatically.

The process signal from a complete machining sequence can be recorded using a teach-in cut. The allocation of upper and lower process limits defines the tolerance band within which the process signal must remain during machining. If these limits are violated, the machine will stop. It is also possible to select a pre-warning limit, otherwise known as a "yellow limit." If this limit is reached, the machine will not stop immediately. Instead, a message will be generated to enable the operator to respond in good time, i.e. before another limit is reached. This primarily serves to ensure uninterrupted operation and makes it possible to replace worn tools even if they have yet to reach the end of their (theoretical) tool life. Typically, the collision limits set at the factory will always automatically limit any process-related forces to a level that is safe for the machine.

Nevertheless, there are often applications where the stability of the workpieces, the clamping devices or the required tools simply does not permit large machining forces. The "red limit" can help in these cases in particular because the machine will stop immediately – even if the limit is exceeded for only the briefest of moments. However, the "red limit" also serves to detect tool breakage, chip jams or blanks that are too large and can always be activated in the background so to speak.

The "iControl" process monitoring system is typically characterized by its extremely high sensitivity and reliability. The signal value for process monitoring is derived directly from the drive torques of the NC axes and spindles. A special algorithm eliminates friction and acceleration forces, making it possible to analyze the process signals with particular precision. "iControl" provides essential services for automation and series production in particular. However, making the machining process fully transparent is also beneficial for complex internal machining tasks.