Driving Improvements in Automation with Welding Information
Learn how implementing a welding information management system can drive welding automation improvement.
Welding automation improvement
Welding automation can help companies gain greater productivity, repeatability and quality in their operations, while also making it easier to manage costs. Driving continuous improvements in these operations is the best means to expedite the return on investment in the equipment, while also positioning companies to be more competitive.
Various types of welding information management systems allow companies to track production data (e.g., deposition rates and arc-on time), weld process data and weld process features. Access to this information helps companies locate inefficiencies, identify and rectify missed welds, track any anomalies and determine the cause of weld defects — all factors leading to a more efficient and profitable welding operation. They can also be used with fixed or flexible welding automation
Beneficial for fixed and flexible automation
Many industries rely on some type of automated welding, including oil and gas, construction, and industrial manufacturing and fabrication. These welding operations typically use two types of automation: fixed automation and flexible automation. The best choice depends on the needs of the application.
- Flexible automation refers to a robotic welding system programmed to complete multiple welds in multiple locations and on multiple parts. In these systems, programmable logic controllers (PLCs) are sometimes deployed to handle the application variability. Flexible automation allows different fixtures and programs to be used, offering flexibility to a company for welding multiple parts. But, it may require longer setup and cycle times.
- Fixed automation refers to a welding machine dedicated to making one specific part or family of parts, typically using a fixed welding gun or one that uses a single consistent motion. It offers higher throughput because parts are less complicated and requires fewer welds.
Both types offer benefits of increased productivity, higher weld quality, greater repeatability and reduced costs, as compared to semi-automatic welding. Both can also benefit from the implementation of a welding information management system, although the manner in which each realizes continuous improvements can vary.
Ways welding information offer improvements
Welding information management systems help ensure that companies maximize their investment in automated welding systems. There are numerous solutions available, depending on what a company wants to measure and its goals.
Welding information management systems provide metrics operations can use to analyze the automation process and identify areas of improvement. These metrics include basic quality and productivity components such as arc-on time and weld count, deposition rates and weld parameters.
Basic welding information management systems are passive, as they do not intervene in the welding operation. Typically, their data goes to the cloud for later analysis and action. These systems provide value by documenting, receiving and archiving information that welding operations can use to make productivity improvements.
Another option is an advanced welding information management system that provides more sophisticated metrics and capabilities. This type of system directly communicates with the cell control, providing more real-time weld process quality and weld defect detection.
Compared to a semi-automatic welding process where the welder can make immediate adjustments to optimize parameters or correct issues, robots cannot. It is their job to execute the same weld at the same parameters every time. While capable, operations do not typically program them to identify or compensate for variations in fixturing or part fit-up, which can cause quality issues. Implementing an advanced welding information management system can provide real-time feedback and information in either fixed or flexible automation, but it is especially helpful for the latter.
For example, these systems monitor welding to ensure that the robot completes the correct number of welds for the part, and to the proper duration and/or deposition. If the robot misses a weld or doesn’t complete it, the system alerts the weld cell control or supervisor so they can correct the issue immediately. This feature is especially important in flexible automation because of the variety of parts the same system can weld. One part may have 10 welds, while another part could have more or fewer welds. A welding information management system can track that, ensuring the automated system made the right welds on the right parts. The system will not deem the part successfully complete until all welds have been made, for the proper duration.
Advanced welding information management systems can also offer process control and analysis. These features help monitor and optimize primary process parameters, such as voltage, wire-feed speed and current. It then compares them to upper and lower control limits. This comparison ensures the system executes welds at the established and verified weld process settings throughout the robotic welding process. The systems detect out-of-process welds before the part moves upstream in the welding operation. This is especially important because the further upstream a defective part proceeds, the greater the cost to rectify the problem.
Advanced systems provide additional information
Advanced welding information management systems provide additional information that can help optimize robotic welding processes. These other features include:
- Metrics that analyze arc current and voltage at higher fidelities, which help determine overall arc stability.
- Measurement and record of cycle time, particularly if arc-on time has been exceeded.
- Alerts to excessive use of wire, contact tips or gun liners so operations can plan maintenance — versus unplanned, which can interrupt cycle time and throughput for changeover of consumables.
- A visual interface, which allows the weld cell operator to pinpoint the location of weld defects on a part via colored indicators.
- Standardization of procedures and workflow.
- Reporting capabilities to validate that improvements are happening, to help drive continuous improvement.
These systems also allow companies to make annotations regarding downtime so that they can take action to correct it. Systems can track downtime such as planning for maintenance activities or noting when the robotic welding system is in teach mode or down for safety checks associated with the fixturing. This assessment allows companies to track where time is being lost and why.
The result: Improved quality and productivity
Gaining the most out of both fixed and flexible automation systems isn’t a matter of chance. It involves careful planning, implementation and supervision. Adding a welding information management system can help improve the productivity and quality gains that automation can offer. It can also lower costs by providing and archiving data for companies to drive welding automation improvements — and validate the results.
Simply put, this technology is one more way for companies to make the most out of an investment in welding automation, increase their competitiveness in the marketplace and improve profitability.