- “I always prefer working as per the given standards, and I’m sure, this is the right way to complete any project.”
- Mega Project: The Mumbai Metro
- Weldfab Tech Times:- August – september 2020
- WELDFAB TECH AWARDS 2019
- WELDFAB TECH AWARDS 2019
- “A lot of industries are now considering friction welding as one of the key technologies within their manufacturing process.”
- Application of LEAN techniques in NDT, Welding and Third Party Inspection(TPI)
- Weldfab Tech Times:- Feb – Mar 2020
- Welders passion
- Resistance Welding: Solutions
Don’t Spec a Welding System Until You’ve Done This
Historically, the prevailing thought has been that robotic welding systems can’t handle the diversity of tasks required for difficult weldments, but technology has changed. From improved welding process capabilities to enhanced laser sensing and technologies, advanced robotic welding solutions are making it easier for manufacturers to tackle the most difficult, dangerous and dirty tasks.
When manufacturers are faced with a welding process that could potentially benefit from automation, where’s the best place to begin? The instinct is to dive right into specifying the cell design and required components. However, current trends in manufacturing are driving more attention to calculating return on investment (ROI) and gauging payback (time). While increasing throughput, improving product quality, dealing with labor shortage and right-sizing a robotic cell are valid factors to consider when pricing out a system, it’s also important to understand the potential financial gains of the robotic welding solution over the course of a targeted payback period.
Yaskawa’s Robotic Welding System Payback Calculator gives manufacturers a budgetary target for a robotic system that meets payback and productivity requirements. Not only can the derived calculations serve as a financial guideline, but also, the figures can establish goals and expectations. The workcell value calculation assumes that one robot in a system can do the work of three and a half welders and is affected by the following key inputs:
- Desired system payback period
- Straight labor replacement
- Additional productivity gains from system
- Other savings through reduced materials costs, quality improvement, etc.
While significant cost savings can occur over the 10- to 15-year lifespan of a robot (30,000-40,000 hours with proper maintenance and possible refurbishment), most companies plan to reach ROI within a two-year payback period.
So, why is it crucial to proactively bring these calculations into your decision making? Consider this hypothetical purchasing situation:
The Best Designed System Can Still Miss the Mark
A manufacturing company, struggling to meet daily quotas, sought to purchase a robotic welding system. The existing process involved five workers at five different stations, spanning two shifts. However, an occasional labor shortage due to vacation or sick time—with no skilled laborers available to fill the void—made product quotas hard to achieve.
Company management determined that an investment in robotic automation would be advantageous to their current operations and spent months evaluating each work station, specing out a system perfect for their process and capable of meeting daily quotas. Certain that a robotic workcell—based on process needs alone—would be an ideal solution, the company bought a welding system.
Once the system was installed and running at full capacity, company leadership realized something: even though daily quotas were being reached (despite occasional labor shortages), the numbers were showing that the payback period for their investment was now too long to justify the purchase.
The company failed to clearly define their business expectations and apply that knowledge to their equipment investment. If ROI targets had been determined upfront, the chosen system could have been built with key requirements in mind.
Estimating a realistic budget to meet defined business goals makes system design a more focused and productive undertaking. Upon commissioning of a new system, ramp-up time can be critical to meet target payback periods. In most cases, a standard ArcWorld® workcell can be a perfect fit. Not only are these pre-engineered solutions easy to integrate and operate, but also, they offer exceptional design and optimal configuration options for parts of all sizes. For unique applications, there are customized systems (equipped with world-class components to meet specific needs) available.
Robotic welding systems have come a long way in the past decade and are able to provide game-changing advantages for customers spanning diverse industries. Understanding the cost-savings associated with a long-term approach to automation is essential. Only then, can manufacturers make the most profitable decision when it comes to choosing a robotic welding solution.