In this article, Hakan Aydo?du, CEO at CNC automation manufacturer Tezmaksan Robotic Technologies, explores why upgrading manual welding stations with robotic technology is a scalable, strategic and technically sound decision.

As global supply chains place increasing emphasis on tighter tolerances, shorter lead times and greater product variability, the limitations of manual welding methods are becoming more pronounced. For manufacturers striving to meet these evolving demands without sacrificing infrastructure or flexibility, robotic retrofitting offers a technically robust pathway to automation. In this article, Hakan Aydo?du, CEO at CNC automation manufacturer Tezmaksan Robotic Technologies, explores why upgrading manual welding stations with robotic technology is a scalable, strategic and technically sound decision.

A combination of macroeconomic and operational factors makes robotic retrofitting an increasingly attractive option. The global shortage of skilled welders continues to constrain production, as manufacturers struggle to maintain output with a shrinking labour force. According to the American Welding Society, an additional 320,500 welding professionals will be needed by 2029, while more than 157,000 current welders are nearing retirement.

At the same time, customer expectations for consistency, traceability and defect-free performance are rising — particularly in highly-regulated sectors such as automotive, aerospace and defence. Meeting these expectations using manual processes alone is becoming less feasible.

Retrofitting enhances existing workstations by integrating automation, allowing manufacturers to preserve their current layout and infrastructure while significantly boosting performance. This strategy enables cost-efficient gains in weld consistency, capacity and throughput — all without expanding physical space or personnel.

Rather than replacing entire production lines, robotic retrofitting modernises manual stations with advanced capabilities. For manufacturers managing a hybrid landscape of legacy equipment and next-generation production goals, retrofitting represents a logical step toward Industry 4.0 integration.

Identifying automation readiness
Knowing when to retrofit is crucial. Many signs are already present on the shop floor: inconsistencies in weld quality linked to operator fatigue or shift changes, rising rework and scrap rates, or frequent downtime in high-mix environments. These inefficiencies often signal readiness for automation.

Increasing product complexity can also push manual methods to their limits, particularly when precision geometries or tighter delivery windows are involved. In these cases, the inability to scale consistently and predictably becomes a strategic liability, directly impacting margins and competitiveness.

System architecture of a robotic retrofit
A robotic retrofit typically integrates a programmable robotic arm into an existing manual welding cell, accompanied by peripheral technologies such as rotary or tilt positioners, seam-tracking vision systems and programmable logic controllers (PLCs) to manage weld paths. Many setups now incorporate real-time sensors and closed-loop feedback systems that adjust weld parameters — such as current, voltage or torch speed — on the fly to maintain weld quality even on variable joint profiles.

One of the key advantages of modular systems such as Tezmaksan's CubeBOX Welding Pro is their ability to adapt to diverse part geometries and cell configurations. This flexibility is critical in facilities with frequent changeovers or low-to-medium volume production.

Addressing common misconceptions
Despite increasing adoption, robotic welding retrofitting is still slowed by persistent misconceptions. One outdated belief is that automation is only viable for high-volume, repetitive work. In reality, modern platforms support rapid reprogramming, dynamic tooling and multi-part workflows — making them cost-effective even for job shops and contract manufacturers.

Another concern is workforce displacement. In practice, automation reshapes roles rather than eliminating them. Skilled welders transition into programming, process optimisation and quality assurance — functions that rely heavily on their technical knowledge and ensure the long-term success of automated systems.

Cost is also often perceived as a barrier. However, retrofitting is significantly more accessible than greenfield automation, as it leverages existing infrastructure. Furthermore, regional government grants and tax incentives aimed at boosting industrial automation can offset some of the upfront investment.

Quantifiable outcomes
Robotic retrofitting delivers both immediate and long-term performance improvements. Once deployed, these systems achieve highly repeatable results with minimal deviation, often within sub-millimetre tolerances. This consistency dramatically lowers rework rates and improves first-pass yield.

With higher arc-on times than human operators and no fatigue, robotic welders sustain output across shifts and even enable lights-out manufacturing. Integrated data capture allows manufacturers to track weld metrics in real time, contributing to traceability, predictive maintenance and audit compliance — and this is particularly valuable for facilities seeking ISO certification.
Precision heat input, enabled by stable travel speeds and dwell times, reduces distortion in thin or complex components. Over time, improvements in scrap rates, labour efficiency and production uptime yield a strong return on investment.

A strategic evolution
While retrofitting offers compelling advantages, it demands careful technical planning. Spatial constraints may dictate robot arm size, reach and safety enclosure placement. Electrical infrastructure must be assessed to ensure capacity for high-duty welding operations. Operator training is equally important — modern interfaces are user-friendly, but onboarding remains critical to ensure safety and performance.

Software integration is another key consideration. When connected to MES or ERP platforms, robotic systems enable synchronised scheduling, real-time analytics and closed-loop quality control — all essential features for modern manufacturing.

Robotic retrofitting is not about replacing everything — it's about evolving intelligently. By modernising existing assets with modular, adaptive automation, manufacturers can incrementally transition toward smart, connected production systems without wholesale disruption.

For companies looking to enhance quality, boost efficiency and future-proof their operations, robotic retrofitting is no longer a speculative investment, it's a technically validated and economically sound solution.
Contact Tezmaksan Robotic Technologies to discuss how a tailored retrofit solution can integrate seamlessly into your existing infrastructure — and help you take the next step toward scalable, smart manufacturing.