Robotic metal welding arms for compact, high‑precision cells.

Robomation designs 6‑axis welding robots that bring the performance of established arc‑welding families into compact cells sized for small and mid‑size manufacturers. [web:78][web:106]

Discuss your welding project ↗ Visit robomationsys.com

6–13 kg payload Typical welding arm class

Reach ≈1.4–1.9 m Repeatability ≈±0.02–0.08 mm

Robotic welding arm working on a steel frame with welding sparks

Robotic welding cell

Compact cell with 6‑axis welding arm, positioner and fume extraction, engineered for repeatable fillet and butt welds on steel structures. [web:78][web:100]

Robot type: 6‑axis arc‑welding class arm [web:78][web:103] Reach: ≈1.4–1.6 m standard range [web:103][web:109] Processes: MIG / MAG / TIG [web:78][web:106]

Robotic arm portfolio

Two complementary welding robots: RM‑L1 focuses on long linear seams and frames, while RM‑C1 is optimized for circular and multi‑axis welds on tubes and rings. [web:78][web:103]

Robot · Linear focus

RM‑L1 Long‑Reach Welding Arm

RM‑L1 is a 6‑axis welding arm sized for beams, chassis parts and long fillet welds, taking inspiration from 6 kg to 10 kg, ≈1.4–1.9 m reach industrial arc‑welding robots. [web:103][web:106]

Payload class: ≈6–10 kg at wrist Max reach: ≈1.5–1.9 m

Repeatability: ≈±0.02–0.06 mm Max axis speed: up to 250–500 °/s

Robotic welding arm executing a long linear weld on a steel beam — RM‑L1 class welding arm, ideal for straight and multi‑pass welds on frames, beams and structural components in compact cells. [web:78][web:88]

Robot · Circular / tube focus

RM‑C1 Circular & Multi‑Axis Welding Arm

RM‑C1 combines the 6 axes of the arm with rotary fixtures for 360° welds on pipes, flanges and rings, similar in philosophy to arc‑welding robots used on tubular parts. [web:72][web:75][web:78]

Payload class: ≈6–13 kg Reach: ≈1.4–1.7 m

Circular welds: 0–360° with weaving Typical processes: MIG / MAG / TIG

Welding robot arm performing circular welds around a metal tube — RM‑C1 concept: welding arm with rotary positioners for circular welds on tubes, rings and cylindrical parts. [web:75][web:88]

Welding platform

Robomation follows industrial best practices: 6‑axis controller, dedicated welding interface and process monitoring inspired by established arc‑welding systems. [web:80][web:97][web:110]

Control

RoboCore Weld Control

RoboCore synchronizes robot motion with welding power source parameters to control current, voltage, weaving patterns and start/stop sequences seam by seam. [web:80][web:97]

6‑axis control · External axes ready Fieldbus: Ethernet / industrial buses

Process

From tack to multi‑pass

Typical applications include fillet welds on frames, tube‑to‑flange joints, brackets and small chassis parts, with travel speeds up to several hundred mm/s. [web:78][web:104][web:107]

Processes: MIG/MAG, TIG, brazing Multi‑layer / multi‑pass programming

About Robomation

Robomation is based in Bordj Bou Arreridj (Aouin Zriga, Trig Medjana), founded by Adel Saoud and Raouf Zerrougui to make welding robots accessible to agile factories and local fabrication workshops. [file:1]

Cell design

Compact welding cells

Cells are built around a single welding arm, safety enclosure and smart fixtures, so workshops can automate one part family without redesigning the whole plant. [web:105][web:107][web:113]

Floor‑mount robot · Small footprint Fume extraction & safety interlocks

Quality

Consistent weld results

By aligning payload, reach and accuracy with proven arc‑welding robots, Robomation aims for stable, repeatable weld quality over long production runs. [web:103][web:106][web:110]

Repeatability ≈±0.02–0.08 mm TCP and path‑quality best practices

Contact

Let’s design your weld cell

Share your part drawings, materials and yearly volume, and Robomation will help define whether a linear‑focused arm or circular/tube‑focused arm is the best fit. [file:1][web:113]

Email: info@robomationsys.com Tel: 0666 86 37 99