Six-Axis Collaborative Welding Robot | 6 Axis, Payload 5kg, ±0.2mm Accuracy

• ✔ 6 axes for maximum flexibility and range of motion
• ✔ Load capacity up to 5 kg for a wide range of welding tools
• ✔ Repeatable trajectory accuracy of ±0.2 mm for perfect welds
• ✔ Point-to-point movement speed exceeding 60 m/min
• ✔ Support for many welding methods (MIG, MAG, CO2, etc.)
• ✔ Increase productivity and improve working conditions
• ✔ Intuitive programming using the teaching device

Introducing a cutting-edge six-axis collaborative robot designed for precision welding and handling in industrial applications. This robot is ideal for modern manufacturing environments where high quality, speed and efficiency are emphasized. Its flexible design and advanced control systems ensure reliability and adaptability for a variety of tasks.

⚙️ What can this robot do?

• Multi-purpose, reprogrammable manipulator with automatic control, featuring six programmable axes.
• Possibility of equipping with various tools and end effectors thanks to the standard mechanical interface.
• The basic working principle is based on teaching and reproduction, where the robot stores positions, movement and welding parameters.
• Adaptability for all arc welding and cutting technologies, including MIG (CO2, MAG), MIG for aluminum and specialty alloys (MIC), and submerged arc welding.
• Excellent point movement speed exceeding 60 m/min and trajectory repetition accuracy of ±0.2 mm.
• Linear and circular interpolation swing functions with a total of six modes, meeting different welding process requirements.
• The load capacity of 5 kg allows handling of common welding tools.

🔬 Explore every detail

This collaborative robot is the epitome of industrial automation, designed with precision and user-friendliness in mind. Its six-axis structure provides unparalleled flexibility, allowing the welding gun to achieve any spatial trajectory and position. This is key for complex welds and optimizing manufacturing processes.

This robot is constantly evolving with the latest advances in technology such as weld tracking, offline programming, path planning and intelligent control. Its modular design allows for easy integration into existing systems, and its robust construction ensures a long service life even in harsh industrial conditions. The system includes a control cabinet with an advanced control module that ensures smooth and precise execution of all operations.

📈 Optimize your production: Overcome the challenges of manual welding!

Are you concerned about inconsistent weld quality, slow production cycles, or high costs associated with skilled labor? Manual welding in demanding environments poses significant risks to worker safety and often results in variability in the final product. Outdated methods are no longer sufficient for the demands of modern industry.

🚀 The future is here: Get your time back and increase profitability!

Imagine a workplace where welds are always perfect, productivity runs 24/7, and your workers are safe. This six-axis collaborative welding robot is the solution that will transform your manufacturing. It delivers unmatched precision, shortens production times, and lowers operating costs, allowing you to focus on innovation and growth.

🌟 More than just features, real benefits

• Compact design and many joints: -> Benefit: Extreme flexibility and a wider range of motion allow you to work even in confined spaces.
• Advanced control system: -> Benefit: Immediate and precise response to commands ensures smooth and efficient operation.
• Accelerated operation: -> Benefit: Significant savings in working time and increased overall production throughput.
• Intelligent welding manipulator: -> Benefit: Wider application possibilities and adaptability to various welding tasks.
• Stabilization and improvement of welding quality: -> Benefit: Uniform and flawless welds that meet the highest standards.
• Increased work productivity: -> Benefit: Ability to operate continuously 24 hours a day, 7 days a week.
• Improved working conditions: -> Benefit: Workers can be moved from dangerous and monotonous tasks.
• Reduced worker skill requirements: -> Benefit: Easier operation and programming reduces the need for highly specialized labor.

🎯 Who is it the ideal choice for?

• Manufacturing companies: Automotive, mechanical engineering, construction and metal fabrication looking to automate welding processes.
• Welding shops: For those who want to increase the capacity, accuracy and quality of their services.
• Research and development centers: For testing new methods and optimizing production processes.

🛡️ Do you have concerns? We'll answer them

• Concern: What about programming? Is it difficult to set up the robot? -> Answer: Currently, the most widespread and sophisticated method is point programming using a teaching device, which is effective and relatively intuitive.
• Concern: How efficient is a robot compared to human labor? -> Answer: A conservative estimate shows that one robot can replace three to five human workers, resulting in significant savings.
• Concern: What is the service life and maintenance requirements? -> Answer: The typical service life of an industrial robot is 8-10 years. To maintain a long service life, regular maintenance is required once a year or after 3,000 operating minutes.

📊 Technical specifications

Robot type	Six-axis collaborative welding robot
Degrees of freedom	6 axes
Load capacity (payload)	5 kg
Max. point-to-point speed	> 60 m/min
Trajectory repetition accuracy	±0.2mm
Welding swing modes	6 (including linear and circular interpolation)
Supported welding methods	MIG, CO2, MAG, MIC, submerged arc welding
Programming method	Point programming using the teaching device
Lifespan (expected)	8-10 years (with regular maintenance)
Maintenance frequency	Annually or after 3,000 operating minutes
Arm length options	Various (e.g. 2m, 4m, 8m - model by model)

📦 Package Contents / Key Components

Robot body	Mechanical part with arm, wrist and end part
Robot control box	With control module and drive units
Welding power source	For powering the welding process
Wire feeder	For automatic welding wire feeding
Wire spool holder	For stable storage of the welding coil
Welding gun	For weld application
Learning device (demonstrator)	For programming and monitoring the robot
Connecting cables	Required for connecting all components
Shielding gas	For weld stabilization and protection against oxidation
Welding wire	Welding consumables

❓ Frequently Asked Questions

What welding methods does this robot support?

The robot supports a wide range of arc welding and cutting technologies, including MIG (CO2, MAG), MIG for aluminum and specialty alloys (MIC), and submerged arc welding.

How is the robot programmed?

The robot is programmed primarily using point programming using a teach pendant, which allows the user to guide the robot step by step and save individual positions and parameters.

Can one robot replace multiple human workers?

Yes, a conservative estimate suggests that one robot can replace the equivalent of three to five human workers, significantly increasing efficiency and reducing costs.

What is the expected lifespan of this industrial robot?

With regular maintenance, the normal lifespan of an industrial robot is 8-10 years.

How often is it necessary to perform maintenance on the robot?

It is recommended to perform maintenance once a year or after every 3,000 operating minutes to extend the service life and ensure trouble-free operation.

What are the safety requirements for operating a robot?

The operator must be properly trained and certified. Before starting work, the equipment must be inspected and safety rules must be observed during operation, including wearing protective equipment and prohibiting unauthorized persons from entering the robot's working area.

What benefits does a robot bring to productivity?

The robot can work 24 hours a day, 7 days a week, stabilizing and improving weld quality, reducing worker skill requirements, and improving overall labor productivity.