6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding

Product Details
Customization: Available
Application: Welding
Control Mode: Continuous Path Control
Gold Member Since 2023

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  • 6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding
  • 6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding
  • 6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding
  • 6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding
  • 6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding
  • 6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding
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Basic Info.

Model NO.
MIG-500PR
Degrees of Freedom
6-axis
Drive Mode
Electric
Payload Capacity
3 kg
Transport Package
Wooden Box
Specification
65*31*66cm
Trademark
Bodeke
Origin
China
HS Code
8479501000
Production Capacity
20/Month

Product Description

Introduction
The Portable MIG Welding Robot is a state-of-the-art solution designed to revolutionize welding processes across various industries. By employing Metal Inert Gas (MIG) welding technology, this robotic system provides enhanced efficiency and superior weld quality, making it an essential tool for manufacturers, fabricators, and construction professionals. Its compact design and user-friendly features allow for seamless integration into diverse working environments.
Key Features
Compact and Lightweight Design: The robot's compact and lightweight structure makes it easy to transport and set up in different locations. This is particularly advantageous in settings where space is limited or where mobility is required for various welding tasks.
Advanced MIG Welding Technology: Utilizing MIG welding, the Portable MIG Welding Robot feeds a continuous wire electrode through a welding gun. This process is effective for welding a range of metals, including mild steel, stainless steel, and aluminum, allowing for versatility in various applications.
User-Friendly Interface: The robot features an intuitive control panel that enables operators to easily input welding parameters and monitor performance in real-time. This user-centric design minimizes training time and enhances overall productivity.
High Precision and Consistency: Engineered for precision, the robot ensures consistent weld quality across multiple applications. With advanced motion control technology, it can execute complex welding paths with high accuracy, significantly reducing the risk of defects and rework.
Integration with Automation Systems: The Portable MIG Welding Robot can seamlessly connect with existing automation systems, including conveyor belts and other robotic solutions. This integration enhances operational efficiency and streamlines the overall welding process.
Safety Features: Safety is a paramount consideration in welding operations. The robot is equipped with advanced safety features, including collision detection systems, emergency stop functions, and protective barriers, ensuring a safe working environment for operators.
Versatile Applications: Suitable for a wide range of sectors, including automotive, aerospace, construction, and metal fabrication, this robot can handle both large-scale manufacturing projects and specialized tasks with ease.
Energy Efficiency: Designed for efficient operation, the robot consumes less energy compared to traditional welding methods. This energy efficiency not only reduces operational costs but also supports sustainability efforts within organizations.
Benefits
Enhanced Productivity: Automating welding tasks with the Portable MIG Welding Robot significantly boosts productivity. The robot operates continuously without breaks, allowing for faster project completion, increased output, and reduced lead times.
Cost Savings: Businesses can realize considerable cost savings by minimizing labor costs associated with manual welding and reducing material wastage. The initial investment in the robot is quickly recouped through enhanced efficiency and lower operational expenses.
Improved Quality Control: The precision and consistency of the Portable MIG Welding Robot lead to superior weld quality. Fewer defects translate to higher customer satisfaction and reduced warranty claims, enhancing the overall reputation of the business.
Flexibility and Adaptability: The robot's portability allows for quick adjustments to accommodate various welding projects. Whether performing small repairs or managing large production runs, the robot easily adapts to different welding requirements.
Reduced Labor Dependency: Integrating the Portable MIG Welding Robot into operations reduces reliance on manual labor for welding tasks. This alleviates challenges related to labor shortages and allows skilled workers to focus on more complex tasks.
Streamlined Training and Operation: The user-friendly interface simplifies the training process for operators. New users can quickly become proficient with minimal instruction, leading to faster implementation and reduced downtime.
Conclusion
The Portable MIG Welding Robot is a significant advancement in welding technology, offering unmatched mobility, precision, and efficiency. Its ability to deliver high-quality welds across various applications makes it an invaluable asset in modern manufacturing and construction.
Investing in this innovative solution enables businesses to enhance productivity, reduce costs, and improve overall quality, positioning themselves for success in a competitive market. In summary, the Portable MIG Welding Robot transforms traditional welding processes, setting a new standard for efficiency and quality, empowering organizations to achieve their goals with confidence.

Welding power supply model MIG-500P/PR
Input power supply voltage/frequency 3-380V±10%/50Hz&60Hz
Rated input power 24KVA
Rated input current 37A
Rated no-load voltage 80V
Output current/voltage adjustment range 40A/16V---500A/39V
Duty cycle
 (40°C) 60%-100%
500A/39V
387A/33.4V
Welding machine weight 53KG
Welding machine volume
(L x W x H) mm
650*310*660
Efficiency > 90%
Power factor > 0.87
Main transformer insulation level H
Output reactor insulation level B
Wire feeder weight 15kg
Shielding gas flow rate 10-20 L/min
Wire feeding speed range 1.2---22 m/min
Supported welding wire diameters φ0.8,φ1.0,φ1.2,φ1.6
Implementation Standards GB15579.1-2013
6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding6-Axis Welding Robot Arm, Collaborative Robots That Can Be Used for Welding
The manufacture of this series of welding machines complies with the standard GB15579.1-2004 "Arc welding equipment part 1: welding power supply". The MIG-P series inverter pulse MIG/MAG arc welding machine has two welding modes: P-MIG and conventional MIG.
The P-MIG welding mode can achieve carbon steel and stainless steel.
For the welding of non-ferrous metals, the MIG welding mode can achieve low spatter welding of carbon steel and CO2 gas shielded welding.

The performance characteristics are as follows:
Fully digital control system to achieve precise control of the welding process and stable arc length.
Fully digital wire feeding control system, accurate and stable wire feeding.
The system has a built-in welding expert database and automatic intelligent parameter combination.
Friendly operation interface, unified adjustment method, easy to master.
Minimal welding spatter and beautiful weld formation.
100 sets of welding programs can be stored to save operation time.
The special four-step function is suitable for welding metals with good thermal conductivity, and the welding quality is perfect when starting and ending the arc.
It has various interfaces for connecting with welding robots and welding machines (optional). PWM inverter technology can improve the reliability of the whole machine, high precision, energy saving and power saving.

Precautions for use
(1) The equipment number plate should be riveted at the specified position on the upper cover of the casing, otherwise the internal components will be damaged.
(2) The connection between the welding cable and the welding machine output socket must be tight and reliable. Otherwise, the socket will burn out and cause instability during welding.
(3) Avoid contact between the welding cable and metal objects on the ground to prevent short circuit of the welding machine output.
(4) Avoid damage and disconnection of the welding cable and control cable.
(5) Avoid deformation of the welding machine by impact and do not pile heavy objects on the welding machine.
(6) Ensure smooth ventilation.
(7) When used outdoors, the welding machine should be covered in rainy and snowy weather, but ventilation should not be hindered.
(8) The maximum cooling water temperature should not exceed 30ºC, and the minimum should not be frozen. The cooling water must be clean and free of impurities, otherwise it will block the cooling water circuit and burn the welding gun.
2. Regular inspection and maintenance of the welding machine
(1) Professional maintenance personnel should use compressed air to remove dust from the welding power supply once every 3 to 6 months, and pay attention to check whether there are loose fasteners in the machine.
(2) Check the cable for damage, the adjustment knob for looseness, and the components on the panel for damage.
(3) The conductive nozzle and wire feed wheel should be replaced in time, and the wire feed hose should be cleaned frequently.
3. Welding machine faults and troubleshooting
Before repairing the welding machine, the following checks should be performed:
(1) Whether the status and welding specification display on the front panel of the welding machine are correct, and whether the buttons and knobs are working properly.
(2) Whether the line voltage of the three-phase power supply is within the range of 340V~420V; whether there is a phase loss.
(3) Whether the connection of the welding machine power input cable is correct and reliable.
(4) Whether the grounding wire connection of the welding machine is correct and reliable.
(5) Whether the welding cable connection is correct and the contact is good.
(6) Whether the gas circuit is good, and whether the gas regulator or proportioner is normal.

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