Laser Welding Automation Solutions for the Metal Industry

High-precision, stable and efficient laser welding robot system helps metal processing enterprises achieve precision welding automation and rapid cost reduction and efficiency.

GLS-Selling Points

High-precision laser welding all-in-one machine

 

1. Welding accuracy up to ± 0.02 mm

2. Weld consistency increased by 40%

3. 24-hour stable continuous operation

4. 6-10 months return on investment

Why did the metal factory choose our laser welding robot?

High precision and high efficiency, suitable for various types of metal parts

Fiber laser high energy density output

effectively eliminating defective products in precision circuit board assembly and processing.

Fiber laser high energy density output

Weld repositioning ± 0.02 mm

Maintains long-term stable and uniform welding forming effects.

Intelligent weld tracking system

Intelligent weld tracking system

Real-time automatic compensation for machining deviations up to ±0.1mm.

Weld repositioning ± 0.02 mm

60% reduction in splashes

Optimizes workpiece surface forming quality and reduces post-processing workload.

Product introduction

  • Metal precision welding has put forward extremely high requirements for weld quality, thermal deformation control and production efficiency, and traditional arc welding has been difficult to meet high-end manufacturing needs
  • Our laser welding robot uses a high-power fiber laser as the core. The weld width is ≤ 0.3mm, the thermal deformation rate is reduced by 70%, and the welding speed is up to 10m/min. It is compatible with mainstream metal materials such as stainless steel, aluminum alloy, copper, and titanium alloy
  • Drag teaching quickly online, online visual quality inspection to guard the quality of the weld throughout the entire process, to help your metal production line achieve high-precision, high-efficiency laser welding automation upgrade.

How do you choose the right laser welding robot for your metal factory?

Laser power matching material thickness:

Laser power matching material thickness:

Thin plate (≤ 2mm) 1000-2000W, medium plate (2-8mm) 3000-6000W, thick plate (≥ 8mm) 6000W or more, power selection directly determines welding quality and efficiency

Whether the welding process package is complete:

Priority is given to models with built-in swing welding, spiral welding, pulse welding and other process modes to avoid secondary development in the form of special joints at a later stage.

Whether visual inspection is standard:

Online visual inspection is a hard requirement for high-end customers such as auto parts, aviation, and medical. It is important to confirm whether it is standard when selecting models, rather than an expensive option later.

After-sales and spare parts protection:

The speed of spare parts supply for lasers and optical components directly affects the risk of shutdown. It is recommended to choose a localized service team that can promise 48 hours of spare parts on-site.

Laser welding robot, so that metal weld accuracy exceeds 0.3mm

Low heat deformation and no orthopedics, efficient cost reduction

Welding speed up to 10m/min, 5 times capacity increase is not a slogan

  • Solve the pain points of recruitment difficulties and insufficient production capacity
  • 5x more efficient, replaces multiple welders, produces 24/7
  • Visual real-time detection, high yield and easy expansion

One-stop delivery, laser welding workstation ready to use

  • Eliminate concerns about investment in self-built production lines
  • Full set of integrated turnkey supply, short delivery commissioning cycle
  • No need to set up a professional team to quickly launch the laser welding production line

Laser Welding Robot vs Traditional Welding

Find the best welding solution for your metal production line

Comparison DimensionLaser Welding RobotManual TIG Argon Arc WeldingAutomatic MIG/MAG Welding
Weld Width≤0.3mm1.5-3mm1-2.5mm
Heat Affected Zone≤0.5mm3-8mm2-6mm
Thermal Deformation Rate70% reductionReference value20-30% reduction
Welding SpeedMax 10m/min0.3-0.8m/min0.5-1.5m/min
Yield Rate≥99.5%85-92%90-95%
Applicable MaterialsStainless steel, aluminum, copper, titanium alloyMost metalsCarbon steel, stainless steel priority
Splash VolumeNegligibleSlightConsiderable
Post-welding TreatmentAlmost no grinding neededGrinding & cleaning requiredSplash removal required
Labor DependenceExtremely lowHigh dependence on skilled weldersModerate

Core Application Scenarios for Laser Welding Robots

Our Completed Industry Application Case Studies

The welding requirements for small stainless steel parts are strict, and the traditional welding has large deformation and many defects Laser welding weld fine, small deformation, no need to polish after welding The visual positioning accuracy is stable, the mass production quality is uniform, and the yield is higher.
Stainless steel precision parts welding
Aluminum alloy conducts heat quickly, and traditional welding is easily deformed and poor in quality The laser welding energy is concentrated, the deformation is reduced by 70% compared to TIG welding, and the weld seam is beautiful and has few pores 0.5–12mm thick and thin aluminum can be welded, which meets the requirements of high-end supply of standard auto parts, aviation, and new energy.
Welding of Aluminum Alloy Structural Parts

Customer Reviews

Sincere feedback and authentic evaluations from our trusted cooperative partners.

Frequently Asked Questions

Stainless steel, aluminum, copper, titanium alloy, galvanized steel sheet can be welded, sheet thickness 0.5–12mm universal. Change the material to directly access the preset parameters, without replacing the hardware, one device can do a variety of products.

The heat-affected zone is extremely small, the amount of deformation is reduced by 70%, and there is no need for orthopaedics after processing, directly entering the next process, saving rework losses

Support drag-and-drop teaching, workers can be programmed once they walk through the weld, and can be put into production in half an hour. With on-site training and remote guidance, zero foundation can also be operated.

The welding speed far exceeds that of traditional arc welding, and the rhythm of the production line can be simulated and matched in the early stage, leaving room for subsequent expansion. Standard visual online inspection, automatic screening of defective products, complete archiving of welding data, in line with major industry quality inspection traceability specifications

Delivery is 15–20 working days, commissioning is completed in 3–5 days under simple working conditions, and the complex station is put into production within one week. The first piece of free welding inspection is qualified and delivered without risk.

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Just submit the workpiece drawings and production requirements, and our engineering department will tailor-make your collaborative robot solution, quickly match the production line, and provide an accurate quotation within 48 hours.

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