3D Robot Laser Cutting Machine

The 3D robotic laser cutting system is employed for cutting three-dimensional profiles and round holes, slots, rectangles. It consists of a fiber laser source, a control system, an industrial robotic arm (typically with 5 or 6 axis), and a laser cutting head mounted at the end of the robotic arm. It represents an advanced equipment capable of multi-angle, multi-directional flexible cutting of metal sheets with varying thicknesses.

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Category: Laser Cutting Machine Tag: Laser Welding Robot

Description

3D Laser Cutting Machine

The Robot 3D Laser Cutting Machine is designed for high-precision cutting of complex metal parts and irregular shapes. Equipped with advanced robotic motion control and fiber laser technology, it delivers fast cutting speed, smooth edges, and stable performance.

Compared with traditional flat laser cutting machines, the robot 3D laser cutting machine can easily handle irregular workpieces, tubes, formed metal parts, automotive components, and customized industrial products. The robotic arm allows multi-angle cutting and flexible movement, improving processing efficiency while reducing manual operation.

This machine supports various metal materials, including stainless steel, carbon steel, aluminum, galvanized sheet, and more. With high cutting precision and smooth cutting edges, it helps manufacturers improve production quality and reduce secondary processing costs.

Optional laser power 1500W-3000W; support customization.

Robot Laser Cut Advantages

1. High Precision and Repetition: Robots employ precise motion control systems, enabling them to achieve high-precision cutting operations and execute the same actions repeatedly, and ensuring consistent cutting quality.

2. Efficiency and Speed: Robots in laser cutting operate at higher speeds and can optimize processing paths through programming, enhancing cutting efficiency.

3. Flexibility: Robots can adapt to various shapes and sizes of workpieces, and programmatically accommodate different cutting modes and paths to meet diverse processing needs.

4. Automation and Safety: Robots can perform fully automated cutting operations, reducing the need for human intervention, and can operate in hazardous environments, thus improving safety.

5. Data Logging and Traceability: Robots can record relevant data during the processing and can be integrated with other systems for production traceability and data analysis.

6. Material Handling Capability: Some robot laser cutting systems come equipped with additional functions such as material handling and loading/unloading capabilities. This streamlines the manufacturing process and enhances overall system efficiency.

TECHNICAL PARAMETER

Robot 3D Laser Cutting Machine Parameters

Model		iGR-R
System		iGOLDENLASER
Cutting software		Professional 3D software
Power		1500w-3000w
Laser		MAX
Laser cutting head		RAYTOOLS
Water cooler		S&A
Robot parameters
Degree of freedom		Six-axis robot
Drive mode		Servo drive
Max. working radius		1813mm
Repeatability of positioning accuracy		±0.05mm
Max. load		25KG
Range of motion	Axis 1	+180°~-180°
	Axis 2	+156°~-99°
	Axis3	+75°~-200°
	Axis4	+180°~-180°
	Axis5	+135°~-135°
	Axis6	+360°~-360°
Range of motion	Axis1	204°/s
	Axis2	186°/s
	Axis3	182/s
	Axis4	492°/s
	Axis5	450°/s
	Axis6	750°/s
Work temperature		0℃~+45℃
Storage temperature		-10℃~+55℃
Environmental humidity		Usually below 75% RH (without frosting) Short-term below 90% RH (within 1 month)
Allowing for a high degree		Below an altitude of 1000 meters
Allow vibration		4.9m/s²（0.5G）以下
Protection level		IP67
Machine size		18131532542
Noise level		≤75dB(A)
Machine weight		256KG
Voltage		Three-phase 380V (50Hz)

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Welding head

The internal structure of the welding head is completely sealed to prevent the optical part from being polluted by dust.

The protective lens adopts a drawer structure, which is easy to replace.

Robot six-axis linkage

The six-axis linkage of the robot can easily realize the welding of three-dimensional workpieces.

Cooperating with special tooling and linkage workbench, it can realize fully automatic welding in one clamping.

SYNTEC robot operation interface

Easy to operate, reliable in quality and long in life.

Fiber laser

We use advanced fiber lasers with a service life of more than 10w hours, low energy consumption, low failure rate, flexible fiber up to 10-15m, flexible and convenient, outdoor welding, equipped with a hard protective layer.

Robot for Laser Cutting Applications

Applicable materials: This machine supports various metal materials, including stainless steel, carbon steel, aluminum, galvanized sheet, and more. With high cutting precision and smooth cutting edges, it helps manufacturers improve production quality and reduce secondary processing costs.

Applicable industries:The 3D laser metal cutting machine excels in precisely addressing the cutting needs of various metal materials with diverse shapes. This includes curved metal components, round tubes, square tubes, rectangular tubes, triangular tubes, elliptical tubes, H-shaped profiles, and D-shaped profiles, among others.These machines find extensive applications in the field of metal processing and are used in the manufacturing of precision metal parts and structures across a wide range of industries, including construction, automotive manufacturing, consumer electronics, sports equipment, aircraft manufacturing, and furniture production.

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FAQ

what is 3D robot fiber laser cutter?

3D robot fiber laser cutting system,the arm length can reach to 1800mm * 3200mm. The cutting head has a high-precision follow-up system to ensure that the nozzle is consistent with the cutting height. It can cut multi-angle and multi-directional of sheet metal with different thicknesses.

Why You Need Robots for Laser Cutting?

No Contact, No Surface Damage: The mechanical components of a laser cutting robot’s head do not make physical contact with the workpiece, preventing surface scratches during operation.

High-Speed Cutting with Smooth Edges: Cutting robots operate at high speeds, delivering smooth and even edges. Typically, there is no need for post-processing.

Minimal Heat-Affected Zone, Reduced Deformation: Laser cutting minimizes the heat-affected zone, resulting in minimal material deformation and narrow kerfs (0.1mm~0.3mm).

No Mechanical Stress, No Burrs: Laser cutting leaves no mechanical stress on the material and produces clean, burr-free cuts.

High Precision and Excellent Repetition: Laser cutting offers exceptional precision and repeatability without damaging the material’s surface.

CNC Programming for Versatile Flat Pattern Cutting: With CNC programming, laser cutting robots can handle virtually any flat pattern, including large sheet cutting, without the need for tooling.

Time and Cost-Efficient without Molds: Laser cutting eliminates the need for molds, saving time and reducing costs.

Robotic laser cutting is particularly suited for small-batch, three-dimensional sheet metal cutting due to its high flexibility, which manifests in two main aspects:

Material Adaptability: Laser cutting robots can cut virtually any shape of sheet metal through CNC programming.

Program-Controlled Processing Paths: The processing paths are controlled by the program. If the workpiece changes, you only need to modify the program, making it especially suitable for tasks like edge trimming and hole cutting. This trend is replacing the need for edge trimming and hole punching molds, which are often costly and limited in their applicability to different parts.

What is the difference between a flat laser cutter and a 3D robot laser cutter?

Automotive, aerospace, metal fabrication, and appliance manufacturing are among the largest users of robotic laser cutting technology.

Is robotic laser cutting suitable for automation lines?

Yes. It can be integrated with conveyors, positioners, vision systems, and robotic loading/unloading systems for fully automated production.

6-axis robot overcomes the limitations of traditional laser cutting angles, enabling dynamic 2D and 3D cutting. The most prevalent application of 3D robotic fiber laser cutting machines is in automotive design and manufacturing.

These machines are used for tasks such as cutting prototype car parts, creating holes and trimming body panels, cutting steering wheel openings windshield areas, roof cover bracket holes safety airbag components, and hydroformed parts.