3d robot laser cutting machine

robot laser (2)

3D Robotic Laser Cutting Machine Feature

The robotic cutting machine is a combination of exquisite technique and digital control technology, representing the most advanced level of laser cutting. The laser robot adopts imported robotic arm with 6-axis motion capability, which can perform spatial motion following any curves to ensure speed, accuracy and reliability; the model is equipped with professional motion control software to ensure stable operation and improve processing quality; using the flexibility of robotic arm, it can perform processing by following spatial curves for customers; saving time on the workpiece and cost of fabrication

3D laser cutting technology is widely used in the automotive industry for auto parts such as car body, doors, trunk, roof and other aspects. It replaces traditional machining methods, reduces investment in molds, greatly improves machining efficiency and cutting accuracy of workpieces, and lowers production costs. Thus, it becomes a powerful tool to improve competitiveness for automotive manufacturers and component suppliers supporting Robotic applications: Widely used in manufacturing and machining (automobiles and ships, aerospace, mechanical engineering, elevator manufacturing, home appliances, crafts and gifts, watches and jewelry, tool machining, diamond tools, gear wheels, decorative advertising, laser processing services).

6 axis robot

3D robotic laser cutting machine video

3D robotic laser cutter has several advantages over traditional cutting methods. Here are some of the key advantages:

Precision: Robotic laser cutters provide exceptional precision and accuracy. The movement of the robotic arm is controlled by computer software, ensuring consistent and precise cutting of complex shapes and intriguing patterns. This level of precision is difficult to achieve with manual cutting methods.

Versatility: These machines can handle a wide range of materials. They can cut different thicknesses and handle a variety of geometries and designs. This versatility makes them suitable for a wide range of industries and applications.

Efficiency: Robotic laser cutters are very efficient, offering faster cutting speeds and shorter production cycles than traditional cutting methods. Automation and computer control allow continuous and uninterrupted cutting, reducing downtime and maximizing productivity.

Cost reduction: While the initial investment in a robotic laser cutter may be higher than traditional equipment, it can result in significant savings in the long run. These machines minimize material waste by optimizing cutting paths and reducing waste. In addition, automation reduces the need for manual labor, saving on labor costs.

Complex geometries: the 3D capabilities of these machines make it easy to cut and shape complex geometric shapes. They can create intriguing designs, patterns and contours that would be difficult or time-consuming using other methods. This flexibility is especially useful in industries where complex shapes are common, such as aerospace, automotive, and jewelry.

Prototyping and customization: Robotic laser cutters are ideal for rapid prototyping and customization. They can quickly translate 3D CAD models into physical objects, allowing for efficient creation and customization of designs. This ability is valuable for industries that require frequent design changes or one-off production.

Safety: Laser cutting technology minimizes the risk of accidents and injuries compared to other cutting methods. The laser beam is precisely controlled and focused, reducing the chance of unintentional cuts or damage to surrounding materials. In addition, these machines often include safety features such as guards and sensors to protect operators from laser radiation and other hazards.

Used for cutting various shapes.