Core Advantages
Our team possesses comprehensive end-to-end system development capabilities, covering laser light sources, laser optical assemblies, mechanical design, automatic control, and thermal management. We are able to independently build system resources and provide one-stop integrated services to meet customer needs. From core technologies to system integration, we not only rapidly translate innovative concepts into practical products but also help customers significantly shorten development timelines and reduce communication costs, delivering optimal solutions that balance performance and reliability.
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Laser Light Source
Laser light sources are a core technology driving modern precision manufacturing, automation, and high-tech applications. Different lasers feature distinct wavelengths and characteristics to meet diverse industry requirements, demonstrating unique advantages ranging from micron-level processing to large-scale structural cutting. Among them, fiber laser technology is particularly vital. Using optical fiber as a gain medium, it efficiently converts and outputs high-energy-density laser beams, offering superior efficiency, stability, and flexibility. Consequently, it is widely adopted in semiconductors, aerospace, healthcare, and industrial automation.
Laser Optical Assemblies
Laser refraction technology utilizes the principles of light refraction to alter the propagation direction and properties of laser beams to achieve specific optical functions.
It is widely applied in beam shaping, material processing, and optical measurement. These optical characteristics place stringent demands on the design and fabrication of optical assemblies. From collimating lenses to focusing lenses, module designs must meet the requirements for high precision, light weight, miniaturization, and stability.
[ Invention Patent No. I796125 ]
Automatic Control
Laser PLC control technology refers to the use of programmable logic controllers (PLC) to manage laser equipment. It serve as the communication bridge among mechanical systems, optical assemblies, and laser light sources, and utilize logical computing systems to provide intelligent functions such as carbon emission calculations, operation prompts, and equipment health signals.
As the core of automation control, PLCs use dedicated programming languages to receive sensor signals, execute predefined programs, and control various laser parameters, including power output, scanning paths, and operating modes, enabling precise laser processing, cutting, and welding applications.
Mechanical Design
Mechanical design is the process of designing, analyzing, and manufacturing mechanical systems. It covers all stages from concept to implementation, requiring consideration of factors such as motion, materials, forces, and precision.
We leverage mechanical configurations to refract and redirect the laser source, employing a pipe laser welding method that enhances production quality and is adaptable to round pipes of various diameters.
[ Invention Patent No. 855822 ]
Thermal Optimization
Thermal optimization is a multidisciplinary technology requiring a comprehensive assessment of equipment characteristics to select and continuously refine thermal management solutions for optimal heat dissipation.
Here, we apply materials science and optical reflective thermal effect technologies to accomplish effective heat dissipation.
In processing, when a beam irradiates a specific material or surface during near-form fusion bonding, an extremely high-intensity reflected beam is generated. By applying appropriate surface treatment techniques to the material, a portion of the optical energy is guided and diffused to form scattered light, thereby resolving the issue of heat buildup caused by reflected light.
[ Invention Patent No. 855822 ]
