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Views: 0 Author: Site Editor Publish Time: 2025-09-24 Origin: Site
The SMT laser cutting machine is a high-speed and high-precision laser processing device specifically designed for cutting SMT (Surface Mount Technology) stencils and ultra-precision metal sheets. These machines are engineered to meet the stringent demands for precision solder paste printing templates in the electronics assembly industry.
The best SMT stencil laser cutting machine
High Precision and Speed: These machines utilize advanced laser technology to achieve micron-level precision during the cutting process while maintaining high production speed.
Applicable Materials: Primarily processes materials like stainless steel and molybdenum, suitable for metal sheets ranging from thin to 1 mm thick, which are perfect for producing various fine-pitch SMT stencils.
Fiber Laser Source: Often employs high-performance fiber lasers, known for excellent beam quality and high optical-to-electrical conversion efficiency, reducing energy consumption while enhancing cutting quality.
Automation and User-Friendly Operation: These systems are designed to be easy to use with a friendly interface that improves production efficiency and reduces human errors.
Environmentally Friendly and Low Maintenance: Incorporates air cooling technology to minimize maintenance needs, and some models have a maintenance-free design, having a low environmental impact.
Primarily services SMT production lines, providing precise solder paste printing templates for components on PCBs (Printed Circuit Boards).
Suitable for manufacturing ultra-fine pitch and dense pitch stencils, including prints for fine pitch components below 0.4 mm and 01005.
Laser cutting allows for the creation of complex shapes and trapezoidal openings, facilitating uniform release of solder paste and improving soldering quality.
Various manufacturers offer multiple models, such as LATECH’s G6080 series and LPKF’s StencilLaser G 6080, each distinguished by unique specifications regarding working area, cutting precision, and efficiency.
High-end models such as the DirectLaser M3 and others from LATECH not only provide high-quality cutting but also emphasize ease of operation and cost-effectiveness, making them suitable for various scales of PCB factories and SMT assembly lines.
HIGHLYWIN PCB Laser Cutting Machine: Designed for various micromachining materials with any shape, including the cutting of PCBs, FPCs, and FPCBs with thicknesses less than 0.8mm. It achieves a dust-free, high-speed, high-accuracy, and reliable laser cutting process.
| Model | HW-3220 | HW-3230 |
| Laser | UV laser | Green laser |
| Max Processing Area | 350x300mm | |
| Max Moving Speed | 1000mm/s | |
| Repeated Position Accuracy | ≤±3μm | |
| Cutting Accuracy | ±20μm | |
| Max Output Power of Laser | 15W | 35W |
| Data Format | Gerber, DXF | |
| Laser Wavelength | 355nm Diode pumped solid laser | 532nm, Diode pumped solid laser |
| Laser Pulse Frequency | 40-300KHZ | |
| Weight | 1000KG | |
| Power Supply | AC220V, 50HZ | |
| Power of Main Equipment | 4KW | |
| Air Supply | 0.4-0.6Mpa | |
| Laser | 15W/20W/25W | 35W-50K/50W-60K |
Laser cutting technology is continually evolving, capable of processing smaller apertures and supporting more complex PCB designs, thus propelling the miniaturization and high-performance of electronic products.
In the SMT field, fiber laser cutting machines are typically the best choice, especially for cutting metal materials. CO2 laser cutting machines are mainly used for non-metallic materials, making their applicability narrower. YAG laser cutting machines can also be utilized for metal cutting, but due to efficiency issues, their usage is less common. The choice of laser cutting machine depends on specific processing requirements and material types.
Wavelength: The wavelength of fiber lasers is 1064 nm, only 1/10th of the CO2 laser’s wavelength, allowing metals to absorb this wavelength of laser more efficiently.
Beam Quality: Fiber lasers exhibit very high beam quality with high energy density, resulting in superior cutting effects.
Electro-Optical Conversion Efficiency: The electro-optical conversion efficiency can reach up to 30%, which is significantly higher than the approximately 10% of CO2 lasers, greatly reducing energy consumption.
Transmission Method: The laser is transmitted through fiber optics, eliminating the need for complex optical reflecting systems and ensuring a stable structure.
Maintenance Costs: Average time between failures exceeds 100,000 hours, with virtually no consumables required, resulting in low maintenance costs.
Flexibility: Capable of processing any shape, cutting steel tubes and other irregular materials, and supporting multi-dimensional space processing.
When selecting an SMT laser cutting machine, consider the following key factors to ensure your investment is efficient and meets your production needs:
Precision and Speed: The cutting precision and speed are paramount. High precision is essential for the accurate application of solder paste during SMT assembly. For example, both HW-3230 and DirectLaser M3 emphasize high precision and speed, indicating their suitability for work that requires meticulous attention to detail.
Ease of Operation and Reliability: The simplicity of the operating interface and the machine’s reliability are crucial factors for daily production. The HW-3220 PCB Laser Cutting Machine is described as being easy to set up, making it an excellent choice for users seeking to reduce operational complexity.
Cost-Effectiveness: Evaluate the purchase cost, operating costs, and return on investment period. The HIGHLYWIN PCB Laser Cutting Machine is recommended for its low investment and operating costs.
Applicability and Compatibility: Ensure the selected machine can process the material thickness and types you need, and whether it is suitable for the scale of your SMT production line. Different machines may be designed for varying production volumes or specific PCB types. Highlywin offers personalized customization to better align with your production line.
After-Sales Service and Technical Support: Choose a brand with excellent after-sales service and technical support, crucial for the long-term use of the equipment. Verify if the supplier provides timely technical consultation, repair services, and spare part supply. HIGHLYWIN offers installation, training, and video guidance services.
Cutting Quality: High-quality cutting can reduce solder paste bridging and overflow, thereby enhancing welding quality. The cutting samples provided by HIGHLYWIN can help you better assess the actual cutting effects.
Footprint and Production Environment: Consider the spatial constraints of your factory when selecting equipment that fits your existing production environment. For example, StencilLaser P6060 has a small footprint, making it suitable for space-limited factories.
Technical Specifications and Customization Options: Check the technical specifications of the machine to see if it supports customized settings, such as cutting modes and template size ranges, based on your specific needs.
Demonstration and Trial: If possible, request a demonstration or trial period from the supplier to personally evaluate the machine’s performance and adaptability. HIGHLYWIN welcomes you to experience our equipment at our factory.
The SMT laser cutting machine is an indispensable piece of equipment in modern electronic assembly, ensuring the accurate distribution of solder paste through high-precision cutting processes, thereby guaranteeing the quality and reliability of electronic products. With continued technological advancements, these machines are becoming more efficient, precise, and easier to operate.
