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Kirin Laser’s desktop UV laser markers offer power options of 3W, 5W, and 10W and come equipped with an efficient water-cooling system to ensure stable performance during extended operations.
Our UV laser markers are equipped with high-quality JPT laser sources, the RC1001 galvanometer system, and robust water coolers. This combination guarantees exceptional speed, precision, stability, and reliability, making them ideal for high-precision marking applications across various industries.
Kirin Laser’s UV laser markers operate with a wavelength of approximately 355 nanometers, making them a short-wavelength laser solution. The short wavelength results in higher photon energy, which directly breaks down the chemical bonds of materials with minimal thermal impact. This process allows for high-precision, heat-free marking, preserving the integrity and quality of the material.
A key benefit of UV laser marking is its “cold processing” capability, which ensures smooth and clear marking without causing thermal damage or deformation to the material. This is particularly beneficial for industries with stringent surface quality requirements.
Kirin Laser’s UV laser markers are highly versatile and suitable for marking a broad range of materials, including plastics, glass, metals, ceramics, silicon wafers, and more. These attributes make them an ideal choice for high-precision applications across diverse sectors, where quality and accuracy are paramount.
MODEL | KR-MOPA3D | KR-MOPA5D | KR-MOPA10D |
Power | 3W | 5W | 10W |
Laser source | JPT | JPT | JPT |
Wavelength | 355nm | 355nm | 355nm |
Frequency range | 20 kHz-150 kHz | 20 kHz-150 kHz | 20 kHz-150 kHz |
Marking area | 110mm*110mm | 110mm*110mm | 110mm*110mm |
Beam quality | M²≤1.2 | M²≤1.2 | M²≤1.2 |
Beam diameter | 0.55±0.15mm | 0.55±0.15mm | 0.55±0.15mm |
Supply voltage | DC 12V | DC 12V | DC 12V |
Cooling method | Water-cooled | Water-cooled | Water-cooled |
Galvo head | Sino-galvo RC1001 | Sino-galvo RC1001 | Sino-galvo RC1001 |
Dimensions | 890*775*1430mm | 890*775*1430mm | 890*775*1430mm |
The RC1001 galvo scanner from Kirin Laser ensures precise positioning with high resolution and minimal drift. It delivers high-speed scanning while maintaining stable performance. The scanner’s strong anti-interference capabilities provide reliable operation where precision is critical.
The RC1001 galvo scanner is well-suited for various applications, from laser marking on delicate materials to high-speed production lines. Its advanced control system integrates smoothly with laser marking machines, enhancing flexibility and precision. The scanner’s durability contributes to increased productivity in any laser marking system.
Kirin Laser’s industrial water chiller ensures that the ultraviolet laser marker maintains a stable operating temperature over extended periods, preventing overheating and reducing the risk of machine failure. This efficient cooling solution helps maintain reliable performance and extends the lifespan of UV laser marking systems.
By regulating the temperature, Kirin Laser’s industrial water chiller protects internal components from thermal stress and supports high-quality marking results. For industries where continuous operation is vital, a dependable water chiller is essential for ensuring efficiency and durability in laser marking applications.
Kirin Laser’s worktable is made from high-strength aluminum alloy, ensuring exceptional durability and stability for various demanding applications. Its robust structure is specifically designed to support heavy workpieces and endure significant processing pressure, providing consistent and reliable performance in industrial settings.
Equipped with adjustable clamps and fixtures, the worktable allows for quick and easy installation and replacement of workpieces. This flexibility enhances operational efficiency, making it an ideal choice for tasks requiring frequent adjustments and high productivity.
Kirin Laser’s UV laser marking technology is well-known for its precision and gentle processing, making it a valuable asset in various industries. Its ability to create high-fidelity marks without damaging delicate materials makes it perfect for a wide range of applications:
Electronics Industry
For marking small electronic components like PCBs and semiconductors, Kirin Laser’s UV lasers provide precise, non-invasive marking. This is essential for applications such as barcodes, serial numbers, and traceability codes where accuracy is critical.
Medical Devices and Pharmaceuticals
Kirin Laser’s UV laser markers are ideal for ensuring safety and traceability in the medical and pharmaceutical sectors. They produce permanent, non-toxic marks on medical devices and drug packaging, meeting stringent regulatory requirements and providing reliable identification.
Automotive Components
From marking durable parts with identification numbers to adding intricate designs on decorative components, Kirin Laser’s UV laser technology is highly valued in the automotive industry for its versatility and precision in meeting diverse marking needs.
Fashion and Cosmetics Packaging
UV lasers from Kirin Laser can accurately mark glass and plastic materials, making them excellent for branding in the cosmetics and fashion sectors. They play a vital role in anti-counterfeiting measures and in maintaining brand integrity by ensuring clear and permanent marks.
Food Packaging
For critical information such as expiration dates, batch numbers, and other essential details, Kirin Laser’s UV laser markers provide a non-contact, abrasion-resistant solution that keeps packaging intact and information clear.
Solar Panels and Silicon Wafers
In industries where even a micron-level difference matters, Kirin Laser’s UV laser machines offer the precision needed for high-quality marking and cutting, essential for applications in solar panels and silicon wafers.
Kirin Laser’s UV laser marking machines are designed to cater to the specific needs of multiple industries, delivering permanent, high-quality marks that enhance product traceability, branding, and compliance.
A 10W UV laser marking machine operates by using a 355 nm ultraviolet (UV) laser beam to create highly precise and detailed marks on various materials. The UV laser marking process is often referred to as “cold marking” because it involves minimal heat generation, making it particularly suitable for materials sensitive to heat or those requiring very fine and clear marks.
Laser Generation and Focus: The 10W UV laser marking machine generates a laser beam with a wavelength of 355 nm, which is shorter than the wavelengths used by other types of lasers like fiber or CO2 lasers. This shorter wavelength allows the laser to focus on a much smaller spot size. As a result, the laser beam can achieve high precision and detail, making it ideal for intricate markings on materials such as plastics, glass, silicon wafers, and even some metals.
Cold Marking Process: The core advantage of UV laser marking is its “cold processing” capability. This means the laser has minimal thermal impact on the material being marked, reducing the risk of burns, cracks, or deformations. Instead of vaporizing the material through high heat, UV lasers break the atomic bonds within the material itself. This precise interaction makes UV laser marking machines highly effective for applications requiring high fidelity, such as electronics, medical devices, and jewelry engraving.
High Precision and Fine Detail: The 10W UV laser marking machine is known for its exceptional precision. It is capable of marking with micron-level accuracy, making it suitable for industries where small, intricate, and high-contrast markings are crucial. For example, in the electronics industry, UV lasers are used to mark circuit boards, semiconductors, and electronic components with serial numbers, barcodes, and QR codes that are critical for traceability and anti-counterfeiting purposes.
Versatile Applications: A 10W UV laser marking machine is highly versatile and can mark a wide range of materials, including metals, plastics, glass, ceramics, and more. In the medical field, these lasers are used to engrave permanent and non-toxic markings on surgical instruments, implants, and medical devices, ensuring compliance with safety regulations and enhancing traceability. In the automotive and aerospace sectors, they are employed to mark serial numbers, part numbers, and logos on critical components, such as engine parts and electronic modules, for quality control and maintenance purposes.
Efficient Cooling System: To maintain optimal performance during prolonged use, 10W UV laser marking machines are often equipped with advanced cooling systems, such as water cooling. This helps manage the heat generated during the marking process, preventing any overheating that could affect the machine’s stability and lifespan. Proper cooling also ensures that the laser can operate continuously without a decrease in marking quality.
User-Friendly and Cost-Effective: Modern 10W UV laser marking machines are designed to be user-friendly, with intuitive software interfaces that allow for easy programming and customization of marking tasks. They require minimal maintenance, making them a cost-effective choice for businesses looking to improve production efficiency and reduce operational costs in the long term.
The 10W UV laser marking machine combines high precision, minimal thermal impact, and versatility, making it a powerful tool for a wide range of industrial applications. It is particularly advantageous for industries that demand fine, accurate, and permanent markings on sensitive materials without causing damage.
Choosing a 10W desktop laser marking machine offers several key advantages for businesses looking to enhance their marking capabilities with precision, versatility, and efficiency. Here’s why a 10W desktop laser marking machine could be the ideal choice for your needs:
10W desktop laser marking machines provide exceptional precision, making them perfect for industries that require fine, detailed, and high-quality marks. These machines can achieve high-resolution engravings, down to 0.01mm, ensuring clarity and readability even for the smallest fonts and intricate designs. This level of detail is particularly valuable in industries like electronics, jewelry, medical devices, and automotive, where marking accuracy and legibility are essential.
These machines are capable of marking a wide range of materials, including metals (like stainless steel, aluminum, and gold), plastics, ceramics, glass, and even some organic materials. This flexibility makes 10W laser marking machines suitable for diverse applications, from engraving product serial numbers on metal parts to marking logos on glass bottles or acrylic displays. The ability to work on different materials means one machine can serve multiple purposes, enhancing its value for businesses.
A 10W desktop laser marker is designed for fast marking speeds, often reaching up to 9,000 mm/s, which supports high-throughput operations. This makes them highly efficient for businesses that need to maintain rapid production lines without compromising on marking quality. These machines are also equipped to work continuously for extended periods, often up to 24 hours, making them highly reliable for large-scale production environments.
The desktop design of these laser marking machines means they take up minimal space, making them ideal for workshops, laboratories, or production facilities with limited space. They are generally user-friendly, with intuitive software interfaces that support easy setup and operation. Features such as one-click start and stop functions, adjustable working tables, and safety mechanisms like closed structures and anti-laser windows make these machines accessible even to users with minimal experience.
These machines are designed for durability and longevity, often featuring robust metal chassis and high-quality components that ensure stability and extended use. With minimal moving parts and no consumable items needed, maintenance requirements are low, reducing operational costs over time. The lifespan of the laser source can reach up to 100,000 hours, meaning that the machine can deliver consistent, high-quality marks over many years with little to no maintenance.
Investing in a 10W desktop laser marking machine can be highly cost-effective due to its versatility, low maintenance needs, and ability to perform a wide range of marking tasks. It eliminates the need for multiple marking tools, reduces downtime, and enhances productivity, all of which contribute to a faster return on investment. Additionally, the low power consumption of these machines helps keep operational costs manageable, adding to their overall economic efficiency.
Desktop UV laser marking machines are versatile and can mark a variety of materials, including plastics (such as ABS, PE, and PC), metals, glass, ceramics, and silicon wafers. They are especially suitable for applications requiring fine and detailed marking, such as medical devices, electronics, and automotive components. operations, ensuring seamless control from anywhere.
UV laser marking machines use a process known as "cold marking," which minimizes thermal effects on materials. The short wavelength of the UV laser (355 nm) allows for high-precision marking without generating excessive heat, preventing damage like burns or cracks on sensitive materials.
Advantages include high-contrast markings, long-lasting results, versatility across different materials, high precision, non-contact operation, fast marking speeds, low maintenance, safe operation, and eco-friendly processes. These features make UV laser marking machines ideal for high-end, fine-processing markets.
The lifespan of a UV laser marking machine can vary depending on usage and maintenance but generally ranges from 50,000 to 100,000 hours. Regular maintenance, such as checking the cooling system and ensuring clean operating environments, can help extend the machine's lifespan.
Yes, UV laser marking machines are designed with safety features to prevent accidental exposure to the laser beam. These safety measures include emergency stop buttons, enclosed designs, and interlocks to ensure safe operation for users.
UV laser marking machines are widely used in various industries, including electronics (for marking circuit boards and chips), medical devices (for marking surgical instruments and implants), automotive (for marking engine parts and components), jewelry (for engraving on precious metals), and packaging (for marking barcodes and expiration dates.
Maintenance involves regular checks on the cooling system (whether water or air-cooled), cleaning optical components, ensuring proper alignment of the laser beam, and occasionally recalibrating the machine to maintain optimal performance. Most machines require minimal maintenance due to their solid-state components.
Yes, many manufacturers offer customization options for UV laser marking machines to meet specific application requirements. This could include adjusting the marking area size, integrating the machine into existing production lines, or adding software features for specialized marking tasks.
UV laser marking machines achieve high precision through their short wavelength, which allows for a small spot size and fine focus. This results in highly detailed and sharp markings with minimal thermal distortion, making them ideal for applications where accuracy is critical, such as in the aerospace and electronics industries.
UV laser marking machines commonly use water cooling systems to dissipate heat generated during operation. This helps maintain stable performance and extends the machine's lifespan. Some low-power or compact models may use air cooling systems as an alternative, depending on the specific requirements of the application.
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