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Large-Format Laser Marking Machine | Optimized for PCB Traceability
Introduction
Common Challenges of Traditional PCB Marking
Many PCB factories still rely on outdated marking methods that restrict production capacity. The core drawbacks are clear:
Frequent manual repositioning: Ordinary marking machines cannot cover full-size PCBs in one pass, resulting in long cycle times and alignment errors.
Unreliable marking effect: Ink printing and low-power laser marks fade easily during soldering, cleaning and testing, failing industry traceability compliance.
High labor cost: Manual loading, flipping and unloading increase manpower consumption and limit production scalability.
- Poor line compatibility: Old marking equipment is difficult to integrate into automated production lines, forming production bottlenecks.
Beyond Laser Large-Format Laser Marking Machine: Core Advantages
1. Ultra-Large One-Pass Marking Area
Equipped with a 750×750mm super-large working range, the machine completes marking on full-size PCBs in a single operation. It eliminates repeated clamping and positioning, directly cutting marking cycle time by more than 50%.
2. Fully Automated Workflow
The integrated automatic loading, flipping and unloading structure realizes unmanned continuous production. It effectively reduces labor costs and supports 24-hour stable operation for mass production lines.
3. Industrial High Marking Precision
With ±20μm high precision, the laser clearly prints QR codes, barcodes, serial numbers and graphics. All marks are wear-resistant, high-temperature resistant and non-fading, fully meeting IPC, ISO and RoHS traceability standards.
4. Durable Industrial Structure
The dust-proof sealed enclosure and safety interlock design adapt to harsh industrial production environments. The low-maintenance structure ensures long-term stable operation and reduces after-sales costs.
Simplified Working Principle
This large-format marking system features a simple and reliable working process. PCBs are automatically fed into the equipment, completed one-pass high-precision marking, and flipped automatically for double-sided processing if needed. After real-time code inspection and verification, qualified boards are sent to the next production procedure without manual intervention.
Wide Industrial Applications
The PCB laser marking machine is widely used in multiple high-standard industries, including automotive electronics, medical equipment, industrial control panels, aerospace circuit boards and large-sized panel consumer electronics. It provides stable traceability solutions for high-standard electronic manufacturing.
Why Choose Beyond Laser?
With years of experience in industrial laser marking technology, Beyond Laser focuses on customized marking solutions for electronic manufacturers. We support laser source selection (UV / Fiber laser) and production line personalized integration. From pre-sales consultation to after-sales maintenance, our professional engineering team provides one-stop technical support.
Get Your Custom Marking Solution
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What are the precautions for operating a laser marking machine?
1. It is strictly prohibited to start the laser power supply and Q-switching power supply when there is no water or the water circulation is abnormal.
2. The Q power supply is not allowed to operate without load (i.e., the output terminal of the Q power supply should be left floating).
3. In case of any abnormal phenomenon, first turn off the galvanometer switch and the key switch, and then conduct a check.
4. It is not allowed to start other components before the krypton lamp is lit to prevent high voltage from entering and damaging the components.
5. Pay attention to leaving the output terminal (anode) of the laser power supply suspended to prevent sparking and breakdown with other electrical appliances.
6. Keep the internal circulating water clean. Regularly clean the water tank and replace it with clean deionized water or pure water.
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What should we do when laser intensity decreases and the marking is not clear enough?
1. Turn off the machine and check if the laser resonant cavity has changed; Fine-tune the resonant cavity lens. Make the output light spot the best;
2. The acousto-optic crystal is offset or the output energy of the acousto-optic power supply is too low;
Adjust the position of the audio-visual crystal or increase the working current of the audio-visual power supply;
3. The laser entering the galvanometer deviates from the center: Adjust the laser;
4. If the current is adjusted to around 20A but the light sensitivity is still insufficient: the krypton lamp is aging. Replace it with a new one.
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How to maintain a UV laser cutting machine?
1. It is required to carry out regular cleaning every day, remove debris from the countertop, limiters and guide rails, and spray lubricating oil on the guide rails
2. The waste materials in the collection box should be cleared regularly to prevent excessive waste from blocking the exhaust port.
3. Clean the chiller once every 15 days, drain all the internal water, and then fill it with fresh pure water.
4. The reflector and focusing lens should be wiped with a special cleaning solution every 6 to 8 hours.
When wiping, use a cotton swab or cotton swab dipped in the cleaning solution to wipe from the center to the edge of the focusing lens in a counterclockwise direction.
At the same time, be careful not to scratch the lens.
5. The indoor environment can affect the lifespan of the machine, especially in damp and dusty conditions.
A damp environment is prone to causing rust on the reflective lenses and also easily leading to short circuits, discharge and sparking of the velvet laser.
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What accidents might be caused by the laser emission when using a laser cutting machine?
(1) A fire was caused by the laser coming into contact with flammable materials.
Everyone knows that the power of laser generators is very high, especially when it comes to high-power laser cutting machines, the temperature of the emitted laser is extremely high. The possibility of a fire being caused when a laser beam comes into contact with flammable objects is very high.
(2) Harmful gases may be produced when the machine is in operation.
For instance, when cutting with oxygen, it undergoes a chemical reaction with the cutting material, generating unknown chemical substances or fine particles and other impurities. After being absorbed by the human body, it may cause allergic reactions or discomfort in the lungs and other respiratory tracts. Protective measures should be taken when conducting work.
(3) Direct laser exposure to the human body can be harmful.
The damage caused by lasers to the human body mainly includes damage to the eyes and skin. Among the harms caused by lasers, the damage to the eyes is the most severe. Moreover, damage to the eyes is permanent. So when doing homework, you must pay attention to protecting your eyes.
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What is the focused spot diameter of nanosecond, picosecond and femtosecond laser?
Nanosecond: The light spot is 0.5-1mm.
Picosecond: The focused spot is around 0.02mm.
Femtosecond: Under the action of a laser beam with a high repetition rate of 100-200KHz and a very short pulse width of 10ps,
the focused spot diameter is as small as 0.003mm.
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What are the main applications of UV laser cutting machine?
The UV laser cutting machine can be used for cutting and depaneling PCB.
It can precisely cut and shape various types of PCB circuit boards with V-CUT and stamp holes, and open Windows and covers.
It can also be used for separating packaged circuit boards and ordinary smooth boards.
It is suitable for cutting various types of PCB substrates, such as ceramic substrates, rigid-flex boards, FR4, PCBs, FPCs, fingerprint recognition modules, cover films, composite materials, copper substrates, aluminum substrates, etc.
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Precautions for laser cutting machines to process various metal materials?
Copper and brass:
Both materials have high reflectivity and excellent thermal conductivity.
Brass with a thickness of less than 1mm can be processed by nitrogen laser cutting.
Copper with a thickness of less than 2mm can be cut. The gas used for laser cutting processing must be oxygen.
Copper and brass can only be cut when a "reflective absorption" device is installed on the system. Otherwise, reflection will damage the optical components.
Synthetic materials:
Processable synthetic materials include: thermoplastics, thermosetting materials and artificial rubber.
Aluminum:
Despite its high reflectivity and thermal conductivity, aluminum materials with a thickness of less than 6mm can be cut, depending on the type of alloy and the capacity of the laser.
When cutting with oxygen, the cutting surface is rough and hard.
When nitrogen is used, the cutting surface is smooth.
Pure aluminum is extremely difficult to cut due to its high purity.
Only when a "reflection and absorption" device is installed on the fiber laser cutting machine system can aluminum materials be cut.
Otherwise, reflection will damage the optical components
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What should be paid attention to when laser cutting stainless steel?
Laser cutting processing of stainless steel requires the use of oxygen, under the condition that edge oxidation is not a concern.
If nitrogen is used to achieve an edge free of oxidation and burrs, no further processing is required.
Coating an oil film on the surface of the sheet will achieve a better perforation effect without reducing the processing quality.