Details Product Parameters Samples Video
3D fiber laser engraving machine is a high-tech equipment which uses fiber laser to perform precise three-dimensional engraving and cutting. Compared with traditional processing methods, this laser engraving machine has higher precision, faster processing speed and wider material adaptability. It is mainly used for engraving, marking, cutting and surface treatment of metal materials, and is widely used in industrial manufacturing, artistic creation, jewelry design and electronics industry.
Working Principle
The working principle of 3D fiber laser engraving machine mainly includes the following steps:
Laser generation:
The fiber laser is the core component of the device, which converts the light energy of the pump light (usually diode laser) into a laser beam by using a rare earth element doped fiber as the gain medium.
The fiber has good beam quality and high efficiency, and the laser is generated to form a high-intensity laser beam through the output mirror.
Laser Focusing:
The produced laser beam is focused by an optical system (e.g. a focusing lens) onto a very small spot of light. This spot has a very high energy density on the material surface and is able to heat the material instantaneously.
Engraving process:
The machine controls the movement of the laser head in three dimensions by means of a numerical control (CNC). Based on the design file inputted by the computer, the laser beam moves along a specific path.
The laser irradiates the surface of the metal material layer by layer, causing evaporation, melting or vaporization of the material surface to form the desired pattern or shape. This process allows for very complex three-dimensional structures.
Cooling and fume extraction:
During processing, due to the high energy concentration of the laser on the material, the heat generated needs to be controlled. A cooling system is usually in place to keep the equipment working properly.
At the same time, the engraving process will produce smoke and gas, and these wastes need to be effectively eliminated through the smoke exhaust system to keep the working environment clean and safe.
Post-processing (optional):
In some cases, the metal surface after engraving may need to be polished, cleaned or other surface treatment steps to achieve the desired appearance and quality.
The 3D fiber laser engraving machine achieves efficient and fine metal engraving through advanced fiber laser technology and precise mechanical control. It is an indispensable processing tool with a wide range of applications in modern manufacturing and artistic creation.
3D Fiber Laser Marking Machine, as an advanced marking equipment with high precision marking ability, can realize the fine marking of tiny objects to ensure product quality and aesthetics. Become an indispensable and important equipment in modern industrial production.
1. Adopt advanced digital three-axis dynamic focus technology, fast marking speed, high real-time zoom control and uniform focus spot.
2. Adopting 3D fine marking system software, it can meet various manual engraving needs, such as relief patterns, deep engraving, shade engraving, etc., which improves the three-dimensional sense of details.
3. Subvert the traditional two-dimensional marking mode, to achieve all-round marking, can be engraved bevel, cylinder, cone, sphere and other different 3D shapes.
4. Large processing width, marking range can be adjusted according to the specific processing requirements, and there is no defocus phenomenon during the whole process.
5. Infrared focusing system does not need to measure the focal length, which is more convenient to work.
6. Support 3D model import, 2D graphics can be directly wrapped or projected onto the built-in common surface.
Fiber laser source
Good beam quality, stable performance, long service life (100,000 hours), and maintenance-free. MAX, Raycus, JPT and other brands can choose.
3D digital scanning head
Famous brand SINO-GALVO oscilloscope scanning head, high speed and accurate marking.
XYZ three axes, irregular / surface marking, Z axis can be flexible automatic movement.
Professional 3D galvanometer
Variable focal length, precise control of focal position, ensure focal size and spot quality to realize the engraving of irregular products.
Double red light preview
Help to find the focal distance quickly, no need to use ruler, just check whether the red dots and red lines on the surface of the product to be marked overlap.
Built-in air cooling
With built-in air cooling design, the heat dissipation performance is better, can effectively extend the service life of optical components.
Aluminum table
The worktable is made of thick aluminum plate, which is very stable. The positioning holes with threads are neatly arranged for easy and accurate positioning.
Control system
BJJCZ control card adopts EZCAD software, which is easy to operate and powerful. Compatible with Windows XP /7/8/10.
Safety protection
The equipment is equipped with an emergency stop button to ensure that the power supply can be quickly cut off in the event of an abnormality. The laser protection cover can be customized according to needs to ensure the safety of operators during use.
3D fiber laser engraving technology offers a variety of advantages that make it increasingly popular for metalworking and other applications. Here are some of the main advantages:
1. High precision
Micron-level processing: 3D fiber laser engraving machines are capable of achieving extremely high engraving precision, enabling the perfect rendering of tiny patterns and intricate designs.
Detail engraving: it can easily handle complex shapes and details that are difficult to engrave by traditional methods.
2. Fast processing
High efficiency: the fast speed of laser engraving can significantly reduce processing time and improve productivity.
Continuous processing capability: suitable for mass production and rapid prototyping.
3. Wide material adaptability
A variety of metal materials: can engrave and cut a variety of metal materials, including stainless steel, aluminum, copper, titanium and so on.
Non-metallic materials: certain equipment can also handle materials such as plastics, wood, glass, etc., making it more widely used.
4. Contactless processing
Reduced risk of damage: The laser engraving process is non-contact, avoiding mechanical stress or deformation of the material and protecting the integrity of the workpiece.
No need for molds: Compared to traditional mechanical engraving, laser engraving does not require the use of molds, reducing prep work.
5. Flexibility and Programmability
Easy design changes: Simple design modifications through computer software to quickly adapt to different processing needs.
Small batch customization: able to easily handle personalized and customized orders to meet the diverse needs of customers.
6. Low operation and maintenance costs
High energy efficiency: The high energy conversion efficiency of fiber lasers reduces power costs.
Low Maintenance Requirement: Compared with traditional lasers, fiber lasers require less maintenance and upkeep, reducing the cost of long-term use.
7. Environmentally friendly and safe
Low waste generation: The laser engraving process generates relatively less waste, reducing environmental pollution during processing.
No Hazardous Gases: Compared to some chemical processes, laser engraving does not emit hazardous gases, making it friendlier to the operator and the environment.
8. Surface quality
Smooth cutting surface: After laser cutting and engraving, the surface is smooth and usually does not need subsequent polishing treatment, saving time and cost.
With its advantages of high precision, fast processing, wide material adaptability, and contactless processing, 3D fiber laser engraving machine has become an important tool in modern manufacturing, especially excelling in applications requiring high precision and complex designs. Its low operating costs and environmentally friendly features also give it a competitive edge in the industry. Click here to contact Suntop Laser today for more information on laser engraving.
Laser Power | 30W | 50W | 60W | 100W |
Model | ST-FL30-3D | ST-FL50-3D | ST-FL60-3D | ST-FL100-3D |
Max Marking Range | 110*110mm/175*175mm/300*300mm/600*600mm/800*800mm | |||
Laser Wavelength | 1064nm | |||
Pulse Energy | 1MJ | |||
Repetitive Frequency | 30K-500KHZ | |||
Indicator Laser | Red light 655nm/output 1.0 mW | |||
Minimum Line Width | 0.03mm | |||
Marking Speed | ≤10000m/s | |||
Operating System | Windows XP/7/8/10 | |||
Font Support | Ture type, AUTOCAD Single line font, custom | |||
One-dimensional Barcode | CODE39/CODE128/ITF/CODABAR/EAN/UPC | |||
Two-dimensional Barcode | QR/PDF417/Data matrix (ECC200) etc. | |||
File | PLT/DXF/DWG/SVG/STL/BMP/JPG/JPEG/PNG | |||
Environmental Requirements | Temperature: 10-35℃, Humidity: 5-75% | |||
Spare Parts Come with the Machine | Protective glasses, Metal business card, Foot switch, Hex socket wrench, Power cord | |||
Optional Accessories to Purchase | D80 Rotating Shaft/ D57 Small Chuck/2D Table (X.Y direction)/ Cutting Fixture | |||
Power supply | 220V±10% 50/60 Hz | |||
Net Weight (KG)/ Gross Weight | 140KG / 168KG | |||
Machine Dimension | 1050*800*1200mm (L*W*H) | |||
Suitable for working with most metal marking applications such as Gold, Silver, Stainless Steel, Brass, Aluminum, Steel, Iron Titanium etc., and can also mark on many nonmetal materials, such as ABS, Nylon, PES, PVC etc.
3D fiber laser engraving technology has been widely used in several industries due to its high precision, high efficiency and wide material adaptability. The following are some of the major application industries:
Manufacturing
Metal processing: for engraving, marking, cutting and processing of metal parts, widely used in automotive, aerospace and machinery manufacturing.
Electronics industry: fine laser engraving and marking on circuit boards, electronic components and devices.
Jewelry industry
Jewelry engraving: for detailed engraving and design on metals, gemstones and other materials to help create unique jewelry pieces.
Personalization: Laser engraving allows for the rapid production of custom rings and jewelry to meet individual customer needs.
Medical industry
Medical Devices: Marking and engraving on medical devices such as surgical instruments and implants to ensure traceability and accuracy.
Biomaterial processing: Fine engraving on biocompatible materials to help manufacture customized medical solutions.
Mold and tooling manufacturing
Mold Etching: Engraving and etching for manufacturing plastic and metal casting molds to improve the precision and complexity of the molds.
Tool marking: marking and engraving on tool surfaces for management and identification.
Art & Craft
Artwork production: Artists use 3D fiber laser engraving technology to create intricate and beautiful artwork.
Personalized Gifts: Laser engraving can be used to create customized gifts such as souvenirs, trophies, photo frames, etc. to meet personalized needs.
Automotive industry
Parts marking: for precise marking on automotive parts to ensure traceability.
Interior Processing: Provide exquisite patterns and decorations for car interiors through laser engraving technology.
Architecture and interior design
Decorative materials: for engraving and cutting on walls, floors and furniture to add personalization and aesthetics to the design.
Signage and directionals: to create indoor and outdoor signage and directionals to ensure clear and understandable messaging.
Aerospace
Component engraving: for high-precision processing of aircraft and spacecraft components to ensure the reliability and safety of each component's performance.
Marking and labeling: Marking and labeling engraving on spacecraft helps in effective management and maintenance.
Advertising and signage
Personalized advertising: Used to create a variety of advertising materials, signs and displays to attract customers' attention.
Commercial Signage: In commercial environments, laser engraving technology is used to create professional signs and brand displays.
In summary, the flexibility and adaptability of 3D fiber laser engraving technology allows it to be used in a wide range of industries, in every field from manufacturing to art, from medical to advertising. Click here to contact Suntop Laser today for a free laser engraving test.
There are several factors to consider when choosing a laser engraving machine to ensure that the equipment you purchase meets your needs. Here are a few key factors in choosing a laser engraver:
1. Laser type
CO2 laser: suitable for engraving and cutting non-metallic materials such as wood, leather, plastic, paper, etc., and is more cost-effective.
Fiber laser: suitable for engraving and cutting of metal materials, especially for stainless steel, aluminum, etc. Apply good results, but also can be used for some non-metallic materials.
YAG laser: mainly used for industrial applications, suitable for deep processing of metals.
2. Laser power
The higher the power, the faster the cutting and engraving speed is usually, and the thickness of the material to be cut increases. For applications that require deep cutting, high power lasers are available.
3. Processing Range
Depending on the size of your workpiece, choose the right size of work area. Large materials require a laser engraver with a large table.
4. Resolution and Accuracy
Choose a device with high resolution for more detailed engraving. Usually the resolution is between 300-1200 DPI (dots per inch).
5. Material Compatibility
Make sure the laser engraving machine can handle all the materials you intend to engrave. Different types of laser machines are suitable for different materials.
6. Cooling system
Laser equipment may generate a lot of heat, so it is very important to choose a suitable cooling system (air or water cooled) to prevent the equipment from overheating.
7. Software support
Check that the software supplied with the machine is easy to use and compatible with your favorite design software (e.g. CorelDRAW, AutoCAD, Adobe Illustrator, etc.).
8. Maintenance and support
Find out if the manufacturer offers good technical support and service, and consider the cost of maintaining the laser engraver.
9. Safety
Choose a machine that has laser safety guards, such as transparent shields to protect the operator's eyes and skin.
10. Budget
Choose the most suitable equipment according to your budget, consider the performance and price of the equipment, and try to choose cost-effective products.
11. Customer reviews and brands
Check the reviews of other users and choose a brand with a good reputation. The brand usually affects the quality of the product and after-sales service.
12. Application Cases
Consider your specific application needs, such as whether it is used for mass production or small customization, and whether it needs to be portable.
13. Accessories and consumables
Find out the availability and price of required accessories (e.g. lenses, mirrors, etc.) and consumables (e.g. specialized cutting materials).
Choosing a laser engraver is a comprehensive process that takes into account your specific processing needs, budget, and area of application. In the long run, a laser engraving machine that suits your needs will effectively improve productivity and the quality of your work. It is recommended that you talk to the manufacturer as much as possible before making a purchase to get enough information and demonstrations to ensure that you make an informed decision. Click here to contact Suntop Laser today for more information.
There are many reasons to choose Suntop Laser as a supplier of laser marking machines or laser processing equipment.
Technical advantages
High-precision processing: The laser equipment provided by Suntop Laser generally has high precision and stability, which can meet the marking needs of different materials and applications.
Innovative technology: Suntop Laser continues to innovate in laser technology, using the latest laser technology and automation solutions to improve equipment performance.
Rich equipment variety
Diversified products: Suntop Laser provides a variety of types of laser marking machines and processing equipment to meet the needs of different industries and different materials, including UV laser, CO2 laser, fiber laser, etc.
Customized solutions: According to the specific needs of customers, Suntop Laser can also provide customized equipment and solutions.
High-quality after-sales service
Technical support: Suntop Laser usually provides comprehensive technical support, including guidance on equipment installation, commissioning and daily maintenance, to ensure that users can use the equipment smoothly.
Quick response: The high-quality customer service team can quickly respond to customer inquiries and after-sales issues to improve the operating efficiency of the equipment.
Cost-effectiveness
Reasonable pricing: Suntop Laser's equipment is relatively reasonably priced while maintaining high quality, providing customers with cost-effective choices.
Long-term investment: The durability and reliability of the equipment can reduce long-term maintenance and replacement costs and reduce overall costs.
Customer reputation
Industry reputation: Suntop Laser enjoys a good reputation in the industry and has been recognized and praised by many customers, proving the quality and reliability of its products.
Successful cases: Successful application cases in multiple industries demonstrate the performance and applicability of the equipment.
Global market
International service: Suntop Laser has an international market layout, can provide services to customers in different countries and regions, and has a broad customer base.
Based on the above points, Suntop Laser can become a trustworthy laser marking machine supplier, meeting customer needs in terms of quality, performance and service, thereby helping customers improve productivity and product quality. If you are interested, it is recommended to contact Suntop Laser directly for more details and technical parameters to make a more informed choice.
1. Which metal materials are this engraving machine suitable for?
3D fiber laser metal engraving machine is suitable for most metal materials, such as stainless steel, aluminum alloy, copper and so on. But for some special metal materials may need special treatment.
2. What is the engraving accuracy of this equipment?
3D fiber laser metal engraving machine has very high engraving accuracy, can achieve micron-level fine engraving, suitable for a variety of precision processing areas.
3. What are the safety precautions for using this equipment?
When using the 3D fiber laser metal engraving machine, appropriate protective glasses should be worn to avoid direct exposure to the laser beam. At the same time, operators should familiarize themselves with the equipment's operating manual and follow the operating procedures.
4. What do I need to pay attention to the maintenance of this equipment?
Clean the surface and optical parts of the equipment regularly and keep the equipment well ventilated. Regularly check the working condition of the fiber laser and other key components to ensure the normal operation of the equipment.
5. How to adjust the engraving parameters of this equipment?
Adjusting the engraving parameters of 3D fiber laser metal engraving machine needs to be adjusted according to the specific material and engraving requirements, and the parameters can usually be set through the equipment control panel or software.
6. What are the advantages of 3D fiber laser engraving over other engraving technologies?
Higher precision and detailing: the laser can achieve very small engraving details.
Less heat-affected zone: Reduced risk of material distortion or heat damage.
No need to change tools: Laser engraving does not require physical cutting tools as opposed to traditional processing methods.
7. Can I use a fiber laser engraver on non-metallic materials?
Although fiber laser engraving machines are primarily used for processing metallic materials, some models are also capable of processing specific non-metallic materials, such as plastics. The exact capabilities need to be confirmed by the technical specifications of the equipment.
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