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Details Product Parameters Samples Video
In the field of modern industry and design, precision laser engraving technology has become a highly innovative and practical method. With the advancement of laser technology and the expansion of its application fields, precision laser engraving plays an increasingly important role in manufacturing, artistic creation and personalized products.
Precision laser engraving is a technology that uses high-energy laser beams to cut or engrave various materials in a non-contact manner. By precisely controlling the power, focus and scanning speed of the laser, it can achieve meticulous pattern and text engraving with micron-level accuracy. Unlike traditional mechanical engraving, laser engraving melts or vaporizes materials through heat energy to form the desired shape and texture.
The importance of precision laser engraving technology in modern industry is mainly reflected in the following aspects:
1. High efficiency and high precision: Laser engraving can complete the production of complex patterns in a short time and maintain extremely high precision, which meets the needs of modern rapid production.
2. Multi-field application: Whether in electronics, aerospace, automobile manufacturing, or art design and personalized product customization, precision laser engraving has greatly improved the flexibility and creativity of manufacturing.
3. Cost-effectiveness: Compared with traditional processing methods, laser engraving usually has lower material waste and less post-processing requirements, thereby reducing production costs.
4. Customization and personalization: As the market demand for personalized products increases, precision laser engraving technology provides designers and manufacturers with unlimited creative space and flexible design possibilities.
With the continuous advancement of technology, precision laser engraving will play an increasingly important role in future industrial development, driving various industries to achieve higher production efficiency and innovation capabilities.
CO2 laser engraving is a laser processing technology widely used in industry and artistic creation. Its working principle involves the generation, regulation and material processing of lasers. The following is a detailed description of the working principle of CO2 laser engraving:
1. Generation of laser
The core part of the CO2 laser is a laser cavity filled with gases such as carbon dioxide (CO2), nitrogen (N2) and helium (He). Under the action of an external high-voltage power supply, these gas molecules are excited to generate laser photons.
The photons in the laser cavity are repeatedly reflected between the reflectors. After reaching a certain intensity, a high-energy laser beam is emitted from the laser exit mirror.
2. Adjustment of the laser beam
The emitted laser beam is adjusted through a series of optical elements (such as lenses and reflectors) to form the desired focus.
The adjustment of the focal position is crucial to the accuracy and depth of laser engraving. The smaller the focal position, the higher the energy density of the laser and the better the engraving effect.
3. Engraving process
When the laser beam is irradiated on the surface of the material, the high temperature of the laser will quickly heat the material. The wavelength of CO2 lasers usually has good absorption for non-metallic materials (such as wood, plastic, paper, leather and cloth), and quickly vaporizes or melts the surface of the material.
The laser control system will accurately remove the material by scanning the laser beam on the surface of the material according to the preset pattern, text or design to form the desired engraving effect.
Since laser engraving is a non-contact processing, it will not cause mechanical pressure on the material, reducing the risk of deformation and damage.
4. Cooling and fume extraction
During the engraving process, smoke and gas will be generated when the material evaporates, so it is usually equipped with an extraction system to keep the working environment clean and safe while improving the engraving quality.
CO2 laser engraving relies on the high energy density and precise control of the laser to achieve efficient engraving and cutting of various materials. Its advantages in precision, speed and processing range make it an important processing tool in current industrial and artistic design.
1. Adopt advanced DSP control system with "power-off memory" and "automatic standby" function.
2. Imported laser and optical devices, good spot quality, stable output power and low maintenance cost.
3. Precision linear guide rail, fast speed, high precision, strong bearing capacity and good rigidity.
4. Enclosed constant temperature cooling water system to ensure the laser tube works stably for a long time.
5. Comply with European CE safety standard and equipped with induction door, which will stop automatically when the laser is opened accidentally.
6. Advanced variable speed system, realizing the function that the laser can change speed instantly according to the need of curved and straight lines and self-adjust the hourly speed when cutting, so that the cutting edge is smooth and the curve is smooth, and The cutting accuracy is high, fast and can come out with any graphics.
7. Double-head and multi-head cutting system can be selected to improve production efficiency and reduce production cost according to customer requirements. Different laser power and table cutting size options.
CO2 Laser Head
Choose a high-precision CO2 laser head with red dot positioning. The cutting head always follows the material and keeps the position of the cutting point constant. The laser head is also fitted with an air tube that blows out an air stream that not only blows away air but also cools the lens and the surface of the object.
CO2 Laser Tube
The CO2 laser tube is a powerful laser generator that produces a high-powered laser beam for engraving and cutting a variety of materials. It is known for its durability and accuracy, and is relatively easy to operate and maintain.
HIWIN Guide Rail
Adopting Taiwan HIWIN linear guide rail, it has fast running speed, high positioning accuracy and longer service life, which improves the engraving and cutting accuracy and ensures precise processing results.
Mirror and Lens
Adopting foreign imported focusing lens and reflector, which makes the equipment produce smaller light spot, high efficiency, good stability and stronger cutting ability; with 45° mirror adjustment, it is easy to find the center of the lens and find the correct focal length. Suitable for various environments with high precision and speed.
Ruida Controller
Ruida Controlle is a powerful and multi-functional controller for laser engraving and cutting machine. It not only supports USB cable computer control, but also supports USB disk offline control. It also has good resistance to high voltage and static electricity.
Stepper Motor Control System
Choose the powerful and reliable stepper motor to ensure the normal operation of the machine. Digital timing, analog control of laser power, small error, high repeatability, maintenance-free. Ensure the possibility of realizing extremely precise positioning, and the mobile positioning mechanism runs smoothly. Low noise, not easy to heat, safe and reliable.
Industrial Chiller
CW-5000 water chiller has temperature display, which can prevent overheating burnout and interruption of water circulation. The industrial water chiller ensures heat dissipation from the core optical path components so that the CO2 laser cutter can provide consistent cut quality. It also improves throughput by reducing CO2 laser cutting machine downtime.
Shanghai Fulong Belt
Adopting Fulong brand nylon belt with high abrasion resistance, good stability, good torsion resistance, low elongation and low noise.
Honeycomb Table
Honeycomb table makes the airflow smoother and the cutting surface more even, with good support performance of small holes, solid structure, no deformation during machining, and small workpieces can be placed on the table for machining. The honeycomb design helps reduce noise and vibration during cutting.
Laser Protection Cover
When the cover of the machine is opened, the machine stops working, preventing the machinery and laser from causing accidental injury to the operator. Ensures that the operator will not be injured by the laser beam and protects the operator's safety.
Collection Drawer
Convenient for collecting and accessing cuttings. Easy to clean up cutting waste and flying dust.
Motorized Lifting Table
The motorized lifting table can be customized upon request. It is mainly used to adjust the height of the material to maintain the most suitable distance between the cutting head and the surface of the material to ensure the cutting effect.
Rotary Axis Device
The rotary axis device can be selected according to requirements, which is used to clamp and rotate cylindrical objects to realize the rotary cutting of materials. The device consists of a motor, drive shaft and chuck.
As an advanced processing technology, precision laser engraving has many advantages, which makes it widely used in modern industry and creative fields.
1. High precision
Detailed processing: Laser engraving can achieve micron-level precision, can engrave complex patterns, texts and details, and is suitable for applications with extremely high demand.
2. Diverse materials applicable
Wide material compatibility: Precision laser engraving can be applied to a variety of materials, including wood, plastic, leather, paper, glass, etc. Different materials can achieve the best engraving effect by adjusting the laser power and focus.
3. No mold required
Reduce upfront costs: Compared with traditional mechanical processing methods, laser engraving does not require the production of molds, making small batch production and personalized customization more economical and flexible.
4. High efficiency
Fast processing: Laser engraving is fast and can complete complex processing tasks in a short time, thereby shortening the production cycle and improving production efficiency.
5. Non-contact processing
Reduce material loss: Laser engraving is a non-contact processing method that does not cause mechanical pressure or deformation to the material, and also reduces material waste.
6. Programmability
Easy automation and mass production: Laser engraving can be controlled by computer programs to achieve efficient automated processing, one-time settings can be used for mass production, and it is easy to modify and update the design.
7. Environmental protection and safety
Reducing waste and pollution: Laser engraving produces less waste, and due to its efficient use of energy, it can reduce the impact on the environment in many applications.
8. Enhance creativity
Free design: Laser engraving can handle complex designs and unique ideas, and can easily achieve personalized customization, giving designers greater creative freedom.
9. Reliability and stability
Consistency: Laser engraving can ensure that each work has highly consistent quality, suitable for commercial production with strict quality requirements.
With its high precision, multi-material adaptability, high efficiency and innovative design capabilities, precision laser engraving has become an important tool for modern manufacturing and artistic creation, meeting a variety of industrial and personalized needs. Click here to contact Suntop Laser now for more information on laser engraving.
Model | ST-CC6040 | ST-CC9060 | ST-CC1390 | ST-CC1325 |
Working area | 600*400mm | 900*600mm | 1300*900mm | 1300*2500mm |
Laser power | 60W/80W/100W/130W/150W/180W/200W (optional) | |||
Laser type | Hermetic and detached Co2 laser tube | |||
Control configuration | DSP | |||
Cooling mode | Water cooling and protection system | |||
Position system | Red dot | |||
Max moving speed | 1500mm/s | |||
Laser energy control | 1-100℅ set by hand or software | |||
Locating precision | <0.01 mm | |||
Min shaping character | Character: 3*3 mm, letter: 2*2 mm | |||
Worktable | Electric up and down table, with the first layer Honeycomb table and the second Aluminum knife table (Two layers) for different kinds of materials cutting | |||
Resolution ratio | ≦4500 dpi | |||
Power supply | AC220±10℅ 50 HZ, AC110±10℅ 50 HZ | |||
System environment | Windows 7/Windows 10, 32bits or 64 bits | |||
Limit switch | Induction metal limit switches for accurate positioning of X and Y positions | |||
Motion control mode | Precision linear guide | |||
Air pressure control | There is a device to adjust the air pressure at the cutting head | |||
Dimensions(package) | 1530*850*800mm | 1600*1140*1300mm | 2050*1480 *1280mm | 3200*2150*1800mm |
Gross weight | 150KG | 306Kg | 420KG | 500KG |
Widely used in wood products, paper, leather, cloth, plexiglass, epoxy resin, acrylic, wool, plastic, rubber, tile, crystal, jade, bamboo products and other non-metallic materials.
CO2 precision laser engraving machines are widely used in many industries due to their high efficiency, accuracy and versatility.
Packaging industry
Food and beverage packaging: marking product information, shelf life, barcodes, etc. on plastic, cartons and other packaging materials.
Cosmetic packaging: engraving brand logos, ingredients and instructions on bottles or boxes.
Electronics industry
Circuit board marking: marking model, serial number and other identification information on PCB boards.
Instruments: marking product numbers, manufacturing dates, etc. on plastic and metal shells.
Wood products
Furniture and crafts: used to engrave brand logos and personalized information such as names, dates, etc.
Musical instruments: exquisite engraving and marking on musical instruments such as guitars and pianos.
Clothing and accessories
Clothing labels: marking brands and washing instructions on fabrics.
Leather products: marking personalized information on belts, wallets, handbags, etc.
Medical industry
Medical equipment: marking model, expiration date and other information on shells or labels.
Disposable medical supplies: marking product information on syringes and gloves.
Advertising and logos
Display stands: marking advertising content on acrylic or wooden display stands.
Trophy and medals: used to engrave the winner's name and award information.
Automotive industry
Interior parts: marking brands and models on plastic or leather interiors.
Parts identification: marking part numbers on the body or under the hood.
Jewelry and handicrafts
Non-metallic jewelry: engraving names or dates on rings, necklaces, etc. as a commemoration.
Crafts: personalized engraving on ceramic and glass crafts.
Security and anti-counterfeiting
Labels and certificates: marking on anti-counterfeiting labels and certificates to ensure the authenticity of the product.
ID cards and access cards: engraving personal information and QR codes on plastic cards.
CO2 precision laser engraving machines are used in a wide range of industries, including advertising, manufacturing, art, packaging, etc. Its versatility and high precision make it an indispensable tool in these industries, able to meet diverse market needs. Click here to contact Suntop Laser now to learn more.
There are many differences between laser engraving and traditional engraving in terms of technology, efficiency, cost, precision and application. The following is a detailed comparison of the two:
1. Technical principle
Laser engraving:
Use high temperature and high energy of laser beam directly on the material to quickly cut or engrave the desired pattern.
Applicable to a variety of materials (wood, plastic, metal, glass, etc.).
Traditional engraving:
Mechanical removal of materials by hand tools or mechanical equipment (such as engraving knives, chisels, etc.).
Mainly used for wood, stone, marble, etc.
2. Efficiency
Laser engraving:
Fast speed, especially suitable for mass production, can quickly complete complex designs.
Easy to operate, program control, save time for manual finishing.
Traditional engraving:
Relatively slow, especially complex designs require more time and skills.
Hand engraving requires the experience and skills of the artist, and is often unpredictable.
3. Precision and details
Laser engraving:
High precision, can engrave delicate and complex patterns, especially in small details.
Can achieve high repeatability process to ensure the consistency of each product.
Traditional engraving:
Accuracy depends on the skill level of the engraver, and there may be differences in detail processing.
With traces of handwork, it is suitable for works that pursue unique personality and artistic value.
4. Cost
Laser engraving:
The equipment investment is high, but it can reduce unit cost for mass production.
Pay attention to maintenance and power consumption in the long term.
Traditional engraving:
The initial equipment investment is low, but the labor cost and time cost are high, and skilled workers are relatively scarce.
The cost of each work may vary depending on the complexity.
5. Material diversity
Laser engraving:
Widely applicable to a variety of materials, laser engraving machines can flexibly adjust parameters to adapt to different materials.
Traditional engraving:
Mostly used for specific materials (such as wood, stone), the selection and development of materials are relatively limited.
6. Creative freedom
Laser engraving:
Design changes and iterations can be easily achieved through computer software, suitable for rapid prototyping.
Traditional engraving:
The creative process is more artistic and personal, and the engraver can adjust the engraving method at any time according to inspiration.
7. Application fields
Laser engraving:
Applicable to industries such as industry, advertising, education, and medical treatment, especially when large-scale personalized production is required.
Traditional engraving:
Mostly used for artwork, furniture making, souvenirs, etc., emphasizing the value of handmade art.
Laser engraving and traditional engraving each have their own unique advantages and disadvantages. In practical applications, the appropriate technology can be selected according to needs, budgets, and goals. Laser engraving is more suitable for industrial production that pursues efficiency and precision, while traditional engraving focuses more on artistry and personalized creation. Click here to contact Suntop Laser now for more information.
When choosing the right laser engraver, there are several factors to consider to ensure you can meet your project needs and budget.
1. Laser Type
CO2 laser:
Suitable for most non-metallic materials (wood, acrylic, paper, leather, etc.).
Suitable for engraving and cutting, often used for gifts, advertisements, furniture, etc.
Fiber laser:
Suitable for engraving and cutting of metal materials (such as aluminum, copper, stainless steel, etc.).
Compared to CO2 laser, fiber laser has higher efficiency and smaller focus, which can engrave more detailed patterns.
2. Working size
Determine the appropriate working area based on your project needs.
You need to consider the maximum size of the engraved pattern and the space requirements for possible expansion later.
3. Power
The higher the power, the faster the cutting and engraving speed is generally.
High power is suitable for cutting most metals and thicker materials, while low power is suitable for more detailed engraving.
4. Speed and accuracy
Consider the maximum speed and engraving accuracy of the machine, especially when engraving carefully and details.
Check samples and customer feedback to evaluate the performance of the machine.
5. Software compatibility
Confirm the design software supported by the laser engraving machine and whether it is easily compatible with your known design tools (such as AutoCAD, CorelDRAW, Adobe Illustrator, etc.).
The richness of software functions also affects the convenience of design and operation.
6. Running cost
Understand the consumables of the laser engraving machine (such as laser tubes, lenses, etc.) and their replacement costs.
Pay attention to the power consumption and maintenance costs of the machine and choose cost-effective equipment.
7. Safety
Choose equipment with good safety performance, such as protective covers, emergency stop buttons, overload protection, etc.
Make sure the equipment meets local safety standards and requirements.
8. Customer support and after-sales service
Evaluate the supplier's reputation and customer service to ensure that you can get support and technical assistance after purchase.
Understand the warranty coverage and service policy, as well as whether training and maintenance services are provided.
9. Budget
Choose according to your own budget and try to balance performance and cost.
Consider the long-term investment value of the equipment and choose a laser engraving machine that can meet future needs.
Through the above considerations, you can more specifically choose the laser engraving machine that suits your use to ensure that your engraving project can be completed efficiently. Click here to contact Suntop Laser immediately to recommend a suitable laser engraving machine for you.
The reasons for choosing Suntop laser equipment can be attributed to several advantages and features. Here are some of the main factors to help you understand why many users trust and choose Suntop laser equipment:
High-quality product performance
High precision and high efficiency: Suntop laser equipment has excellent laser cutting and engraving accuracy, which can meet the high standards of various industries.
Strong adaptability: Able to handle a variety of materials, such as wood, acrylic, metal, leather, etc., suitable for different processing needs.
Advanced technology
Innovative design: Suntop is constantly committed to technological innovation and provides the latest laser technology to improve production efficiency and processing quality.
Multi-functional equipment: Many equipment have multiple functions such as cutting, engraving, marking, etc., providing users with greater flexibility.
User-friendly operation
Easy-to-use software: Suntop equipment is equipped with an intuitive and easy-to-use software interface to simplify the operation process and reduce learning time.
Good compatibility: Compatible with many design software (such as AutoCAD, CorelDRAW, etc.), allowing users to directly import design drawings into the device.
Customized solutions
Meet specific needs: Suntop provides equipment customization services to meet the specific application requirements and industry needs of different customers.
High-quality after-sales service
Technical support: Provide professional and timely technical support to help customers solve problems encountered during use.
Training services: Equipment use training is usually provided to ensure that users can quickly get started and use the equipment effectively.
Comprehensive application areas
Wide application scenarios: Suntop laser equipment is widely used in industrial manufacturing, art creation, advertising production, jewelry processing, clothing design and other fields, with strong adaptability.
High cost performance
Reasonable price: Compared with other brands on the market, Suntop's products usually have a high cost performance, providing customers with a good return on investment.
Good customer feedback
Positive customer evaluation: Suntop has accumulated a large number of successful cases and customer feedback in the industry, proving the reliability of its products and customer satisfaction.
Rich industry experience
Deep industry background: Suntop has many years of experience in the field of laser equipment and has a deep understanding of market demand and technological development.
Choosing Suntop laser equipment allows you to enjoy high-quality and efficient laser processing experience, combined with good after-sales support and cost-effectiveness, it is an ideal choice for users in many industries. 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. What is a CO2 laser engraver?
A CO2 laser engraver is a device that uses a CO2 laser to emit an infrared laser to engrave and cut materials. It is suitable for processing a variety of non-metallic materials such as wood, acrylic, leather, paper, and cloth.
2. How large a work area do I need?
The choice of work area depends on the size of the project you will be engraving. A smaller work area is suitable for daily small workpieces, while a larger work area is suitable for making large projects or processing multiple items at the same time.
3. What are the maintenance requirements of a CO2 laser engraver?
Regular maintenance includes cleaning the laser tube, lens, and lens; checking and adjusting the alignment of the laser beam; and ensuring that the fan and cooling system are working properly. In addition, check the electrical connections and the software update of the laser machine.
4. Is it safe to use a CO2 laser engraver?
Yes, the machine is equipped with a safety shield, uses a fume extraction system, and wears appropriate eye protection. Make sure to follow the manufacturer's safety guidelines and operating procedures.
5. Is it suitable for beginners?
Yes, CO2 laser engravers are designed to be user-friendly, equipped with an intuitive software interface and rich operating guides, so they are suitable for beginners. Training and support can also usually help new users get started quickly.
6. Can the engraving effect be adjusted?
Yes, the engraving effect can be optimized by adjusting parameters such as laser power, speed and frequency. Different materials and textures require different settings to achieve the best results.
7. Can I engrave on metal?
No, CO2 laser engravers are mainly used for engraving and cutting of non-metallic materials. For metal engraving, you need to use a fiber laser engraver or a CO2 model equipped with specific marking functions.
Details Product Parameters Samples Video
In the field of modern industry and design, precision laser engraving technology has become a highly innovative and practical method. With the advancement of laser technology and the expansion of its application fields, precision laser engraving plays an increasingly important role in manufacturing, artistic creation and personalized products.
Precision laser engraving is a technology that uses high-energy laser beams to cut or engrave various materials in a non-contact manner. By precisely controlling the power, focus and scanning speed of the laser, it can achieve meticulous pattern and text engraving with micron-level accuracy. Unlike traditional mechanical engraving, laser engraving melts or vaporizes materials through heat energy to form the desired shape and texture.
The importance of precision laser engraving technology in modern industry is mainly reflected in the following aspects:
1. High efficiency and high precision: Laser engraving can complete the production of complex patterns in a short time and maintain extremely high precision, which meets the needs of modern rapid production.
2. Multi-field application: Whether in electronics, aerospace, automobile manufacturing, or art design and personalized product customization, precision laser engraving has greatly improved the flexibility and creativity of manufacturing.
3. Cost-effectiveness: Compared with traditional processing methods, laser engraving usually has lower material waste and less post-processing requirements, thereby reducing production costs.
4. Customization and personalization: As the market demand for personalized products increases, precision laser engraving technology provides designers and manufacturers with unlimited creative space and flexible design possibilities.
With the continuous advancement of technology, precision laser engraving will play an increasingly important role in future industrial development, driving various industries to achieve higher production efficiency and innovation capabilities.
CO2 laser engraving is a laser processing technology widely used in industry and artistic creation. Its working principle involves the generation, regulation and material processing of lasers. The following is a detailed description of the working principle of CO2 laser engraving:
1. Generation of laser
The core part of the CO2 laser is a laser cavity filled with gases such as carbon dioxide (CO2), nitrogen (N2) and helium (He). Under the action of an external high-voltage power supply, these gas molecules are excited to generate laser photons.
The photons in the laser cavity are repeatedly reflected between the reflectors. After reaching a certain intensity, a high-energy laser beam is emitted from the laser exit mirror.
2. Adjustment of the laser beam
The emitted laser beam is adjusted through a series of optical elements (such as lenses and reflectors) to form the desired focus.
The adjustment of the focal position is crucial to the accuracy and depth of laser engraving. The smaller the focal position, the higher the energy density of the laser and the better the engraving effect.
3. Engraving process
When the laser beam is irradiated on the surface of the material, the high temperature of the laser will quickly heat the material. The wavelength of CO2 lasers usually has good absorption for non-metallic materials (such as wood, plastic, paper, leather and cloth), and quickly vaporizes or melts the surface of the material.
The laser control system will accurately remove the material by scanning the laser beam on the surface of the material according to the preset pattern, text or design to form the desired engraving effect.
Since laser engraving is a non-contact processing, it will not cause mechanical pressure on the material, reducing the risk of deformation and damage.
4. Cooling and fume extraction
During the engraving process, smoke and gas will be generated when the material evaporates, so it is usually equipped with an extraction system to keep the working environment clean and safe while improving the engraving quality.
CO2 laser engraving relies on the high energy density and precise control of the laser to achieve efficient engraving and cutting of various materials. Its advantages in precision, speed and processing range make it an important processing tool in current industrial and artistic design.
1. Adopt advanced DSP control system with "power-off memory" and "automatic standby" function.
2. Imported laser and optical devices, good spot quality, stable output power and low maintenance cost.
3. Precision linear guide rail, fast speed, high precision, strong bearing capacity and good rigidity.
4. Enclosed constant temperature cooling water system to ensure the laser tube works stably for a long time.
5. Comply with European CE safety standard and equipped with induction door, which will stop automatically when the laser is opened accidentally.
6. Advanced variable speed system, realizing the function that the laser can change speed instantly according to the need of curved and straight lines and self-adjust the hourly speed when cutting, so that the cutting edge is smooth and the curve is smooth, and The cutting accuracy is high, fast and can come out with any graphics.
7. Double-head and multi-head cutting system can be selected to improve production efficiency and reduce production cost according to customer requirements. Different laser power and table cutting size options.
CO2 Laser Head
Choose a high-precision CO2 laser head with red dot positioning. The cutting head always follows the material and keeps the position of the cutting point constant. The laser head is also fitted with an air tube that blows out an air stream that not only blows away air but also cools the lens and the surface of the object.
CO2 Laser Tube
The CO2 laser tube is a powerful laser generator that produces a high-powered laser beam for engraving and cutting a variety of materials. It is known for its durability and accuracy, and is relatively easy to operate and maintain.
HIWIN Guide Rail
Adopting Taiwan HIWIN linear guide rail, it has fast running speed, high positioning accuracy and longer service life, which improves the engraving and cutting accuracy and ensures precise processing results.
Mirror and Lens
Adopting foreign imported focusing lens and reflector, which makes the equipment produce smaller light spot, high efficiency, good stability and stronger cutting ability; with 45° mirror adjustment, it is easy to find the center of the lens and find the correct focal length. Suitable for various environments with high precision and speed.
Ruida Controller
Ruida Controlle is a powerful and multi-functional controller for laser engraving and cutting machine. It not only supports USB cable computer control, but also supports USB disk offline control. It also has good resistance to high voltage and static electricity.
Stepper Motor Control System
Choose the powerful and reliable stepper motor to ensure the normal operation of the machine. Digital timing, analog control of laser power, small error, high repeatability, maintenance-free. Ensure the possibility of realizing extremely precise positioning, and the mobile positioning mechanism runs smoothly. Low noise, not easy to heat, safe and reliable.
Industrial Chiller
CW-5000 water chiller has temperature display, which can prevent overheating burnout and interruption of water circulation. The industrial water chiller ensures heat dissipation from the core optical path components so that the CO2 laser cutter can provide consistent cut quality. It also improves throughput by reducing CO2 laser cutting machine downtime.
Shanghai Fulong Belt
Adopting Fulong brand nylon belt with high abrasion resistance, good stability, good torsion resistance, low elongation and low noise.
Honeycomb Table
Honeycomb table makes the airflow smoother and the cutting surface more even, with good support performance of small holes, solid structure, no deformation during machining, and small workpieces can be placed on the table for machining. The honeycomb design helps reduce noise and vibration during cutting.
Laser Protection Cover
When the cover of the machine is opened, the machine stops working, preventing the machinery and laser from causing accidental injury to the operator. Ensures that the operator will not be injured by the laser beam and protects the operator's safety.
Collection Drawer
Convenient for collecting and accessing cuttings. Easy to clean up cutting waste and flying dust.
Motorized Lifting Table
The motorized lifting table can be customized upon request. It is mainly used to adjust the height of the material to maintain the most suitable distance between the cutting head and the surface of the material to ensure the cutting effect.
Rotary Axis Device
The rotary axis device can be selected according to requirements, which is used to clamp and rotate cylindrical objects to realize the rotary cutting of materials. The device consists of a motor, drive shaft and chuck.
As an advanced processing technology, precision laser engraving has many advantages, which makes it widely used in modern industry and creative fields.
1. High precision
Detailed processing: Laser engraving can achieve micron-level precision, can engrave complex patterns, texts and details, and is suitable for applications with extremely high demand.
2. Diverse materials applicable
Wide material compatibility: Precision laser engraving can be applied to a variety of materials, including wood, plastic, leather, paper, glass, etc. Different materials can achieve the best engraving effect by adjusting the laser power and focus.
3. No mold required
Reduce upfront costs: Compared with traditional mechanical processing methods, laser engraving does not require the production of molds, making small batch production and personalized customization more economical and flexible.
4. High efficiency
Fast processing: Laser engraving is fast and can complete complex processing tasks in a short time, thereby shortening the production cycle and improving production efficiency.
5. Non-contact processing
Reduce material loss: Laser engraving is a non-contact processing method that does not cause mechanical pressure or deformation to the material, and also reduces material waste.
6. Programmability
Easy automation and mass production: Laser engraving can be controlled by computer programs to achieve efficient automated processing, one-time settings can be used for mass production, and it is easy to modify and update the design.
7. Environmental protection and safety
Reducing waste and pollution: Laser engraving produces less waste, and due to its efficient use of energy, it can reduce the impact on the environment in many applications.
8. Enhance creativity
Free design: Laser engraving can handle complex designs and unique ideas, and can easily achieve personalized customization, giving designers greater creative freedom.
9. Reliability and stability
Consistency: Laser engraving can ensure that each work has highly consistent quality, suitable for commercial production with strict quality requirements.
With its high precision, multi-material adaptability, high efficiency and innovative design capabilities, precision laser engraving has become an important tool for modern manufacturing and artistic creation, meeting a variety of industrial and personalized needs. Click here to contact Suntop Laser now for more information on laser engraving.
Model | ST-CC6040 | ST-CC9060 | ST-CC1390 | ST-CC1325 |
Working area | 600*400mm | 900*600mm | 1300*900mm | 1300*2500mm |
Laser power | 60W/80W/100W/130W/150W/180W/200W (optional) | |||
Laser type | Hermetic and detached Co2 laser tube | |||
Control configuration | DSP | |||
Cooling mode | Water cooling and protection system | |||
Position system | Red dot | |||
Max moving speed | 1500mm/s | |||
Laser energy control | 1-100℅ set by hand or software | |||
Locating precision | <0.01 mm | |||
Min shaping character | Character: 3*3 mm, letter: 2*2 mm | |||
Worktable | Electric up and down table, with the first layer Honeycomb table and the second Aluminum knife table (Two layers) for different kinds of materials cutting | |||
Resolution ratio | ≦4500 dpi | |||
Power supply | AC220±10℅ 50 HZ, AC110±10℅ 50 HZ | |||
System environment | Windows 7/Windows 10, 32bits or 64 bits | |||
Limit switch | Induction metal limit switches for accurate positioning of X and Y positions | |||
Motion control mode | Precision linear guide | |||
Air pressure control | There is a device to adjust the air pressure at the cutting head | |||
Dimensions(package) | 1530*850*800mm | 1600*1140*1300mm | 2050*1480 *1280mm | 3200*2150*1800mm |
Gross weight | 150KG | 306Kg | 420KG | 500KG |
Widely used in wood products, paper, leather, cloth, plexiglass, epoxy resin, acrylic, wool, plastic, rubber, tile, crystal, jade, bamboo products and other non-metallic materials.
CO2 precision laser engraving machines are widely used in many industries due to their high efficiency, accuracy and versatility.
Packaging industry
Food and beverage packaging: marking product information, shelf life, barcodes, etc. on plastic, cartons and other packaging materials.
Cosmetic packaging: engraving brand logos, ingredients and instructions on bottles or boxes.
Electronics industry
Circuit board marking: marking model, serial number and other identification information on PCB boards.
Instruments: marking product numbers, manufacturing dates, etc. on plastic and metal shells.
Wood products
Furniture and crafts: used to engrave brand logos and personalized information such as names, dates, etc.
Musical instruments: exquisite engraving and marking on musical instruments such as guitars and pianos.
Clothing and accessories
Clothing labels: marking brands and washing instructions on fabrics.
Leather products: marking personalized information on belts, wallets, handbags, etc.
Medical industry
Medical equipment: marking model, expiration date and other information on shells or labels.
Disposable medical supplies: marking product information on syringes and gloves.
Advertising and logos
Display stands: marking advertising content on acrylic or wooden display stands.
Trophy and medals: used to engrave the winner's name and award information.
Automotive industry
Interior parts: marking brands and models on plastic or leather interiors.
Parts identification: marking part numbers on the body or under the hood.
Jewelry and handicrafts
Non-metallic jewelry: engraving names or dates on rings, necklaces, etc. as a commemoration.
Crafts: personalized engraving on ceramic and glass crafts.
Security and anti-counterfeiting
Labels and certificates: marking on anti-counterfeiting labels and certificates to ensure the authenticity of the product.
ID cards and access cards: engraving personal information and QR codes on plastic cards.
CO2 precision laser engraving machines are used in a wide range of industries, including advertising, manufacturing, art, packaging, etc. Its versatility and high precision make it an indispensable tool in these industries, able to meet diverse market needs. Click here to contact Suntop Laser now to learn more.
There are many differences between laser engraving and traditional engraving in terms of technology, efficiency, cost, precision and application. The following is a detailed comparison of the two:
1. Technical principle
Laser engraving:
Use high temperature and high energy of laser beam directly on the material to quickly cut or engrave the desired pattern.
Applicable to a variety of materials (wood, plastic, metal, glass, etc.).
Traditional engraving:
Mechanical removal of materials by hand tools or mechanical equipment (such as engraving knives, chisels, etc.).
Mainly used for wood, stone, marble, etc.
2. Efficiency
Laser engraving:
Fast speed, especially suitable for mass production, can quickly complete complex designs.
Easy to operate, program control, save time for manual finishing.
Traditional engraving:
Relatively slow, especially complex designs require more time and skills.
Hand engraving requires the experience and skills of the artist, and is often unpredictable.
3. Precision and details
Laser engraving:
High precision, can engrave delicate and complex patterns, especially in small details.
Can achieve high repeatability process to ensure the consistency of each product.
Traditional engraving:
Accuracy depends on the skill level of the engraver, and there may be differences in detail processing.
With traces of handwork, it is suitable for works that pursue unique personality and artistic value.
4. Cost
Laser engraving:
The equipment investment is high, but it can reduce unit cost for mass production.
Pay attention to maintenance and power consumption in the long term.
Traditional engraving:
The initial equipment investment is low, but the labor cost and time cost are high, and skilled workers are relatively scarce.
The cost of each work may vary depending on the complexity.
5. Material diversity
Laser engraving:
Widely applicable to a variety of materials, laser engraving machines can flexibly adjust parameters to adapt to different materials.
Traditional engraving:
Mostly used for specific materials (such as wood, stone), the selection and development of materials are relatively limited.
6. Creative freedom
Laser engraving:
Design changes and iterations can be easily achieved through computer software, suitable for rapid prototyping.
Traditional engraving:
The creative process is more artistic and personal, and the engraver can adjust the engraving method at any time according to inspiration.
7. Application fields
Laser engraving:
Applicable to industries such as industry, advertising, education, and medical treatment, especially when large-scale personalized production is required.
Traditional engraving:
Mostly used for artwork, furniture making, souvenirs, etc., emphasizing the value of handmade art.
Laser engraving and traditional engraving each have their own unique advantages and disadvantages. In practical applications, the appropriate technology can be selected according to needs, budgets, and goals. Laser engraving is more suitable for industrial production that pursues efficiency and precision, while traditional engraving focuses more on artistry and personalized creation. Click here to contact Suntop Laser now for more information.
When choosing the right laser engraver, there are several factors to consider to ensure you can meet your project needs and budget.
1. Laser Type
CO2 laser:
Suitable for most non-metallic materials (wood, acrylic, paper, leather, etc.).
Suitable for engraving and cutting, often used for gifts, advertisements, furniture, etc.
Fiber laser:
Suitable for engraving and cutting of metal materials (such as aluminum, copper, stainless steel, etc.).
Compared to CO2 laser, fiber laser has higher efficiency and smaller focus, which can engrave more detailed patterns.
2. Working size
Determine the appropriate working area based on your project needs.
You need to consider the maximum size of the engraved pattern and the space requirements for possible expansion later.
3. Power
The higher the power, the faster the cutting and engraving speed is generally.
High power is suitable for cutting most metals and thicker materials, while low power is suitable for more detailed engraving.
4. Speed and accuracy
Consider the maximum speed and engraving accuracy of the machine, especially when engraving carefully and details.
Check samples and customer feedback to evaluate the performance of the machine.
5. Software compatibility
Confirm the design software supported by the laser engraving machine and whether it is easily compatible with your known design tools (such as AutoCAD, CorelDRAW, Adobe Illustrator, etc.).
The richness of software functions also affects the convenience of design and operation.
6. Running cost
Understand the consumables of the laser engraving machine (such as laser tubes, lenses, etc.) and their replacement costs.
Pay attention to the power consumption and maintenance costs of the machine and choose cost-effective equipment.
7. Safety
Choose equipment with good safety performance, such as protective covers, emergency stop buttons, overload protection, etc.
Make sure the equipment meets local safety standards and requirements.
8. Customer support and after-sales service
Evaluate the supplier's reputation and customer service to ensure that you can get support and technical assistance after purchase.
Understand the warranty coverage and service policy, as well as whether training and maintenance services are provided.
9. Budget
Choose according to your own budget and try to balance performance and cost.
Consider the long-term investment value of the equipment and choose a laser engraving machine that can meet future needs.
Through the above considerations, you can more specifically choose the laser engraving machine that suits your use to ensure that your engraving project can be completed efficiently. Click here to contact Suntop Laser immediately to recommend a suitable laser engraving machine for you.
The reasons for choosing Suntop laser equipment can be attributed to several advantages and features. Here are some of the main factors to help you understand why many users trust and choose Suntop laser equipment:
High-quality product performance
High precision and high efficiency: Suntop laser equipment has excellent laser cutting and engraving accuracy, which can meet the high standards of various industries.
Strong adaptability: Able to handle a variety of materials, such as wood, acrylic, metal, leather, etc., suitable for different processing needs.
Advanced technology
Innovative design: Suntop is constantly committed to technological innovation and provides the latest laser technology to improve production efficiency and processing quality.
Multi-functional equipment: Many equipment have multiple functions such as cutting, engraving, marking, etc., providing users with greater flexibility.
User-friendly operation
Easy-to-use software: Suntop equipment is equipped with an intuitive and easy-to-use software interface to simplify the operation process and reduce learning time.
Good compatibility: Compatible with many design software (such as AutoCAD, CorelDRAW, etc.), allowing users to directly import design drawings into the device.
Customized solutions
Meet specific needs: Suntop provides equipment customization services to meet the specific application requirements and industry needs of different customers.
High-quality after-sales service
Technical support: Provide professional and timely technical support to help customers solve problems encountered during use.
Training services: Equipment use training is usually provided to ensure that users can quickly get started and use the equipment effectively.
Comprehensive application areas
Wide application scenarios: Suntop laser equipment is widely used in industrial manufacturing, art creation, advertising production, jewelry processing, clothing design and other fields, with strong adaptability.
High cost performance
Reasonable price: Compared with other brands on the market, Suntop's products usually have a high cost performance, providing customers with a good return on investment.
Good customer feedback
Positive customer evaluation: Suntop has accumulated a large number of successful cases and customer feedback in the industry, proving the reliability of its products and customer satisfaction.
Rich industry experience
Deep industry background: Suntop has many years of experience in the field of laser equipment and has a deep understanding of market demand and technological development.
Choosing Suntop laser equipment allows you to enjoy high-quality and efficient laser processing experience, combined with good after-sales support and cost-effectiveness, it is an ideal choice for users in many industries. 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. What is a CO2 laser engraver?
A CO2 laser engraver is a device that uses a CO2 laser to emit an infrared laser to engrave and cut materials. It is suitable for processing a variety of non-metallic materials such as wood, acrylic, leather, paper, and cloth.
2. How large a work area do I need?
The choice of work area depends on the size of the project you will be engraving. A smaller work area is suitable for daily small workpieces, while a larger work area is suitable for making large projects or processing multiple items at the same time.
3. What are the maintenance requirements of a CO2 laser engraver?
Regular maintenance includes cleaning the laser tube, lens, and lens; checking and adjusting the alignment of the laser beam; and ensuring that the fan and cooling system are working properly. In addition, check the electrical connections and the software update of the laser machine.
4. Is it safe to use a CO2 laser engraver?
Yes, the machine is equipped with a safety shield, uses a fume extraction system, and wears appropriate eye protection. Make sure to follow the manufacturer's safety guidelines and operating procedures.
5. Is it suitable for beginners?
Yes, CO2 laser engravers are designed to be user-friendly, equipped with an intuitive software interface and rich operating guides, so they are suitable for beginners. Training and support can also usually help new users get started quickly.
6. Can the engraving effect be adjusted?
Yes, the engraving effect can be optimized by adjusting parameters such as laser power, speed and frequency. Different materials and textures require different settings to achieve the best results.
7. Can I engrave on metal?
No, CO2 laser engravers are mainly used for engraving and cutting of non-metallic materials. For metal engraving, you need to use a fiber laser engraver or a CO2 model equipped with specific marking functions.
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