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Plywood Laser Cutting Machine

Plywood Laser Cutting Machine
(4 customer reviews)

$2,700.00$8,000.00

Table of Contents

Product introduction

The plywood laser cutting machine is a specialized piece of equipment that uses a high-power laser beam to precisely cut plywood and other wood materials. Plywood laser cutting machines are commonly used in a variety of industries including woodworking, furniture making, model making, sign making, and architectural prototyping due to their ability to make complex and detailed cuts in plywood and other materials.
The plywood laser cutting machine uses high-power CO2 laser beams to cut plywood. The laser beam is focused on the surface of the material, creating a localized and controlled heating effect that vaporizes or melts the plywood along the cutting path. Laser cutting offers exceptional precision and accuracy, allowing for complex and detailed designs. Additionally, laser cutting is a rapid process, which makes it suitable for prototyping and mass production.
The plywood laser cutting machine can process various types and thicknesses of plywood, including hardwood and softwood plywood. But cutting parameters (power, speed, and focus) may need to be adjusted depending on the specific plywood material. Additionally, laser cutting optimizes material use by minimizing material waste.

Product Configuration

High Power CO2 Laser Tube

High Power CO2 Laser Tube

The machine is equipped with a powerful CO2 laser tube, which can provide precise and efficient cutting and engraving performance on various materials, including acrylic, wood, leather, fabric, glass, and so on. A high-powered laser tube ensures clean, precise cuts and smooth edges, while also enabling detailed engraving, making it suitable for intricate designs and industrial applications.

High-Precision CO2 Laser Head

High-Precision CO2 Laser Head

The high-precision CO2 laser head is selected, and it has a red dot positioning function to ensure that the laser beam is precisely aligned with the focusing optics and the nozzle. An accurate laser beam contributes to consistent and uniform cutting results. Additionally, the CO2 laser head is equipped with height control, which ensures consistent focus and compensates for any variations in material thickness or uneven surfaces.

Advanced Motion System

Advanced Motion System

The machine is equipped with an advanced motion system to ensure smooth and accurate movement of the laser head during cutting and engraving. This precise motion control enables clean, sharp cuts while also enabling detailed and intricate engraving on a variety of materials.

High-Precision HIWIN Rail

High-Precision HIWIN Rail

The machine is equipped with a Taiwan HIWIN guide rail with excellent precision. HIWIN is manufactured to tight tolerances, ensuring smooth and stable linear motion. This level of precision contributes to accurate and consistent laser cutting, especially when working with intricate designs and fine details. In addition, HIWIN rails are designed to minimize friction, resulting in smooth and quiet movement.

Reliable Stepper Motor

Reliable Stepper Motor

The machine adopts a stepper motor with strong power and reliable performance to ensure the normal operation of the machine. Not only are stepper motors cost-effective, but they also provide precise control of moving parts, ensuring high-quality laser cutting and stable positioning of optical components for reliable, efficient operation.

High-Quality Optics

High-Quality Optics

The machine is equipped with high-quality optics capable of producing a narrower, more stable laser beam, ensuring precise cutting paths and cleaner edges even on complex designs and delicate materials. In addition, high-quality optics help reduce beam divergence and losses, thereby improving energy efficiency.

Product Parameters

Model AKJ-6040 AKJ-6090 AKJ-1390 AKJ-1610 AKJ-1810 AKJ-1325 AKJ-1530
Working Area 600*400mm 600*900mm 1300*900mm 1600*1000mm 1800*1000mm 1300*2500mm 1500*3000mm
Laser Type CO2 Laser
Laser Power 80-300W
Power Supply 220V/50HZ, 110V/60HZ
Cutting Speed 0-20000mm/min
Engraving Speed 0-40000mm/min
Min Line Width ≤0.15mm
Position Accuracy 0.01mm
Repetition Accuracy 0.02mm
Cooling System Water Cooling

Cutting Thickness Reference

Laser Power Cutting Speed 3mm 5mm 10mm 15mm
25W Max Cutting Speed 4mm/s / / /
Optimal Cutting Speed / / / /
40W Max Cutting Speed 10mm/s 5mm/s / /
Optimal Cutting Speed 8mm/s / / /
60W Max Cutting Speed 15mm/s 10mm/s 4mm/s /
Optimal Cutting Speed 12mm/s 8mm/s / /
80W Max Cutting Speed 20mm/s 15mm/s 8mm/s /
Optimal Cutting Speed 18mm/s 10mm/s 6mm/s /
100W Max Cutting Speed 25mm/s 20mm/s 12mm/s 8mm/s
Optimal Cutting Speed 22mm/s 18mm/s 10mm/s 5mm/s
130W Max Cutting Speed 30mm/s 25mm/s 15mm/s 11mm/s
Optimal Cutting Speed 28mm/s 22mm/s 13mm/s 8mm/s
150W Max Cutting Speed 35mm/s 30mm/s 20mm/s 15mm/s
Optimal Cutting Speed 33mm/s 30mm/s 20mm/s 15mm/s
180W Max Cutting Speed 40mm/s 35mm/s 25mm/s 18mm/s
Optimal Cutting Speed 37mm/s 32mm/s 20mm/s 15mm/s
200W Max Cutting Speed 50mm/s 45mm/s 35mm/s 25mm/s
Optimal Cutting Speed 48mm/s 42mm/s 30mm/s 22mm/s
Note: Please note that these values are approximate and may require adjustments based on your specific laser cutting machine, material, and desired cutting quality. Always perform test cuts on scrap material to fine-tune the parameters before starting production cuts.

Comparison of Different Cutting Methods

Features Laser Cutting CNC Routing Band Saw Cutting Table Saw Cutting
Precision High High Moderate to High High
Versatility High High Moderate High
Cutting Speed Fast Moderate Moderate Fast
Intricate Shapes Yes Yes Limited No
Straight Cuts Yes Yes Limited Yes
Curved Cuts Yes Yes Yes Limited
Material Waste Low Low Moderate Moderate to High
Safety Precautions Required Required Required Required
Equipment Cost High Moderate to High Moderate Moderate to High
Setup and Calibration Complex Moderate Moderate Moderate
Noise Level Low to Moderate Moderate Moderate to High High
Edge Quality Clean Clean Moderate to Good Good
Heat Generation Minimal Moderate Moderate to High High
Accessibility to Beginners Moderate to Difficult Moderate Moderate Moderate
Note: Keep in mind that the suitability of each method can vary based on factors such as project requirements, material thickness, desired precision, and available equipment. When choosing a cutting method, these characteristics need to be evaluated against your specific cutting needs.

Cutting Samples

The plywood laser cutting machines use advanced laser technology to perform precision cutting and engraving on plywood. Whether you’re working on complex designs or industrial-scale projects, our machines deliver unparalleled precision and efficiency. Seamlessly integrate a plywood laser cutting machine into your production line and let your productivity soar. The plywood laser cutting machine features a user-friendly interface and intuitive controls that ensure a worry-free experience, saving you time and effort. With the cutting-edge technology, durability, and adaptability of plywood laser cutting machines, you can handle any challenges ahead.
Laser Cutting Sample of Plywood
Laser Cutting Sample of Plywood
Laser Cutting Sample of Plywood
Laser Cutting Sample of Plywood

Frequently Asked Questions

Plywood is an engineered wood product that is typically made from thin layers of wood veneers or “plies.” These thin layers, known as veneers or plies, are glued together with each layer’s grain direction oriented perpendicular to the adjacent layers. This cross-grain construction gives plywood its strength, stability, and resistance to warping.

Plywood is valued for its strength-to-weight ratio, durability, and resistance to cracking. It is widely used in building sheathing, subflooring, roofing, and siding. In furniture and cabinetry, plywood is often used for its stability and ability to provide a smooth, consistent surface. Its versatility and availability in a variety of grades and sizes make it a popular choice for residential and commercial applications.

Yes, plywood can be effectively laser-cut. Laser cutting is a highly precise and efficient cutting method that can cut a variety of materials, including wood and plywood. Laser cutting machines use a high-power laser beam focused through a lens, which generates intense heat when it contacts the material surface. The wood in the plywood absorbs the laser energy, causing the material to heat up and vaporize or burn away. The laser beam moves along a pre-programmed path to cut or engrave materials.

When laser cutting plywood, you need to consider the type and quality of the plywood as well as the laser settings to get the results you need. Different wood species and plywood grades may respond differently to laser cutting.

Overall, laser cutting is a popular choice for plywood processing because of its precision, versatility, and ability to create complex designs and custom shapes with minimal material waste.

The cost of a plywood laser cutting machine can vary greatly depending on a variety of factors, including the machine’s power, size, features, brand, and where you purchase it. Here are the general price ranges for laser cutting machines suitable for cutting plywood:

  • Entry-Level CO2 Laser Cutting Machine: These are compact machines suitable for hobbyists, small businesses, or educational purposes. It usually has lower power (20W to 60W) and a smaller cutting area. Entry-level CO2 laser cutting machines range in price from $1,000 to $3,000 or more.
  • Mid-Range CO2 Laser Cutting Machine: Mid-range CO2 laser cutting machines offer more versatility, higher power (60W to 200W), and larger cutting areas. It may include features such as autofocus and rotating attachments. Prices for mid-range machines typically start at $5,000 and can go up to $15,000 or more, depending on specifications.
  • Industrial CO2 Laser Cutting Machine: Industrial-grade CO2 laser cutting machine is designed for heavy-duty use and large-scale production. It is equipped with a high-power laser generator (above 200W) and a larger cutting area. Industrial CO2 laser cutting machines vary greatly in price, from $10,000 to hundreds of thousands of dollars or more, depending on the size and capabilities of the machine.

The initial cost of a plywood laser-cutting machine is only part of the investment. You may also need to budget for additional costs, including ventilation and exhaust systems, laser safety equipment, maintenance, and replacement parts.

The exact price of a plywood laser cutting machine in these ranges will depend on factors such as machine brand, build quality, cutting area, laser tube type, and additional features. When purchasing a plywood laser cutting machine, it is important to consider your specific needs, including the thickness of the material you plan to cut, the size of your project, and any unique requirements. Additionally, a reputable manufacturer or distributor may offer a warranty and customer support, which may affect the overall value of the machine.

While laser cutting is a versatile and precise method of cutting plywood, it does come with some drawbacks and caveats. The following are the disadvantages of laser cutting plywood:

  • Burnt Edges: The heat generated during laser cutting can cause burns or charring of the edges of the cut plywood. These burnt edges may require additional finishing or sanding to achieve a polished appearance.
  • Material Thickness Limitations: Laser cutting has a limit on the maximum thickness of plywood it can effectively cut. Thicker plywood may require more time, multiple passes, or a higher-power laser, increasing production time and cost.
  • Material Compatibility: The type of adhesive used in plywood may vary, and some adhesives may produce toxic fumes or residue when exposed to laser energy. Make sure the plywood is compatible with laser cutting to avoid health and safety issues.
  • Material Waste: Laser cutting produces waste in the form of cuts and offcuts. Effective nesting and layout planning help minimize material waste.
  • Complex Setup: Setting up a laser cutting machine to make precise cuts can be time-consuming and may require specialized knowledge. Achieving the desired cutting results often requires fine-tuning setup and calibration.
  • Maintenance and Alignment: Laser cutting machines require regular maintenance to keep them running optimally. The alignment of the laser beam, mirrors, and lenses needs to be checked and adjusted regularly to ensure accuracy.
  • Smoke and Odor: Laser-cutting plywood releases smoke and odor. If ventilation is not done properly, it can be unpleasant and potentially harmful, so an adequate ventilation or exhaust system is required to remove these fumes from the workspace.
  • Equipment Cost: Laser cutting machines can be expensive to purchase and maintain, which can be a hindrance for a small business or hobbyist.
  • Material Ignition: Plywood is a flammable material and there is a risk of ignition if the laser settings are not properly controlled. Safety measures such as fire protection systems and proper ventilation can help minimize this risk.

Despite these shortcomings, laser cutting remains a valuable and widely used technology for plywood and a variety of other materials due to its precision, versatility, and ability to produce complex and custom designs. Careful consideration of the specific requirements of the project can help mitigate some of these disadvantages and make laser cutting an effective solution.

Laser cutting can be used to cut various types of plywood, but the success of the cutting process and the quality of the results may depend on the specific type of plywood and its characteristics. Here are some common plywood types that can be laser cut:

  • Hardwood Plywood: This type of plywood is made from hardwood veneers, such as oak, birch, or maple, and is often used to create fine furniture and cabinets. Lasers can cut on hardwood plywood, but the density of hardwood may require higher laser power and slower cutting speeds.
  • Softwood Plywood: Made from softwood veneers such as pine, fir, or cedar, softwood plywood is commonly used in building and structural applications. It can be laser cut, but the cutting results may vary depending on the specific softwood used.
  • Marine Plywood: Designed for use in wet or marine environments, marine plywood is typically made from a waterproof adhesive and high-quality wood board. While laser cutting is possible, the adhesive used in marine plywood may produce more toxic fumes when exposed to laser light.
  • MDF Core Plywood: Plywood with a medium-density fiberboard (MDF) core is suitable for laser cutting. MDF provides a smooth, flat surface and the veneer layers can be laser cut cleanly. This type of plywood is commonly used in cabinet and furniture manufacturing.
  • Plywood with A Veneer Finish: Plywood with a decorative veneer finish, such as walnut or cherry veneer, can be laser cut to create intricate designs and patterns while retaining the appearance of the veneer.

While these types of plywood can generally be laser cut, the specific settings, laser power, and cutting speed may need to be adjusted based on the type of plywood and its thickness. Also, consider the type of adhesive used in the plywood, as some adhesives may emit toxic fumes when exposed to laser light.

Before laser cutting any type of plywood, it is recommended to make a test cut and fine-tune the settings to achieve the desired results. Also, make sure the plywood is clean and free of contaminants to prevent unnecessary residue buildup on the laser lens or cutting bed.

Laser-cutting plywood is safe if proper precautions and safety measures are taken. However, as with any industrial process involving high-power lasers, there are potential risks that need to be managed. Here are some key safety considerations when laser cutting plywood:

  • Protective Equipment: The laser beams used in laser cutting are very intense and can cause damage to human eyes and skin, so the operator and anyone near the laser cutting machine should wear appropriate protective equipment. This typically includes laser safety glasses and protective clothing specifically designed to block the laser wavelengths used, thereby reducing the risk of damage to the human body.
  • Ventilation: Laser cutting produces smoke and potentially harmful particles, especially when cutting adhesive or certain types of plywood. Adequate ventilation or smoke extraction systems should be in place to remove these by-products from the work area, which helps maintain air quality and reduces the risk of inhaling harmful substances.
  • Fire Safety: Laser cutting generates intense heat and presents a risk of fire, especially when cutting combustible materials such as wood. The work area should be equipped with fire prevention and fire extinguishing systems, and flammable items should be kept away from the laser cutting machine.
  • Training: Operators should receive appropriate training on the safe use of laser-cutting equipment. This includes knowing how to set up the machine, calibrate the machine, and troubleshoot problems. Inexperienced or untrained operators can pose significant safety risks.
  • Material Compatibility: Make sure the type of plywood used is compatible with laser cutting. Certain types of adhesives and plywood can emit harmful fumes or produce undesirable results when laser cut. It is recommended to consult the plywood manufacturer for information on the laser compatibility of the material.
  • Eye and Skin Protection: Laser beams can be harmful to eyes and skin. Operators should avoid looking directly into the laser beam and should always wear laser-protective glasses. Additionally, skin contact with the laser beam or any reflective surface needs to be avoided.
  • Machine Maintenance: Regular maintenance and inspection of your laser cutting machine is essential for safety. This includes inspecting for damaged or misaligned parts, keeping laser optics clean, and ensuring all safety interlocks are functioning properly.

By following these safety guidelines and conducting a thorough risk assessment of your laser cutting setup, you can help ensure a safe working environment when using laser technology to cut plywood or other materials. In any laser-cutting operation, safety must be a priority to protect the operator and equipment.

Ensuring accurate cuts when laser cutting plywood involves several key steps:

  • Quality Material: Start with high-quality plywood that is suitable for laser cutting. Lower-quality plywood may have inconsistencies in density or glue, which can affect cutting accuracy.
  • Proper Calibration: Regularly calibrate your laser cutter to ensure precise alignment and focus. This ensures that the laser beam is hitting the material at the right angle and intensity for accurate cuts.
  • Optimal Settings: Adjust the laser power, speed, and frequency settings based on the thickness and type of plywood you’re cutting. Experimentation and testing may be necessary to find the optimal settings for your specific material.
  • Vector Design: Use vector-based design software like Adobe Illustrator or CorelDRAW to create your cutting patterns. Vector graphics ensure that lines are precise and smooth, leading to accurate cuts.
  • Check for Warping: Plywood can sometimes warp, especially if it has been stored improperly. Check the material for any signs of warping before cutting, as this can affect the accuracy of the cuts.
  • Secure Material: Secure the plywood firmly to the cutting bed to prevent any movement during the cutting process. Even slight movement can lead to inaccuracies in the cuts.
  • Ventilation and Cooling: Proper ventilation and cooling are essential to prevent the plywood from overheating during cutting. Overheating can cause the edges of the cuts to become charred or melted, leading to inaccuracies.
  • Post-Processing Inspection: After cutting, inspect the edges of the plywood to ensure they are clean and free of any residue. If necessary, use sandpaper or a file to smooth out any rough edges.

By following these steps, you can ensure accurate cuts when laser-cutting plywood for your projects.

Several factors can affect the speed of laser cutting plywood:

  • Material Thickness: Thicker plywood requires slower cutting speeds to ensure that the laser has enough time to penetrate through the material completely.
  • Material Type: Different types of plywood have varying densities and compositions, which can affect how quickly they can be cut. Hardwoods may require slower speeds compared to softer woods.
  • Laser Power: Higher laser power typically allows for faster cutting speeds, as it can more efficiently vaporize the material. However, using too much power can also lead to charring or melting, so it’s important to find the right balance.
  • Focus: Properly focusing the laser beam is crucial for achieving clean and efficient cuts. If the laser is not focused correctly, it may require slower speeds to compensate for reduced cutting efficiency.
  • Cutting Pattern Complexity: Intricate or detailed cutting patterns may require slower speeds to ensure precision and accuracy. Simple shapes can often be cut more quickly than complex designs.
  • Ventilation and Cooling: Adequate ventilation and cooling are necessary to prevent the material from overheating during cutting. If the material overheats, it may require slower cutting speeds to prevent charring or warping.
  • Machine Performance: The capabilities of the laser cutter itself, including its maximum speed and acceleration, will also influence the cutting speed. Higher-performance machines may be able to cut more quickly without sacrificing quality.
  • Quality of Optics: The quality of the laser cutting machine’s optics, including lenses and mirrors, can impact cutting speed. High-quality optics can maintain focus over longer distances, allowing for faster cutting speeds.

By considering these factors and adjusting the cutting parameters accordingly, you can optimize the speed of laser cutting plywood while maintaining quality and accuracy.

Equipment Selection

At AccTek Laser, we pride ourselves on being an industry leader in cutting-edge laser technology. Our laser-cutting machines are designed to meet the diverse needs of our valued customers, offering unrivaled precision, speed, and efficiency for all your cutting requirements. We understand that every business has unique requirements, and choosing the right delrin laser-cutting machine can help make your project a success. You’ll also have access to a dedicated team of experts dedicated to providing unparalleled customer support, training, and maintenance.

Why Choose AccTek Laser

Productivity

Unparalleled Expertise

With years of experience in laser cutting technology, we have honed our expertise to provide cutting-edge solutions tailored to your unique needs. Our team of skilled engineers and technicians has the in-depth knowledge to ensure you get the perfect laser-cutting machine for your specific application.

Quality

Comprehensive Support And Service

At AccTek Laser, we build strong relationships with our clients. Our dedicated support team provides prompt assistance and after-sales service to keep your laser-cutting machine running at its best for years to come. Your satisfaction is our top priority and we will help you every step of the way.

Reliability

Strict Quality Control

Quality is the cornerstone of our manufacturing process. Every laser-cutting machine is rigorously tested and adheres to strict quality control standards, ensuring that the product you receive meets the highest industry benchmarks. Our dedication to quality ensures you get a machine that performs consistently and delivers perfect cuts every time.

Cost-Effective Solution

Cost-Effective Solution

We understand the importance of cost efficiency in today’s competitive landscape. Our laser-cutting machines can provide excellent value for your investment, minimizing downtime and reducing operating costs while maximizing productivity and efficiency.

Customer Reviews

4 reviews for Plywood Laser Cutting Machine

  1. Adin

    High-quality craftsmanship with our CO2 laser cutter. It’s reliable, and versatile, and enhances the overall efficiency of our operations.

  2. Pavel

    Dependable workhorse in our workshop. The CO2 laser cutter consistently delivers accurate cuts, ensuring the highest standards of quality.

  3. Nari

    Streamlined production process with our laser cutting machine. It’s intuitive, efficient, and contributes to our business’s success.

  4. Amina

    Reliable performance from our laser machine. Its precision and speed contribute to the seamless execution of our projects.

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We can customize the design according to your requirements. You only need to tell us your requirements, and our engineers will provide you with turnkey solutions in the shortest possible time. Our laser equipment prices are very competitive, please contact us for a free quote. If you need other laser equipment-related services, you can also contact us.

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We can customize the design according to your requirements. You only need to tell us your requirements, and our engineers will provide you with turnkey solutions in the shortest possible time. Our laser equipment prices are very competitive, please contact us for a free quote. If you need other laser equipment-related services, you can also contact us.
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