Working Area (W *L) |
1300mm * 900mm (51.2” * 35.4 ”) |
Software |
Offline Software |
Laser Power |
100W/150W/300W |
Laser Source |
CO2 Glass Laser Tube or CO2 RF Metal Laser Tube |
Mechanical Control System |
Step Motor Belt Control |
Working Table |
Honey Comb Working Table or Knife Strip Working Table |
Max Speed |
1~400mm/s |
Acceleration Speed |
1000~4000mm/s2 |
Package Size |
2050mm * 1650mm * 1270mm (80.7” * 64.9” * 50.0”) |
Weight |
620kg |
Laser engraving on the large format wood can be realized easily thanks to the two-way penetration design, which allows wood board placed through the whole width machine, even beyond the table area. Your production, whether cutting and engraving, will be flexible and efficient.
Happen to some sudden and unexpected condition, the emergency button will be your safety guarantee by stopping the machine at once.
Smooth operation makes a requirement for the function-well circuit, whose safety is the premise of safety production.
Owning the legal right of marketing and distributing, MimoWork Laser Machine has been proud of the solid and reliable quality.
Air assist can blow the debris and chippings from the surface of engraved wood, and give a degree of assurance for wood burn prevention. Compressed air from the air pump is delivered into the carved lines through the nozzle, clearing the extra heat gathered on the depth. If you want to achieve burning and darkness vision, adjust the pressure and size of airflow for your desire. Any questions to consult us if you are confused about that.
CCD Camera can recognize and locate the printed pattern on the wood board to assist the laser with accurate cutting. Wood signage, plaques, artwork and wood photo made of printed wood can be easily processed.
A servomotor is a closed-loop servomechanism that uses position feedback to control its motion and final position. The input to its control is a signal (either analog or digital) representing the position commanded for the output shaft. The motor is paired with some type of position encoder to provide position and speed feedback. In the simplest case, only the position is measured. The measured position of the output is compared to the command position, the external input to the controller. If the output position differs from that required, an error signal is generated which then causes the motor to rotate in either direction, as needed to bring the output shaft to the appropriate position. As the positions approach, the error signal reduces to zero, and the motor stops. Servo motors ensure higher speed and higher precision of the laser cutting and engraving.
Brushless DC (direct current) motor can run at a high RPM (revolutions per minute). The stator of the DC motor provides a rotating magnetic field that drives the armature to rotate. Among all the motors, the brushless dc motor can provide the most powerful kinetic energy and drive the laser head to move at tremendous speed. MimoWork’s best CO2 laser engraving machine is equipped with a brushless motor and can reach a maximum engraving speed of 2000mm/s. The brushless dc motor is rarely seen in a CO2 laser cutting machine. This is because the speed of cutting through a material is limited by the thickness of the materials. On the contrary, you only need small power to carve graphics on your materials, A brushless motor equipped with the laser engraver will shorten your engraving time with greater accuracy.
A mixed laser head, is a very important part of the metal & non-metal combined laser cutting machine. With this professional laser head, you can use the laser cutter for wood and metal to cut both metal and non-metal materials. There is a Z-Axis transmission part of the laser head that moves up and down to track the focus position. Its double drawer structure enables you to put two different focus lenses to cut the materials of different thicknesses without adjustment of focus distance or beam alignment. It increases cutting flexibility and makes the operation very easy. You can use different assist gas for different cutting jobs.
It is mainly used for metal cutting. You may need to set a certain focus distance in the software when the cutting material is not flat or with different thickness. Then the laser head will automatically go up and down, keeping the same height & focus distance to match with what you set inside the software to achieve a consistently high cutting quality.
A ball screw is a mechanical linear actuator that translates rotational motion to linear motion with little friction. A threaded shaft provides a helical raceway for ball bearings which act as a precision screw. As well as being able to apply or withstand high thrust loads, they can do so with minimum internal friction. They are made to close tolerances and are therefore suitable for use in situations in which high precision is necessary. The ball assembly acts as the nut while the threaded shaft is the screw. In contrast to conventional lead screws, ball screws tend to be rather bulky, due to the need to have a mechanism to re-circulate the balls. The ball screw ensures high speed and high precision laser cutting.
✔ Flexible design customized and cut
✔ Clean and intricate engraving patterns
✔ Three-dimensional effect with adjustable power
Bamboo, Balsa Wood, Beech, Cherry, Chipboard, Cork, Hardwood, Laminated Wood, MDF, Multiplex, Natural Wood, Oak, Plywood, Solid Wood, Timber, Teak, Veneers, Walnut…
Vector laser engraving on wood refers to using a laser cutter to etch or engrave designs, patterns, or text onto wood surfaces. Unlike raster engraving, which involves burning pixels to create the desired image, vector engraving uses paths defined by mathematical equations to produce precise and clean lines. This method allows for sharper and more detailed engravings on wood, as the laser follows the vector paths to create the design.
• Suitable for large format solid materials
• Cutting multi-thickness with optional power of laser tube
• Light and compact design
• Easy to operate for beginners
It’s important to note that different types of wood have varying densities and moisture content, which can affect the laser-cutting process. Some woods may require adjustments to the laser cutter settings to achieve the best results. Additionally, when laser-cutting wood, proper ventilation and exhaust systems are essential to remove the smoke and fumes generated during the process.
With a CO2 laser cutter, the thickness of wood that can be effectively cut depends on the power of the laser and the type of wood being used. It’s important to keep in mind that the cutting thickness may vary depending on the specific CO2 laser cutter and the power output. Some high-powered CO2 laser cutters may be able to cut thicker wood materials, but it’s essential to refer to the specifications of the particular laser cutter being used for precise cutting capabilities. Additionally, thicker wood materials may require slower cutting speeds and multiple passes to achieve clean and precise cuts.