The Mimowork's Flatbed Laser Cutter 130L is ideal for standard-sized large format materials.
This machine is also featuring an ergonomic design with access to all four sides, allowing unrestricted unloading and loading even while the machine is cutting. It is with belt drive in both gantry movement directions. The servo motors with the machine ensure the high speed and high precision cutting. You can choose different working platforms for different materials. This model is especially designed for signs & furniture industry.
Process Materials: Acrylic, Abs, Glass, Fabric, Laminates, Leather, Paper, Plastic, Wood and other Non-metal Materials
Application: Signs, Displays, Arts, Crafts, Awards, Trophies, Gifts and many others
|Working Area (W *L)||1300mm * 2500mm (51” * 98.4”)|
|Laser Source||CO2 Glass Laser Tube|
|Mechanical Control System||Belt Transmission & Servo Motor Drive|
|Working Table||Knife Strip Working Table|
Highlights of FLATBED LASER CUTTER 130L：
A belt is a looped strip of flexible material used to mechanically link two or more rotating shafts. A belt drive offers smooth transmission of power between shafts at a considerable distance. Belt drives are used as the source of motion to transfer to efficiently transmit power or to track relative movement. In the motion of belt drive, power transmission results make one side of pulley more tightened compared to the other side. In horizontal drives, the tightened side is always kept on the lower side of two pulleys because the sag of the upper side slightly increases the angle of the folding of the belt on the two pulleys. Belt drives are simple are economical.
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 analogue 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.