FBL-230hi is a high-precision CNC lathe carefully developed by Taiwan Fushuo. The bed, spindle box and other key components of this machine are all made of high-quality castings, with stable structure and permanent quality maintenance to ensure the overall stability and high rigidity performance of the machine tool. By using finite element analysis and strengthening ribs to achieve optimized design, the structure can be made solid, ensuring the heavy load capacity during processing, and maintaining the high rigidity structure of high-precision machines, which can extend the service life of machining tools. The machine is integrally formed with a low center of gravity of 45 degrees. The inclined bed design provides an extremely stable base for the spindle head, turret, and tailstock. The X/Z axis adopts a hard rail design and is subjected to appropriate hardening heat treatment and precision grinding, which can provide rigidity requirements during cutting, reduce wear, maintain long-term accuracy requirements, and ensure the rigidity of machine operation. Moreover, at fast displacement speeds, the X axis is 20m/min and the Z axis is 20m/min, still maintaining the best positioning accuracy. The sliding plate, spindle box, turret, tailstock, and the contact surface between the ball screw structure and the base on the machine tool are manually chipped to achieve optimal assembly accuracy, high rigidity, and balanced load. The spindle bearings are selected with high-precision roller bearings, and the bearing arrangement is optimized with a span two-point support design, which can meet the requirements of flat and stable cutting as well as long-term and precise machining. Using a high-performance belt driven spindle system can make maintenance easier and increase torque, allowing the motor to fully unleash its potential and achieve large vehicle cutting capabilities. The X/Z-axis motor and precision C3 level high-speed ball guide rod are directly connected to ensure the accuracy of precision bearings. It is suitable for high-precision use of C3 level large-diameter ball guide rod preloading design, with high rigidity and excellent precision. The guide rod pre tensioning device increases the rigidity of the guide rod, reduces thermal displacement, and improves accuracy. The high load oil pressure positioning turret only requires 0.3 seconds for adjacent tools to change,. Using a large-diameter high-precision positioning cutter head with high clamping force to ensure sufficient turret rigidity in any cutting situation. The high-strength spindle tailstock design provides maximum rigidity and high load capacity. The extension and contraction of the tailstock spindle are adjusted by hydraulic pressure. After positioning, a high-pressure clamping mechanism is used for positioning and clamping to ensure the rigidity and processing stability of the tailstock. Automatic lubrication design in oil circuit collection ensures machine accuracy and lifespan, with automatic lubrication applied to both X and Z axis slide surfaces and ball screws. When there is an abnormal situation or insufficient fuel, a warning signal is generated. The sheet metal of the machine tool cover adopts a fully enclosed protective device. During machining, cutting splashes and cutting fluid forms a mist. To avoid injury to the operator, an isolation design is adopted. The operator does not need to open the operation door and can see the machining situation through the window. A track type iron chip conveyor and chip collection vehicle are installed at the front of the machine, and this high-efficiency chip removal mechanism can handle a large amount of iron chips. The design of a large capacity cutting fluid water tank adopts a high-pressure cooling pump to effectively remove the heat energy generated by cutting, ensuring the accuracy of cutting. Optional servo turret, high-precision curved gear clutch precise positioning disc, using servo motor for precise positioning, and oil pressure for disengagement and engagement. The adjacent tool changing time of the turret only takes 0.25 seconds, demonstrating fast and accurate tool changing action (optional). 17. Optional manual/automatic tool measuring device, providing convenient tool setting, wear compensation, and fracture detection (optional).