

Description: The SZ-256E is a mid-to-high-end 6-axis CNC Swiss-type lathe. The tool holder on the sub-spindle side can accommodate two rows of tools and features a Y2 axis, offering powerful functionality. The milling power head on the main spindle side and the power head on the sub-spindle side can be expanded for various tooling configurations. The machine also supports flexible switching between guided and non-guided modes, allowing for high-precision machining of long and short workpieces.

Description: The SZ-206F features a newly designed machine body optimized through Finite Element Analysis (FEA) for enhanced structural integrity and precision. It can accommodate up to 30 tools in a modular layout, making it ideal for the machining of complex parts. The sub-spindle side is equipped with 14 tools, including 4 turning tools, 7 end mills, and 3 side mills. The machine employs an electric guide sleeve structure for high-speed and high-precision machining. It also supports flexible switching between guided and non-guided modes to meet various machining process requirements. The built-in oil-cooled electric spindle offers low inertia, low noise, fast response, and easy positioning.

Description: The SZ-326F features flexible switching between guided and non-guided modes to meet the requirements of various machining processes. It is equipped with a built-in oil-cooled electric spindle that offers low inertia, low noise, fast response, and easy positioning. The machine also has a dedicated spindle support structure for non-guided mode, enabling high-precision machining of short workpieces.




1. Crane structure design, moving parts away from the cutting area, effectively reduce the failure rate of moving parts. 2. Integral cradle AC structure and roller cam/DD motor structure ensure that the operator is closest to the milling head and the workbench, which is convenient for manual tool change and workpiece clamping, reduces the labor intensity of the operator to the greatest extent and improves the productivity. 3. Fully enclosed protection design, effectively protect the screw guide rail, prolong the service life of the machine tool; 4. Servo tool magazine, reliable tool change; automatic compensation of tool setting instrument, greatly improve productivity. 5. Precision high-speed spindle, equipped with precision spindle oil cooler, to keep the spindle temperature constant and reduce the processing error caused by temperature rise. 6. It has five-axis linkage (RTCP) tool tip following processing function and bevel processing function (G68.2 command function). 7. Taiwan/Europe imported precision ball screw, P linear guide. 8. Strict production and inspection process, strict laser interference, ball bar instrument testing, to ensure the quality of each machine.

1. Initiated in the domestic industry, the bed base is made of high-quality mineral casting (artificial stone) material, which has excellent damping performance, low thermal conductivity, long-term stability of precision and high corrosion resistance. The performance and stability of the whole machine are much higher than those of the machine tool with traditional cast iron structure. 2. Compact twin-screw automatic chip and powder removal, wet processing equipped with automatic bed cleaning system, dry graphite processing optional equipped with highly integrated graphite dust recovery system. 3. The patented design of multi-layer sealing protection of the screw guide provides a strong guarantee for the maximum service life of the screw guide.

1. Three-axis application of the industry's latest linear motor technology, high-precision linear grating ruler for full closed-loop control. Compare with that traditional screw rod transmission mode, the invention has no mechanical contact and reverse clearance, solves the problem of thermal elongation, quick wear, short service life and the like of the screw rod, has higher dynamic characteristics and acceleration, and realizes high speed, high precision and high finish. 2. The bed base is made of advanced mineral casting, namely artificial stone material, which has excellent damping performance, low thermal conductivity, long-term stability of precision and high corrosion resistance. The performance and stability of the whole machine are much higher than those of the traditional cast iron structure machine tool. 3. Intelligent automatic washing system for bed. 4. Patented design of multi-layer sealing protection ensures the maximum service life of linear motors, guide rails and other important components. 5. Equipped with FANUC CNC system with powerful automation technology and excellent performance, durable operation panel, simple and convenient operation, excellent surface function can obtain the best workpiece surface. 6.20 high-speed servo tool magazine, specially designed with two layers of protection to prevent iron pollution. 7. Linear motor drive, repeated positioning accuracy up to 0.002 mm. 8. High rigidity flange type high precision permanent magnet synchronous electric spindle, high speed, high precision, high stability, extremely low thermal elongation, more suitable for high-speed and high-precision machining. 9. Strict production and inspection process, strict laser interference, ball bar instrument testing, to ensure the quality of each machine. 10. Four-axis or five-axis turntable can be installed to realize multi-axis linkage processing. 11. Finite element analysis to ensure the best mechanical and modal structure.


The high-precision and high-efficiency compound processing machine TM series realizes the design of reducing thermal deformation and occupies a small area. It is the best choice for the processing of small precision parts such as medical instruments and measuring instruments that pursue high-precision and high-efficiency processing of workpieces with complex shapes. The machine tool structure adopts the turn-milling compound technology to realize high-precision one-time clamping processing.

LU620 five-axis processing machine adopts high-rigidity base to support the rotation of B and C axes of single swing, and X/Y axis adopts the design of cross sliding table to ensure the best stability required by processing accuracy and surface quality, so as to provide customers with the highest production efficiency.

TX series improves the value of BT-30 drilling center. The improvement of structure, shaft guide rod and transmission system, the improvement of spindle structure and performance, the improvement of chip removal system and the fast tool change mechanism greatly improve and optimize the new generation of drilling and tapping center. In pursuit of high production efficiency, it shortens the starting and stopping time of the spindle, adopts high-speed feed and acceleration, shortens the non-processing time, high-speed ATC tool exchange mode, and adopts a new generation of control system.


The YRT turret bearing consists of a thrust/radial race, a thrust/radial shaft washer, a thrust washer, two needle cage assemblies, and a set of radial cylindrical rollers. The seat ring and the shaft ring have evenly distributed screw holes for installation. This type of bearing has high axial and radial load capacity. High tilt stiffness and extreme accuracy. Suitable for rotary tables, chucks and iron cutting heads as well as bearing arrangements for measuring and testing. This type of bearing has higher requirements for the equipment parts matched with it. The tightening torque of the mounting screw shall be controlled during installation.

BYC-cross roller bearing is that two rows of cylindrical rollers are arranged vertically and crosswise on the V-shaped raceway of 90 degrees through nylon isolation blocks, so the cross roller bearing can bear multi-directional loads such as radial load, axial load and moment load. The size of the inner and outer rings is miniaturized, the extremely thin form is close to the limit of small size, and has high rigidity, BYC Boying cross roller bearing accuracy can reach P2 level. Therefore, it is suitable for devices such as a joint rotation part of an industrial robot, a turntable of a machining center, a precision rotary table, a medical machine, a calculator, and an IC manufacturing apparatus.



