Product Description
CNC lathes use digital information to control the movement and processing of machine tools. Programmers write CNC machining programs based on the design drawings and process requirements of the parts and input them into the CNC system of the lathe. The CNC system controls the movement of the various coordinate axes (such as the X-axis and Z-axis) of the lathe according to the instructions of the program, accurately controls the relative position and movement trajectory between the tool and the workpiece, realizes the cutting of the workpiece, and thus processes parts that meet the design requirements.
Product Parameters
| Specifications |
|
H32i |
TCK6340 |
TCK6340S |
TCK6350 |
| Max. swing dia. over bed |
mm |
320 |
400 |
400 |
520 |
| Max. swing dia. over slide |
mm |
70 |
140 |
140 |
220 |
| Max. processing length |
mm |
280 |
200(Row knife) |
400 (Row knife)/300 ( 8 ) |
410 (Row knife)/310 ( 8 ) |
| Max. bar capacity |
mm |
40 |
45 |
45 |
55 |
| Max. processing diameter of plate type workpiece |
mm |
320 |
400 |
400 |
500 |
| Spindle nose |
|
GB59001 |
A2-5 |
A2-5 |
A2-6 |
| Diameter of spindle through hole |
mm |
Φ41 |
48 |
56 |
66 |
| Spindle speed range |
r/min |
50-4000 |
50-3500 |
50-3500 |
50-3000 |
| Spindle shift mode |
|
Stepless speed regulation |
Stepless speed regulation |
Stepless speed regulation |
Stepless speed regulation |
| Motor power of spindle |
KW |
3.7 |
5.5 |
5.5 |
7.5 |
| Chuck form |
|
Hydraulic chuck/chuck |
Hydraulic chuck/chuck |
Hydraulic chuck/chuck |
Hydraulic chuck |
| Chuck size |
Inch |
6 |
8 |
8 |
10 |
| X axis rapid traverse |
m/min |
24 |
24 |
24 |
24 |
| Z axis rapid traverse |
m/min |
24 |
24 |
24 |
24 |
| X axis servo motor torque |
N.m |
4 |
6 |
6 |
7.5 |
| Z axis servo motor torque |
N.m |
4 |
6 |
6 |
7.5 |
| X axis travel |
mm |
280 |
400 |
400 |
500 |
| Z axis travel |
mm |
330 |
300 |
500 |
500 |
| Guide way type |
|
Linear guide |
Linear guide |
Linear guide |
Linear guide |
| Tool post form |
|
Row knife |
Row knife |
Row knife |
Row knife |
| Tool shank(square cutting tool/boring cutting tool) |
mm |
20x20/Ø25 |
20x20/Ø25 |
20x20/Ø25 |
25x25/Ø32 |
| Total rated power |
KW |
6 |
10 |
13 |
13 |
| Total rated current |
A |
13 |
21 |
26 |
28 |
| Net weight |
kg |
1400 |
2300 |
2600 |
3000 |
| Machine dimension(L×W×H) |
(mm) |
1650×1350×1700 |
2200×1530×1780 |
2390×1530×1780 |
2500×1620×1890 |
Detailed Photos
Main machine: including bed, spindle box, tool holder, tailstock and other parts. The bed is the basic part of the lathe, used to support and install other parts, and requires high rigidity and stability; the spindle box is used to install the spindle to drive the workpiece to rotate; the tool holder is used to install the tool to achieve fast tool change and precise positioning of the tool; the tailstock is used to support the other end of the long axis workpiece to ensure processing accuracy.
CNC system: It is the core part of the CNC lathe. It accepts the input processing program, and after processing and calculation, it sends various control signals to control the movement of various parts of the machine tool. The CNC system also has functions such as tool compensation, coordinate transformation, and processing process monitoring to ensure the accuracy and reliability of processing.
Servo drive system: It consists of servo motors and drivers. According to the instructions issued by the CNC system, it accurately controls the movement of each coordinate axis of the machine tool. The servo drive system has the characteristics of high speed, high precision, and high responsiveness. It can achieve fast feeding and precise positioning to ensure processing quality and efficiency.
Auxiliary devices: including cooling system, lubrication system, chip removal device, protective device, etc. The cooling system is used to reduce the cutting temperature, improve tool life and processing quality; the lubrication system is used to lubricate the moving parts of the machine tool and reduce wear; the chip removal device is used to promptly discharge the chips generated during the processing to prevent chip accumulation from affecting the processing; the protective device is used to protect the safety of the operator and the normal operation of the machine tool.
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Our Advantages
High processing accuracy: CNC lathes use high-precision servo drive systems and precision mechanical transmission components, which can achieve precise positioning and motion control. The processing accuracy can generally reach ±0.01mm or even higher, and the repeated positioning accuracy is also very high, which can ensure the dimensional consistency and precision requirements of the processed parts.
High processing efficiency: CNC lathes can automatically complete the processing of parts without frequent manual intervention, reducing auxiliary time. At the same time, it can use higher cutting speeds and feed rates to improve processing efficiency. In addition, CNC lathes can also realize multi-process centralized processing, and one clamping can complete the processing of multiple surfaces, further shortening the processing cycle.
Strong processing flexibility: Just change the CNC processing program, you can easily realize the processing of different parts, without the need to frequently change tools and adjust fixtures like traditional lathes, which is very suitable for single-piece, small-batch production and product upgrades.
High degree of automation: From the clamping of parts, the selection and replacement of tools, the adjustment of cutting parameters to the monitoring and end of the processing process, CNC lathes can automatically complete them, greatly reducing the labor intensity of operators and improving the level of automation in production.
Company Profile
Audited Supplier 
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