Product Description
A numerically controlled lathe, also known as a CNC lathe, is an automated lathe that uses digital codes as instructions and is controlled by a digital control system. It integrates advanced technologies in the fields of electronic technology, computer technology, automatic control, precision measurement, and machine tool design. It is mainly used for cutting and processing of internal and external cylindrical surfaces, conical surfaces, complex rotary surfaces, and threads of shaft parts or disk parts. It can also perform operations such as grooving, drilling, reaming, reaming, and boring.
Product Parameters
| SPECIFICATIONS |
CK6136 |
CK6140 |
CK6150 |
CK6160 |
| Maximum turning diameter on the bed |
Φ360 |
Φ400 |
Φ500 |
Φ600 |
| The maximum turning diameter of the puller |
Φ180 |
Φ200 |
Φ290 |
Φ320 |
| Maximum processing length |
750/1000/1500 |
750/1000/1500 |
750/1000/1500/2000 |
750/1000/1500/2000 |
| X/Z Max stroke X/Z |
X: 240 Z: 750/1000/1500 |
X: 240 Z: 750/1000/1500/2000 |
X: 300 Z: 750/1000/1500/2000 |
X: 300 Z: 750/1000/1500/2000 |
| Main drive form |
|
|
() |
() |
| Spindle speed series |
|
|
|
|
| Spindle speed range |
50 - 2000 |
50 - 2000 |
50 - 500/300 - 1100/600 - 1800 |
50 - 500/300 - 1100/600 - 1800 |
| Spindle end form |
A2 - 6 |
A2 - 6 |
A2 - 8 |
A2 - 8 |
| Spindle through hole diameter |
52 |
52 |
82/105/130 |
82/105/130 |
| Spindle hole front taper |
MT5 |
MT5 |
MT6 |
MT6 |
| Spindle motor power |
5.5 |
5.5 |
7.5 |
7.5/11 |
| Chuck size |
200 |
200 |
250 |
250/320 |
| Ball Screw Specifications |
2006 / 4008 |
2006 / 4008 |
2506 / 4008 |
2506 / 4008 |
| X/Z Feed motor torque X/Z |
4/6 |
4/6 |
5.5/7.5 |
5.5/7.5 |
| X/Z Fast moving speed X/Z |
X6 Z:8 |
X6 Z:8 |
X6 Z:8 |
X6 Z:8 |
| (X/Z) Repeated positioning accuracy (X/Z) |
±0.005 |
±0.005 |
±0.005 |
±0.005 |
| Workpiece machining accuracy |
IT6 - IT7 |
IT6 - IT7 |
IT6 - IT7 |
IT6 - IT7 |
| Workpiece surface roughness |
Ra1.6 |
Ra1.6 |
Ra1.6 |
Ra1.6 |
| Tailstock sleeve diameter |
60 |
60 |
75 |
75 |
| Tailstock sleeve stroke |
130 |
130 |
140 |
140 |
| Tailstock sleeve taper |
MT4 |
MT4 |
MT5 |
MT5 |
| Tool holder form |
|
|
|
|
| Tool dimensions |
20x20 |
20x20 |
25x25 |
25x25 |
| Rail form |
+ |
+ |
+ |
+ |
| total powers capacity |
10 |
10 |
12 |
12 |
| Dimensions |
2150/2400/2900x1500x1650 |
2500x1500x1650 |
2500x1500x1690 |
2600x1600x1820 |
| () Machine Weight (Approx.) |
1800 |
1800 |
2000 |
2300 |
Our Advantages
High precision: The control system of the CNC lathe can accurately control the movement and operation of the machine tool, and can process high-precision parts. The positioning accuracy can generally reach 0.05-0.1mm, or even higher, and the reverse clearance of the machine tool feed transmission chain and the average error of the screw pitch can be compensated by the CNC device.
High efficiency: It can realize automated and intelligent processing, automatically complete complex processing procedures, reduce manual intervention and processing time, and at the same time, the spindle speed and feed rate range is large, allowing the machine tool to perform strong cutting with a large amount of cutting. It can also be used through the turret to achieve continuous processing of multiple processes on a machine tool, greatly improving production efficiency.
High flexibility: Different parts can be easily processed by changing the program, without the need to replace a large number of tools, fixtures and readjust the machine tool like ordinary machine tools. It is suitable for single-piece, small-batch product production and new product development with frequent replacement of processing parts, shortening the production preparation cycle.
Stable product quality: Processing the same batch of parts, under the same processing conditions, using the same tool and processing program, the tool path is exactly the same, the parts are consistent, the quality is stable, and the reliability of product quality can be guaranteed.
Improve working conditions: Before processing, you only need to adjust the machine tool, input the program and start it, and the machine tool can automatically and continuously process until the processing is completed. The operator is mainly responsible for program input, editing, parts loading and unloading, tool preparation, observation of processing status and parts inspection, etc. The labor intensity is greatly reduced, and the labor tends to be intellectual work.
Usage scenarios
Mechanical manufacturing: It is one of the important processing equipment in mechanical manufacturing. It can process various complex parts, such as shafts, discs, shells, etc., and is widely used in the production and manufacturing of various mechanical products.
Automobile manufacturing: It is widely used in automobile manufacturing and is used to process automobile parts, such as crankshafts, camshafts, transmission shafts, hubs, etc., which plays an important role in improving the precision and quality of automobile parts.
Aviation manufacturing: It also has important applications in the field of aviation manufacturing. It can be used to process aviation parts, such as engine blades, impellers, fuselage structural parts, etc., to meet the requirements of high precision and high performance of parts in the aviation field.
Medical equipment: It is widely used in the field of medical equipment. It can process various high-precision medical equipment parts, such as artificial joints, dental equipment, precision structural parts of medical equipment, etc., providing high-precision processing methods for the manufacture of medical equipment.
Electronic products: It can be used to process various electronic product parts, such as circuit board shells, electronic equipment radiators, precision connectors, etc., to meet the requirements of electronic products for parts precision and appearance quality.
Detailed Photos
Company Profile
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