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HS-512
HANBS
Hanbs Swiss Type CNC Lathe with Rigidity and High Processing Accuracy
Product description:
Flexibility and Versatility:
Swiss-type CNC lathes usually come equipped with multiple axes and tool holders, capable of performing turning, drilling, milling, tapping, and more, catering to various machining needs.
High Degree of Automation:
These lathes are often equipped with automatic bar feeders, making them ideal for high-volume production and lights-out operations, minimizing manual intervention and operational costs.
Reduced Defect Rate:
Due to the stability and reduced vibration during machining, Swiss-type CNC lathes have a lower defect rate and consistent product quality.
Technical Parameters:
| Maximum processing diameter | Φ12mm |
| Maximum processing length(2.5d in the mode without guide bush | 60mm |
| Axial maximum drilling diameter | Φ5mm |
| Axial maximum tapping size | M5 |
| Maximum spindle speed(for short-term use only) | 10000rpm |
| Radial maximum drilling diameter | Φ5mm |
| Radial maximum tapping | M4 |
| The maximum clamping diameter of the back spindle | Φ12mm |
| The maximum workpiece extension of the back spindle | 30mm |
| The maximum drilling diameter of the back spindle | Φ5mm |
| The maximum tapping diameter of the back spindle | M5 |
| The maximum speed of the back spindle(only for short-term only) | 12000rpm |
| The maximum take-out length of the workpiece | 40mm |
| Side powered tool unit | 3 |
| Knife row(12*120*5+6*120*1) | 5 |
| Fixed knife(Φ25mm*4*2 for the front and back;Φ25mm*4 for the back) | 13 |
| The maximum number of tools installed as standard | 21 |
| Z1,Z2,X2,Y Axis fast forward speed | 24m/min |
| X1 Axis fast forward speed | 18m/min |
| Spindle center height | 1000mm |
| Input power | 7KW |
| Weight | 1500kg |
| Dimensions(WXDXH) | 1950*1100*1700mm |
Product Uses
The following are four specific application scenarios of NCN Lathe:
New energy vehicles
medical treatment
Communication accessories
Household appliances
Electronic cigarette
Precision component processing
hydraulic pressure
Pneumatic
FAQ
1. What is a dual-spindle small Swiss-type CNC lathe?
A compact, high-precision machine with two spindles for machining both ends of a workpiece simultaneously.
2. How does it improve production efficiency?
By machining both ends of a workpiece at the same time, reducing cycle time.
3. What types of parts are best suited for this lathe?
High-precision, complex parts like medical devices, aerospace components, and automotive parts.
4. How does the dual-spindle design enhance accuracy?
Ensures better concentricity by machining both ends in one setup.
5. Can it handle different materials?
Yes, it works with various materials, including metals and plastics.
6. What impact does it have on tool wear and maintenance?
Distributes the workload, extending tool life and reducing maintenance.
7. Is it suitable for automated production?
Yes, it's ideal for high-volume, automated manufacturing.
8. How does it improve surface finish quality?
Simultaneous roughing and finishing operations reduce tool marks.
9. How does it improve workflow efficiency?
. Reduces the need for transferring workpieces between machines.
Hanbs Swiss Type CNC Lathe with Rigidity and High Processing Accuracy
Product description:
Flexibility and Versatility:
Swiss-type CNC lathes usually come equipped with multiple axes and tool holders, capable of performing turning, drilling, milling, tapping, and more, catering to various machining needs.
High Degree of Automation:
These lathes are often equipped with automatic bar feeders, making them ideal for high-volume production and lights-out operations, minimizing manual intervention and operational costs.
Reduced Defect Rate:
Due to the stability and reduced vibration during machining, Swiss-type CNC lathes have a lower defect rate and consistent product quality.
Technical Parameters:
| Maximum processing diameter | Φ12mm |
| Maximum processing length(2.5d in the mode without guide bush | 60mm |
| Axial maximum drilling diameter | Φ5mm |
| Axial maximum tapping size | M5 |
| Maximum spindle speed(for short-term use only) | 10000rpm |
| Radial maximum drilling diameter | Φ5mm |
| Radial maximum tapping | M4 |
| The maximum clamping diameter of the back spindle | Φ12mm |
| The maximum workpiece extension of the back spindle | 30mm |
| The maximum drilling diameter of the back spindle | Φ5mm |
| The maximum tapping diameter of the back spindle | M5 |
| The maximum speed of the back spindle(only for short-term only) | 12000rpm |
| The maximum take-out length of the workpiece | 40mm |
| Side powered tool unit | 3 |
| Knife row(12*120*5+6*120*1) | 5 |
| Fixed knife(Φ25mm*4*2 for the front and back;Φ25mm*4 for the back) | 13 |
| The maximum number of tools installed as standard | 21 |
| Z1,Z2,X2,Y Axis fast forward speed | 24m/min |
| X1 Axis fast forward speed | 18m/min |
| Spindle center height | 1000mm |
| Input power | 7KW |
| Weight | 1500kg |
| Dimensions(WXDXH) | 1950*1100*1700mm |
Product Uses
The following are four specific application scenarios of NCN Lathe:
New energy vehicles
medical treatment
Communication accessories
Household appliances
Electronic cigarette
Precision component processing
hydraulic pressure
Pneumatic
FAQ
1. What is a dual-spindle small Swiss-type CNC lathe?
A compact, high-precision machine with two spindles for machining both ends of a workpiece simultaneously.
2. How does it improve production efficiency?
By machining both ends of a workpiece at the same time, reducing cycle time.
3. What types of parts are best suited for this lathe?
High-precision, complex parts like medical devices, aerospace components, and automotive parts.
4. How does the dual-spindle design enhance accuracy?
Ensures better concentricity by machining both ends in one setup.
5. Can it handle different materials?
Yes, it works with various materials, including metals and plastics.
6. What impact does it have on tool wear and maintenance?
Distributes the workload, extending tool life and reducing maintenance.
7. Is it suitable for automated production?
Yes, it's ideal for high-volume, automated manufacturing.
8. How does it improve surface finish quality?
Simultaneous roughing and finishing operations reduce tool marks.
9. How does it improve workflow efficiency?
. Reduces the need for transferring workpieces between machines.
