HAWK-512
Mister
8463900090
CNC machining center
Iron
One year quality warranty, door-to-door machine care
High-End CNC Machine Tools
High Rigidity and Precision
ISO, GS, RoHS, CE
One year
Forging
Gravity Casting
Machinery, Building, Aotu Patrs
Standard exporting package
Different model with different specifications
Mister HAWK
China
CNC precision
Brand new
Motor
Worldwide
yes
CNC
| Quantity: | |
|---|---|
| Specification | Unit |
| Maximum processing diameter (D) | 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) | 10000rpm |
| Radial maximum drilling diameter | φ5mm |
| Radial maximum tapping size | 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 (for short-term use) | 12000rpm |
| Workpiece maximum take-out length | 40mm |
| Side powered tool unit | 3 |
| Knife row (10x100x5) | 5 |
| Fixed knife (20mmx4x2 for thr front and back;20mmx5 for the back) | 13 |
| The maximum number of tools installed as standard | 21 |
| Z1, Z2, X2, Y axis feed speed | 24m/min |
| X1 axis feed speed | 18m/min |
| Spindle center height | 1000mm |
| Input power | 7kW |
| Weight | 1500kg |
| Dimensions (WxDxH) | 1950*1100*1700mm |
Bed:
The bed forms the foundation of the lathe, providing a stable base for all other components. It is typically constructed from high-strength cast iron or steel to minimize vibration and ensure rigidity.
Headstock:
The headstock houses the spindle, which rotates the workpiece. It is designed to accommodate different types of chucks or collets for securing the workpiece.
The spindle is driven by a high-precision motor that can vary speed to suit different materials and operations.
Tailstock:
The tailstock supports the opposite end of the workpiece, especially useful for longer parts. It can be adjusted along the length of the bed and typically includes a quill that can house a drill or center to support the workpiece.
Guide Ways:
Guide ways are precision-machined surfaces that guide the movement of the carriage and cross-slide. They are designed to ensure smooth and accurate motion during machining operations.
Carriage:
The carriage holds the tool post and moves longitudinally along the bed to perform turning operations.
It is equipped with a cross-slide that moves perpendicular to the longitudinal slide, allowing for positioning of the cutting tool in the X and Z directions.
Tool Post:
The tool post is where the cutting tools are mounted. It can be rotated to select different tools during the machining process.
Tools such as turning tools, drills, and taps can be quickly changed and adjusted.
Subspindle (if applicable):
Some models include a subspindle that allows for simultaneous machining on both ends of the workpiece, increasing productivity.
The subspindle can rotate independently or in synchronization with the main spindle.
Live Tooling:
Live tooling refers to powered tools mounted on the turret or tool post that can perform operations such as drilling, milling, and tapping while the workpiece is rotating.
This capability increases the versatility of the lathe and can reduce the need for secondary operations.
Turret (Tool Carrier):
The turret is a rotating tool carrier that allows for quick tool changes and positioning. It is essential for automated operations and can be equipped with multiple stations for different tools.
Coolant System:
A coolant system delivers a steady stream of coolant to the cutting area to reduce heat, prolong tool life, and improve surface finish.
The system includes pumps, hoses, and nozzles directed at the cutting zone.
Chips Management System:
Chips management involves mechanisms for collecting and removing metal chips generated during the machining process.
This system helps maintain cleanliness and safety around the machine.
Electrical Control Panel:
The control panel houses the CNC (Computer Numerical Control) system that manages the machine's operations.
It includes input/output devices, such as touchscreens or keyboards, for programming and monitoring the machine.
Safety Features:
Safety features may include interlocked doors, emergency stop buttons, and guards to protect operators from moving parts and flying debris.
Foundation: The machine requires a solid foundation to prevent vibration and ensure stability.
Leveling: Precise leveling is essential to ensure the machine operates correctly and to maintain accuracy.
Utilities: The machine needs to be connected to the appropriate power supply, compressed air (if pneumatic tools are used), and coolant systems.
Pre-Shipment Preparation
Disassembly:
Depending on the size and complexity of the lathe, it may need to be partially disassembled for safe transport. This could include removing tool holders, live tools, and other accessories.
Cleaning:
The lathe should be thoroughly cleaned to remove any oil, coolant, or debris. This prevents contamination during transport and makes unpacking easier.
Draining Fluids:
Coolant, lubricants, and hydraulic fluids should be drained to prevent leaks and spills during transit.
Documentation:
All necessary documentation, including the machine's serial number, specifications, and any special handling instructions, should be prepared.
Custom Crating:
A custom-made crate is typically built around the lathe to provide structural support and protection. The crate should be made of sturdy materials, such as plywood or metal, and designed to withstand the rigors of transportation.
Padding and Strapping:
The lathe is securely strapped inside the crate to prevent movement during transit. Anti-vibration padding, such as foam or bubble wrap, is placed around the machine to absorb shocks and vibrations.
Climate Control:
If the lathe is sensitive to temperature changes, the crate may be insulated or equipped with climate control measures.
Labeling:
The crate should be clearly labeled with the recipient's information, fragile handling instructions, and any other relevant details.
Carrier Selection:
Choose a reputable carrier with experience in transporting heavy machinery. Factors to consider include the carrier's track record, insurance coverage, and the type of transportation (truck, rail, air, or sea).
Loading and Unloading:
The lathe should be loaded onto the truck or container using a crane or forklift to avoid damage. The loading process should be supervised by trained personnel.
Securement:
The lathe should be properly secured in the transportation vehicle to prevent movement during transit. This may involve the use of straps, chains, or other securing methods.
Insurance:
Ensure that the lathe is adequately insured against loss or damage during transport. This may require additional insurance coverage beyond what the carrier provides.
Customs Clearance:
If the lathe is being shipped internationally, customs clearance will be required. This involves providing documentation such as commercial invoices, bills of lading, and certificates of origin.
Export Compliance:
Ensure compliance with export regulations and obtain any necessary permits or licenses.
Documentation:
Prepare all necessary documents for international shipping, including export declarations, packing lists, and any required certifications.
International Carrier:
Select an international carrier with experience in transporting heavy machinery across borders. Consider factors such as transit time, reliability, and tracking capabilities.
Unpacking:
Upon arrival, the lathe should be carefully unpacked and inspected for any signs of damage. This should be done under the supervision of trained personnel.
Installation:
The lathe should be installed according to the manufacturer's guidelines. This may involve leveling the machine, reconnecting utilities, and calibrating settings.
Testing:
Once installed, the lathe should undergo a series of tests to ensure that it is functioning correctly. This includes running a test program to verify the machine's performance.
Documentation:
All installation and testing documentation should be completed and kept on file for future reference.
Posted by: Alex Thompson, Manufacturing Manager
Date: August 28, 2023
Rating: 5 out of 5 stars
Title: Exceptional Precision and Versatility
Review:
I recently had the opportunity to integrate a Swiss-Type CNC Lathe into our manufacturing process, and I must say that it has exceeded all expectations. As a manufacturing manager with over 20 years of experience in the industry, I've worked with a variety of machine tools, but this particular model stands out for its precision, versatility, and ease of use.
Performance:
The lathe's performance is exceptional. Its ability to handle long and slender parts with extreme accuracy has been a game-changer for us. We've been able to produce parts with tolerances as tight as ±0.0005 inches, which is crucial for our high-precision components.
Guided Bar Feeding:
The guided bar feeding system is a standout feature. It provides excellent stability and accuracy, especially for parts that require long lengths relative to their diameter. This has allowed us to produce parts that were previously challenging or impossible to manufacture.
Live Tooling:
The live tooling option has greatly expanded our capabilities. We can now perform milling, drilling, and tapping operations while the part is still rotating, which has significantly reduced our setup time and increased productivity.
CAD/CAM Integration:
The integration with CAD/CAM software is seamless. Our team was able to create complex toolpaths and simulate the machining process before actual production, which helped us identify and resolve potential issues beforehand. This has saved us a lot of time and material costs.
Automation:
The automatic tool changer and programmable tool paths have streamlined our operations. We can now switch between different tools quickly and efficiently, minimizing downtime and maximizing throughput.
Maintenance and Support:
Maintenance has been straightforward. The machine comes with clear documentation and the manufacturer provides excellent support. Any minor issues we encountered were resolved promptly, either through the provided manuals or by contacting the support team.
Safety:
Safety is a top priority, and the lathe's design incorporates several safety features, including guards and emergency stop mechanisms. We feel confident knowing that our operators are protected while working with this powerful machine.
Conclusion:
Overall, the Swiss-Type CNC Lathe has been a significant investment for our company, but it has proven to be worth every penny. It has enabled us to take on more complex projects, improve our product quality, and increase our competitiveness in the market. If you're looking to enhance your manufacturing capabilities, I highly recommend considering a Swiss-Type CNC Lathe.
Pros:
Exceptional precision
Guided bar feeding for long and slender parts
Live tooling for expanded capabilities
Seamless CAD/CAM integration
Increased productivity through automation
Excellent support and documentation
Cons:
Higher initial investment compared to simpler lathes
Requires skilled operators for optimal performance.
| Specification | Unit |
| Maximum processing diameter (D) | 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) | 10000rpm |
| Radial maximum drilling diameter | φ5mm |
| Radial maximum tapping size | 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 (for short-term use) | 12000rpm |
| Workpiece maximum take-out length | 40mm |
| Side powered tool unit | 3 |
| Knife row (10x100x5) | 5 |
| Fixed knife (20mmx4x2 for thr front and back;20mmx5 for the back) | 13 |
| The maximum number of tools installed as standard | 21 |
| Z1, Z2, X2, Y axis feed speed | 24m/min |
| X1 axis feed speed | 18m/min |
| Spindle center height | 1000mm |
| Input power | 7kW |
| Weight | 1500kg |
| Dimensions (WxDxH) | 1950*1100*1700mm |
Bed:
The bed forms the foundation of the lathe, providing a stable base for all other components. It is typically constructed from high-strength cast iron or steel to minimize vibration and ensure rigidity.
Headstock:
The headstock houses the spindle, which rotates the workpiece. It is designed to accommodate different types of chucks or collets for securing the workpiece.
The spindle is driven by a high-precision motor that can vary speed to suit different materials and operations.
Tailstock:
The tailstock supports the opposite end of the workpiece, especially useful for longer parts. It can be adjusted along the length of the bed and typically includes a quill that can house a drill or center to support the workpiece.
Guide Ways:
Guide ways are precision-machined surfaces that guide the movement of the carriage and cross-slide. They are designed to ensure smooth and accurate motion during machining operations.
Carriage:
The carriage holds the tool post and moves longitudinally along the bed to perform turning operations.
It is equipped with a cross-slide that moves perpendicular to the longitudinal slide, allowing for positioning of the cutting tool in the X and Z directions.
Tool Post:
The tool post is where the cutting tools are mounted. It can be rotated to select different tools during the machining process.
Tools such as turning tools, drills, and taps can be quickly changed and adjusted.
Subspindle (if applicable):
Some models include a subspindle that allows for simultaneous machining on both ends of the workpiece, increasing productivity.
The subspindle can rotate independently or in synchronization with the main spindle.
Live Tooling:
Live tooling refers to powered tools mounted on the turret or tool post that can perform operations such as drilling, milling, and tapping while the workpiece is rotating.
This capability increases the versatility of the lathe and can reduce the need for secondary operations.
Turret (Tool Carrier):
The turret is a rotating tool carrier that allows for quick tool changes and positioning. It is essential for automated operations and can be equipped with multiple stations for different tools.
Coolant System:
A coolant system delivers a steady stream of coolant to the cutting area to reduce heat, prolong tool life, and improve surface finish.
The system includes pumps, hoses, and nozzles directed at the cutting zone.
Chips Management System:
Chips management involves mechanisms for collecting and removing metal chips generated during the machining process.
This system helps maintain cleanliness and safety around the machine.
Electrical Control Panel:
The control panel houses the CNC (Computer Numerical Control) system that manages the machine's operations.
It includes input/output devices, such as touchscreens or keyboards, for programming and monitoring the machine.
Safety Features:
Safety features may include interlocked doors, emergency stop buttons, and guards to protect operators from moving parts and flying debris.
Foundation: The machine requires a solid foundation to prevent vibration and ensure stability.
Leveling: Precise leveling is essential to ensure the machine operates correctly and to maintain accuracy.
Utilities: The machine needs to be connected to the appropriate power supply, compressed air (if pneumatic tools are used), and coolant systems.
Pre-Shipment Preparation
Disassembly:
Depending on the size and complexity of the lathe, it may need to be partially disassembled for safe transport. This could include removing tool holders, live tools, and other accessories.
Cleaning:
The lathe should be thoroughly cleaned to remove any oil, coolant, or debris. This prevents contamination during transport and makes unpacking easier.
Draining Fluids:
Coolant, lubricants, and hydraulic fluids should be drained to prevent leaks and spills during transit.
Documentation:
All necessary documentation, including the machine's serial number, specifications, and any special handling instructions, should be prepared.
Custom Crating:
A custom-made crate is typically built around the lathe to provide structural support and protection. The crate should be made of sturdy materials, such as plywood or metal, and designed to withstand the rigors of transportation.
Padding and Strapping:
The lathe is securely strapped inside the crate to prevent movement during transit. Anti-vibration padding, such as foam or bubble wrap, is placed around the machine to absorb shocks and vibrations.
Climate Control:
If the lathe is sensitive to temperature changes, the crate may be insulated or equipped with climate control measures.
Labeling:
The crate should be clearly labeled with the recipient's information, fragile handling instructions, and any other relevant details.
Carrier Selection:
Choose a reputable carrier with experience in transporting heavy machinery. Factors to consider include the carrier's track record, insurance coverage, and the type of transportation (truck, rail, air, or sea).
Loading and Unloading:
The lathe should be loaded onto the truck or container using a crane or forklift to avoid damage. The loading process should be supervised by trained personnel.
Securement:
The lathe should be properly secured in the transportation vehicle to prevent movement during transit. This may involve the use of straps, chains, or other securing methods.
Insurance:
Ensure that the lathe is adequately insured against loss or damage during transport. This may require additional insurance coverage beyond what the carrier provides.
Customs Clearance:
If the lathe is being shipped internationally, customs clearance will be required. This involves providing documentation such as commercial invoices, bills of lading, and certificates of origin.
Export Compliance:
Ensure compliance with export regulations and obtain any necessary permits or licenses.
Documentation:
Prepare all necessary documents for international shipping, including export declarations, packing lists, and any required certifications.
International Carrier:
Select an international carrier with experience in transporting heavy machinery across borders. Consider factors such as transit time, reliability, and tracking capabilities.
Unpacking:
Upon arrival, the lathe should be carefully unpacked and inspected for any signs of damage. This should be done under the supervision of trained personnel.
Installation:
The lathe should be installed according to the manufacturer's guidelines. This may involve leveling the machine, reconnecting utilities, and calibrating settings.
Testing:
Once installed, the lathe should undergo a series of tests to ensure that it is functioning correctly. This includes running a test program to verify the machine's performance.
Documentation:
All installation and testing documentation should be completed and kept on file for future reference.
Posted by: Alex Thompson, Manufacturing Manager
Date: August 28, 2023
Rating: 5 out of 5 stars
Title: Exceptional Precision and Versatility
Review:
I recently had the opportunity to integrate a Swiss-Type CNC Lathe into our manufacturing process, and I must say that it has exceeded all expectations. As a manufacturing manager with over 20 years of experience in the industry, I've worked with a variety of machine tools, but this particular model stands out for its precision, versatility, and ease of use.
Performance:
The lathe's performance is exceptional. Its ability to handle long and slender parts with extreme accuracy has been a game-changer for us. We've been able to produce parts with tolerances as tight as ±0.0005 inches, which is crucial for our high-precision components.
Guided Bar Feeding:
The guided bar feeding system is a standout feature. It provides excellent stability and accuracy, especially for parts that require long lengths relative to their diameter. This has allowed us to produce parts that were previously challenging or impossible to manufacture.
Live Tooling:
The live tooling option has greatly expanded our capabilities. We can now perform milling, drilling, and tapping operations while the part is still rotating, which has significantly reduced our setup time and increased productivity.
CAD/CAM Integration:
The integration with CAD/CAM software is seamless. Our team was able to create complex toolpaths and simulate the machining process before actual production, which helped us identify and resolve potential issues beforehand. This has saved us a lot of time and material costs.
Automation:
The automatic tool changer and programmable tool paths have streamlined our operations. We can now switch between different tools quickly and efficiently, minimizing downtime and maximizing throughput.
Maintenance and Support:
Maintenance has been straightforward. The machine comes with clear documentation and the manufacturer provides excellent support. Any minor issues we encountered were resolved promptly, either through the provided manuals or by contacting the support team.
Safety:
Safety is a top priority, and the lathe's design incorporates several safety features, including guards and emergency stop mechanisms. We feel confident knowing that our operators are protected while working with this powerful machine.
Conclusion:
Overall, the Swiss-Type CNC Lathe has been a significant investment for our company, but it has proven to be worth every penny. It has enabled us to take on more complex projects, improve our product quality, and increase our competitiveness in the market. If you're looking to enhance your manufacturing capabilities, I highly recommend considering a Swiss-Type CNC Lathe.
Pros:
Exceptional precision
Guided bar feeding for long and slender parts
Live tooling for expanded capabilities
Seamless CAD/CAM integration
Increased productivity through automation
Excellent support and documentation
Cons:
Higher initial investment compared to simpler lathes
Requires skilled operators for optimal performance.
