HAWK-P15
Mister
8463900090
CNC machining center
Iron
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
Mister HAWK
China
CNC precision
Brand new
Motor
Worldwide
yes
CNC
| Quantity: | |
|---|---|
| Processing parameters | Maximum processing diameter | φ26mm |
| Maximum machining length 2.5D | 50mm | |
| Maximum axial drilling diameter | M10mm | |
| Maximum axial tapping size | M8 | |
| Max. spindle speed (short time) | 10000rpm | |
| Max. back spindle speed (short time) | 12000rpm | |
| Max. workpiece removal length | 40mm | |
| Maximum stroke | X1 axis | 375mm |
| Z1 axis | 180mm | |
| X2 axis | 375mm | |
| Z2 axis | 180mm | |
| Cutting tool | Size of cutter plate | 390mm |
| Maximum number of tools | 8 | |
| Tool (turning tool) | φ16X16 | |
| Sleeve | φ25 | |
| Height from tool plate holder to spindle centre | 45mm | |
| Collet | Spindle collet | HB26 |
| Back spindle chuck | HB26 | |
| Feed rate | X1/X2 axis feed rate | 15m/min |
| Z1/Z2 axis feed speed | 15m/min | |
| Motor | Spindle drive power | 2.5/3.7KW |
| Back-axis drive power | 1.5/2.5KW | |
| X1 X2 Z1 Z2 power | 1.1KW | |
| Cutting oil | 0.4KW | |
| Other | Spindle centre height | 1010mm |
| Air pressure flow | 0.7mpa 0.5m3/min | |
| Main breaker capacity | 40A | |
| Input power | 5.4KW | |
| Weight | 2700Kg | |
| Dimension | 1950X1455X1700mm |
Spindle and Guide Bushing:
The workpiece is held in the spindle and supported by the guide bushing.
The guide bushing is positioned close to the cutting tool, which helps to maintain dimensional accuracy and surface finish during the machining process.
CNC Control:
The lathe is controlled by a Computer Numerical Control (CNC) system, which allows for precise and automated control of the machine's movements.
The CNC system reads a program that defines the machining operations, including the tool paths, speeds, and feeds.
Tool Movement:
Tools are mounted on turrets that can move linearly (X-axis) and radially (Z-axis) relative to the workpiece.
These movements are coordinated by the CNC system to achieve the desired machining operations, such as turning, drilling, threading, and milling.
Simultaneous Operations:
The HAWK-P15 can perform multiple operations simultaneously due to its multi-axis capability.
This means that tools on different axes can be engaged at the same time, allowing for complex parts to be machined in a single setup.
Live Tooling:
Live tooling refers to the ability to perform operations such as milling and drilling using rotating tools mounted on the turret.
This feature increases the machine's versatility and reduces the need for secondary operations.
Bar Feeding:
For continuous production, a bar feeder can be attached to the lathe to automatically feed the workpieces into the spindle.
The bar feeder can accommodate lengths of bar stock, which are then machined into individual parts.
Chucking:
Parts can be chucked either conventionally (using a chuck) or using a collet system.
The collet system is particularly useful for holding smaller diameters securely and concentrically.
Coolant System:
A coolant system provides a steady flow of coolant to the cutting area to reduce heat and wear on the tools, thus improving tool life and part quality.
Computer Numerical Control (CNC): The machine is controlled by a computer system that precisely guides the cutting tool along the X-axis, allowing for complex shapes and patterns to be produced accurately and consistently.
High Precision: Single-Axis CNC lathes are capable of achieving very tight tolerances, typically within ±0.005 mm, making them ideal for precision parts.
Automatic Tool Changer: Some models feature an automatic tool changer, which allows for efficient tool changes and increases productivity.
Programmable Tool Paths: The CNC program is created using CAD/CAM software, which generates the toolpaths and controls the machine's movements.
Variable Speed Spindle: The spindle speed can be adjusted to suit different materials and cutting conditions, enhancing the versatility of the machine.
Coolant System: An integrated coolant system helps to cool the cutting tool and the workpiece, improving tool life and part quality.
Safety Features: Integrated safety features, such as guards and emergency stop buttons, ensure operator safety.
What is a Single-Axis CNC Lathe?
Answer: A Single-Axis CNC Lathe is a specialized machine tool designed for turning and machining cylindrical workpieces. The "single-axis" designation refers to the fact that the primary motion of the lathe is along one axis, typically the X-axis (radial direction).
What are the key features of a Single-Axis CNC Lathe?
Answer: Key features include computer numerical control (CNC), high precision, automatic tool changer, programmable tool paths, variable speed spindle, integrated coolant system, and safety features.
What materials can a Single-Axis CNC Lathe work with?
Answer: Single-Axis CNC Lathes can work with a wide range of materials, including metals (such as steel, aluminum, brass, and copper), plastics, and composites.
What are the typical applications of a Single-Axis CNC Lathe?
Answer: Applications include the automotive industry, aerospace industry, medical industry, general engineering, plumbing and hardware, and electronics.
How does the CNC control work in a Single-Axis CNC Lathe?
Answer: The CNC control precisely guides the cutting tool along the X-axis, allowing for complex shapes and patterns to be produced accurately and consistently. The CNC program is created using CAD/CAM software, which generates the toolpaths and controls the machine's movements.
Can a Single-Axis CNC Lathe perform threading operations?
Answer: Yes, a Single-Axis CNC Lathe can perform threading operations, which is one of its key capabilities.
What is the difference between a Single-Axis CNC Lathe and a Multi-Axis CNC Lathe?
Answer: A Single-Axis CNC Lathe has motion only along the X-axis, while a Multi-Axis CNC Lathe can move along multiple axes, providing additional capabilities such as milling, drilling, and tapping in addition to turning.
What is the maximum workpiece diameter and length that a Single-Axis CNC Lathe can handle?
Answer: The maximum workpiece diameter and length vary by model. For example, a typical Single-Axis CNC Lathe might handle a maximum workpiece diameter of 100 mm and a maximum workpiece length of 500 mm.
What is the positioning accuracy of a Single-Axis CNC Lathe?
Answer: The positioning accuracy is typically within ±0.005 mm, making these machines ideal for precision parts.
What are the benefits of using a Single-Axis CNC Lathe?
Answer: The benefits include high accuracy, increased productivity, cost-effectiveness, flexibility, and quality assurance through automated inspection and in-process monitoring.
How often does a Single-Axis CNC Lathe require maintenance?
Answer: Routine maintenance is essential to keep the machine running smoothly and to prolong its lifespan. The frequency of maintenance depends on the usage and specific manufacturer recommendations.
What safety features are included in a Single-Axis CNC Lathe?
Answer: Safety features typically include guards, emergency stop buttons, and protective covers to ensure operator safety.
Can a Single-Axis CNC Lathe be used for high-volume production?
Answer: Yes, Single-Axis CNC Lathes are suitable for high-volume production due to their automation capabilities and efficient tool changes.
What training is required to operate a Single-Axis CNC Lathe?
Answer: Operators must receive proper training to understand the machine's operation and safety procedures. Training typically includes programming, setup, operation, and maintenance.
Are there any specific software requirements for programming a Single-Axis CNC Lathe?
Answer: Programming requires CAD/CAM software, which generates the toolpaths and controls the machine's movements. Popular software options include Mastercam, SolidWorks CAM, and Fusion 360.
Can a Single-Axis CNC Lathe be customized for specific applications?
Answer: Yes, customization options are available, such as adding specialized tooling or integrating additional equipment like bar feeders or part loaders.
| Processing parameters | Maximum processing diameter | φ26mm |
| Maximum machining length 2.5D | 50mm | |
| Maximum axial drilling diameter | M10mm | |
| Maximum axial tapping size | M8 | |
| Max. spindle speed (short time) | 10000rpm | |
| Max. back spindle speed (short time) | 12000rpm | |
| Max. workpiece removal length | 40mm | |
| Maximum stroke | X1 axis | 375mm |
| Z1 axis | 180mm | |
| X2 axis | 375mm | |
| Z2 axis | 180mm | |
| Cutting tool | Size of cutter plate | 390mm |
| Maximum number of tools | 8 | |
| Tool (turning tool) | φ16X16 | |
| Sleeve | φ25 | |
| Height from tool plate holder to spindle centre | 45mm | |
| Collet | Spindle collet | HB26 |
| Back spindle chuck | HB26 | |
| Feed rate | X1/X2 axis feed rate | 15m/min |
| Z1/Z2 axis feed speed | 15m/min | |
| Motor | Spindle drive power | 2.5/3.7KW |
| Back-axis drive power | 1.5/2.5KW | |
| X1 X2 Z1 Z2 power | 1.1KW | |
| Cutting oil | 0.4KW | |
| Other | Spindle centre height | 1010mm |
| Air pressure flow | 0.7mpa 0.5m3/min | |
| Main breaker capacity | 40A | |
| Input power | 5.4KW | |
| Weight | 2700Kg | |
| Dimension | 1950X1455X1700mm |
Spindle and Guide Bushing:
The workpiece is held in the spindle and supported by the guide bushing.
The guide bushing is positioned close to the cutting tool, which helps to maintain dimensional accuracy and surface finish during the machining process.
CNC Control:
The lathe is controlled by a Computer Numerical Control (CNC) system, which allows for precise and automated control of the machine's movements.
The CNC system reads a program that defines the machining operations, including the tool paths, speeds, and feeds.
Tool Movement:
Tools are mounted on turrets that can move linearly (X-axis) and radially (Z-axis) relative to the workpiece.
These movements are coordinated by the CNC system to achieve the desired machining operations, such as turning, drilling, threading, and milling.
Simultaneous Operations:
The HAWK-P15 can perform multiple operations simultaneously due to its multi-axis capability.
This means that tools on different axes can be engaged at the same time, allowing for complex parts to be machined in a single setup.
Live Tooling:
Live tooling refers to the ability to perform operations such as milling and drilling using rotating tools mounted on the turret.
This feature increases the machine's versatility and reduces the need for secondary operations.
Bar Feeding:
For continuous production, a bar feeder can be attached to the lathe to automatically feed the workpieces into the spindle.
The bar feeder can accommodate lengths of bar stock, which are then machined into individual parts.
Chucking:
Parts can be chucked either conventionally (using a chuck) or using a collet system.
The collet system is particularly useful for holding smaller diameters securely and concentrically.
Coolant System:
A coolant system provides a steady flow of coolant to the cutting area to reduce heat and wear on the tools, thus improving tool life and part quality.
Computer Numerical Control (CNC): The machine is controlled by a computer system that precisely guides the cutting tool along the X-axis, allowing for complex shapes and patterns to be produced accurately and consistently.
High Precision: Single-Axis CNC lathes are capable of achieving very tight tolerances, typically within ±0.005 mm, making them ideal for precision parts.
Automatic Tool Changer: Some models feature an automatic tool changer, which allows for efficient tool changes and increases productivity.
Programmable Tool Paths: The CNC program is created using CAD/CAM software, which generates the toolpaths and controls the machine's movements.
Variable Speed Spindle: The spindle speed can be adjusted to suit different materials and cutting conditions, enhancing the versatility of the machine.
Coolant System: An integrated coolant system helps to cool the cutting tool and the workpiece, improving tool life and part quality.
Safety Features: Integrated safety features, such as guards and emergency stop buttons, ensure operator safety.
What is a Single-Axis CNC Lathe?
Answer: A Single-Axis CNC Lathe is a specialized machine tool designed for turning and machining cylindrical workpieces. The "single-axis" designation refers to the fact that the primary motion of the lathe is along one axis, typically the X-axis (radial direction).
What are the key features of a Single-Axis CNC Lathe?
Answer: Key features include computer numerical control (CNC), high precision, automatic tool changer, programmable tool paths, variable speed spindle, integrated coolant system, and safety features.
What materials can a Single-Axis CNC Lathe work with?
Answer: Single-Axis CNC Lathes can work with a wide range of materials, including metals (such as steel, aluminum, brass, and copper), plastics, and composites.
What are the typical applications of a Single-Axis CNC Lathe?
Answer: Applications include the automotive industry, aerospace industry, medical industry, general engineering, plumbing and hardware, and electronics.
How does the CNC control work in a Single-Axis CNC Lathe?
Answer: The CNC control precisely guides the cutting tool along the X-axis, allowing for complex shapes and patterns to be produced accurately and consistently. The CNC program is created using CAD/CAM software, which generates the toolpaths and controls the machine's movements.
Can a Single-Axis CNC Lathe perform threading operations?
Answer: Yes, a Single-Axis CNC Lathe can perform threading operations, which is one of its key capabilities.
What is the difference between a Single-Axis CNC Lathe and a Multi-Axis CNC Lathe?
Answer: A Single-Axis CNC Lathe has motion only along the X-axis, while a Multi-Axis CNC Lathe can move along multiple axes, providing additional capabilities such as milling, drilling, and tapping in addition to turning.
What is the maximum workpiece diameter and length that a Single-Axis CNC Lathe can handle?
Answer: The maximum workpiece diameter and length vary by model. For example, a typical Single-Axis CNC Lathe might handle a maximum workpiece diameter of 100 mm and a maximum workpiece length of 500 mm.
What is the positioning accuracy of a Single-Axis CNC Lathe?
Answer: The positioning accuracy is typically within ±0.005 mm, making these machines ideal for precision parts.
What are the benefits of using a Single-Axis CNC Lathe?
Answer: The benefits include high accuracy, increased productivity, cost-effectiveness, flexibility, and quality assurance through automated inspection and in-process monitoring.
How often does a Single-Axis CNC Lathe require maintenance?
Answer: Routine maintenance is essential to keep the machine running smoothly and to prolong its lifespan. The frequency of maintenance depends on the usage and specific manufacturer recommendations.
What safety features are included in a Single-Axis CNC Lathe?
Answer: Safety features typically include guards, emergency stop buttons, and protective covers to ensure operator safety.
Can a Single-Axis CNC Lathe be used for high-volume production?
Answer: Yes, Single-Axis CNC Lathes are suitable for high-volume production due to their automation capabilities and efficient tool changes.
What training is required to operate a Single-Axis CNC Lathe?
Answer: Operators must receive proper training to understand the machine's operation and safety procedures. Training typically includes programming, setup, operation, and maintenance.
Are there any specific software requirements for programming a Single-Axis CNC Lathe?
Answer: Programming requires CAD/CAM software, which generates the toolpaths and controls the machine's movements. Popular software options include Mastercam, SolidWorks CAM, and Fusion 360.
Can a Single-Axis CNC Lathe be customized for specific applications?
Answer: Yes, customization options are available, such as adding specialized tooling or integrating additional equipment like bar feeders or part loaders.
