Milling Capability: The CNC Milling and Turning Composite Machine is equipped with milling tools that can perform operations such as drilling, boring, contouring, and slotting. These tools are used to remove material from the workpiece to create complex shapes and features.
Turning Capability: The CNC Lathe With Turret And Hydraulic Tail Stock has a lathe spindle with the ability to rotate the workpiece. This spindle is used for turning operations, which involve the removal of material by cutting as the workpiece rotates. Turning can be used to create cylindrical and conical shapes, as well as threads.
Multi-Axis Control: CNC mill-turn machines often feature multiple axes of movement, allowing for precise and complex machining. These axes can include X, Y, Z, and rotational axes, which enable the machining of parts from multiple angles and orientations.
Automatic Tool Changer: The Turret CNC Turning and milling Combined Machine may include an automatic tool changer that can swap out different cutting tools quickly and efficiently, allowing for uninterrupted machining and increased versatility.
Workpiece Clamping: The machine is equipped with mechanisms for securely clamping and holding the workpiece in place during machining, ensuring accuracy and repeatability.
CAD/CAM Integration: CNC mill-turn machines are typically controlled by computer software that can interpret CAD (Computer-Aided Design) and CAM (Computer-Aided Manufacturing) files. This allows for the precise programming of machining operations and the production of complex parts.
High Precision: These machines are known for their high precision and tight tolerances, making them suitable for applications that require intricate and accurate machining.
Versatility: CNC mill-turn machines are versatile and can be used in a wide range of industries, including aerospace, automotive, medical, and general manufacturing.
Efficiency: The combination of milling and turning operations in a single machine enhances production efficiency, as it reduces the need for multiple setups and transfers between different machines.
Complex Part Production: CNC mill-turn machines are ideal for producing complex parts with both milled and turned features, as they can perform all required operations in one setup.
These Automatic Turning and Milling Combined Machines are commonly used in the production of components and parts that require intricate and precise machining, such as engine components, aerospace parts, medical devices, and more. They are a valuable asset in modern manufacturing processes, as they streamline production and increase efficiency.
|Model of lathe
|Maximum rotation diameter of the spindle
|Maximum turning outer circle length
|Maximum bar diameter
|Maximum spindle speed
|Spindle head type
|A2 - 6
|A2 - 5
|Spindle through-hole diameter
|X/Z/Y axis maximum stroke
|90 ° power head passing through the center of the spindle
|Maximum fast movement of X/Z/Y axis
|24(setting 16)/ 24(setting 16)/14(setting 8)
|X/Z/Y axis screw rod
|X/Z/Y axis roller track
|Power turret model (power turret)
|Power head collet
|Fixed tool holder size
|Bore holder shank diameter
|Main motor power/torque
|7.5 KW/rated 47Nm
|X/Z/Y axis motor power/torque
|yaskawa 2.9 KW /18.6Nm，Optional new generation3.1 KW /15Nm
|Power/torque of turret power head motor
|New generation 3.1 KW/15NM
|Maximum speed of turret power motor
|6000(setting 4000) ,Common speed≤4000
|Power head motor power/torque
|Power/torque of turret tool changing motor
|New generation1.0 KW /3.1NM
Maximum hydraulic stroke of tailstock
|Tailstock top needle cone hole taper
|Maximum distance between tip and chuck
|Spindle positioning brake device
|Hydraulic, optional programmable
|30° or 15°
|Machine tool length X width X height
|Total weight of the entire machine
|Average power consumption
|Machine accuracy,Jingfus factor standard ：
|Major test item
|Spindle radial beat
|Detect runout of outer cone
|X-axis repeat position
|Detect repeated positioning of the X-axis. Note: First predict about 50 times to offset the error of the cold engine and hot engine, and then detect the repeated positioning.
|Z-axis repeat position
|Detect repeated positioning on the Z axis. Note: First predict about 50 times to offset the error of the cold engine and hot engine, and then detect the repeated positioning.
|Y-axis repeat position
|Detect repeated positioning on the Y axis. Note: First predict about 50 times to offset the error of the cold engine and hot engine, and then detect the repeated positioning.
|C axis repeat position
|Detect the repositioning of the C-axis fixed point, note: first predict about 50 times to offset the error of the cold engine and hot engine, and then detect the repeated positioning
|20 arc seconds
|C axis position rotary
|Detect the random position accuracy of the C-axis, note: first predict about 50 times to offset the error of the cold engine and hot engine, and then check the repeated settings
|72 arc seconds
|Power head clamping beat
|Power head clamping beat
|If the customer wants to test the ISO or VD1 accuracy of X/Z/Y axis, it shall be determined at the time of writing the contract. The customer must test this item at the same time of the initial acceptance of Jingfusi Factory.