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High Precision Alloy Shaft Lathe Technology Parameters
High precision alloy shaft lathes are favored for a number of machining operations, such as boring, turning, boring and threading operations, mainly due to their very high accuracy and superior durability. The accuracy of these lathes is usually 0.005 mm, which is 5 times higher than that of universal lathes. In addition, the very high durability of these machines means that they can last up to 10 years with proper maintenance.
The key technology parameter of high precision alloy shaft lathe includes: operating speed, acceleration/deceleration rate, spindle ore/boring tool size, x-axis and z-axis travel distance, workpiece clamping mechanism and implementation method, main spindle and tailstock, and function selection.
Operating speed: It is lifeblood of high precision alloy shaft lathe. The machines speed range is broad, and its maximum speed is 30000 rpm. This allows you to process a wide range of work pieces.
Acceleration/deceleration rate: This refers to the time it takes to achieve constant or maximum speed, or to reduce it back to a standstill. Generally, the acceleration/deceleration rate of high precision alloy shaft lathe is 0.2 to 3.2 seconds.
Spindle ore/boring tool size: The size of the spindle ore/boring tool used in the high precision alloy shaft lathe is usually 25mm to 500mm in diameter.
X-axis and Z-axis travel distance: The X-axis and Z-axis travel distance refer to the maximum length that can be moved along the X-axis and the Z-axis. It is usually 0-600mm for the X-axis, and 200-800mm for the Z-axis.
Workpiece clamping mechanism and implementation method: The workpiece clamping mechanisms and implementation methods of high precision alloy shaft lathes are classified as Type I, Type II and Type III. Type I is manual clamping, Type II is hydraulic clamping, and Type III is pneumatic clamping.
Main spindle and tailstock: High precision alloy shaft lathes are equipped with main spindles and tailstocks, including spindles, bearings, nuts and screws, etc., mainly used to support the cutting tools and to fix the work piece during machining operations.
Function selection: High precision alloy shaft lathes can be programmed to perform a variety of machining operations through the selection of appropriate functions. This typically includes profile, thread, hole and conical work pieces.
In conclusion, the technology parameters for high precision alloy shaft lathes are crucial to ensure precision and durability. In addition, proper maintenance and lubrication is also important for longevity, especially for the moving parts of the machine.
