Grinding Capacity
Maximum Tool Diameter Varies (commonly 3 to 32 mm)
Maximum Tool Length Up to 300 mm
Grinding Wheel
Diameter 150 to 200 mm
Bore Diameter 31.75 mm
Speed 2800 to 3000 RPM
Axis Configuration
Multi-axis grinding (often 4 or 5 axes) for versatile tool shapes
Axis Travel X, Y, and Z axis movement varies, typically around 250 mm in each direction
Coolant System
High-pressure coolant for efficient cooling
Integrated filtration system
Power Requirements
Voltage 220V/380V, 50/60 Hz
Power Consumption Approximately 5 kW
Weight and Dimensions
Machine Weight 1000-1500 kg
Dimensions (L x W x H) Around 1500 x 1200 x 1800 mm
Keep Hole of Punch in Accurate Size
Maintains the original size of the punched hole, resulting in better quality and precision.
Flatter Sheets
Properly sharpened tools produce flatter sheets because they minimize the distortion that can occur during punching.
Shear punches are particularly effective in delivering flatter results.
Cleaner Holes
Sharpened punches create holes with smoother edges, reducing burr formation and minimizing secondary finishing work.
More Accurate Hole Locations
Well-maintained tools ensure that holes are consistently punched in the intended locations, enhancing the accuracy of the workpiece.
More Up-Time on the Machine
Reduced wear and tear on the machine and tooling mean less frequent stops for maintenance and tool replacement, leading to higher productivity.
Extend Tooling Life for Punch and Die
Regular sharpening minimizes tool wear, thereby extending the life of punches and dies.
It helps avoid excessive grinding, preserving more of the original tool material.
Improve Machine Downtime
Sharpening reduces the frequency of tool changes, leading to less machine downtime.
Reduce Punch Noise
Properly sharpened tools reduce the noise generated during punching, creating a safer and more comfortable working environment.