Next Generation Column Type SuperPrecision Forming Surface Grinder
Descriptionof Column Type Super Precision FormingSurface Grinder
DIDAC Exportis devoted towards offering a qualitative range of Column Type Super Precision Forming Surface Grinder. The providedgrinder is well-manufactured by the special team of our skilled professionalsusing the latest technology.
Next Generation Column Type SuperPrecision Forming Surface Grinderthe simple chamber and full-cover type. Specifications other than the cover arethe same as the ordinary type. This type is most suitable when the effect ofexternal temperature change needs to be suppressed or splashing of grindingfluid, etc.
Features of Column Type Super Precision Forming SurfaceGrinder
1. Sophisticated and high qualityguide way structure.
A non-contactand polyhedral constraint static guide way, which is used in the nano machine,is fully employed in each axis. This guide way structure is characterized by aminimum change in the traveling line as the speed changes, as well as a minimumchange in accuracy even after the heavy use of the machine over a long periodof time.
2. Linear motor with nano machinequality.
The actuatorfor driving the longitudinal axis and cross axis incorporates super-precisionlinear motor technology derived from the nano machine development. High-speedand smooth motion ensure submicron accuracy even for 3D shapes and allow machiningwith nano-order quality.
3. Energy conservation and minimizedeffect of temperature change
A change intemperature environment is a great enemy to super-precision machining. To solvethis problem, a covering and machining system hardly affected by ambientenvironment under general constant temperature environment have beenestablished. In addition, power consumption is reduced by about 30% compared tothe conventional hydrostatic machine.
4. Design to improve functionality andoperability.
The worklayout as well as arrangement, shapes and colors of keys on the operation panelhave been reviewed and re-designed.
5. Accurate and immediate 3Dmeasurement of machined shape.