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デジタルトランスフォーメーション
グリーントランスフォーメーション
SHENG FENG TECHNOLOGY CO.,LTD
製品の説明 :
Cross roller bearings consist of inner rings, outer rings, spacer retainers and cylindrical rollers cross arranged on the V-shaped 90° groove between the inner and outer rings. This structure can withstand radial, axial and moment loads in all directions because the rollers'line contact with raceway surfaces achieve a large load-bearing area despite the minimum dimensions. Therefore these bearings are widely used on the rotating parts of industrial robots, machine tools, precision rotary tables, measuring instruments and IC manufacturing machines.
Cross Roller Bearing Features:
High rigidity
Large load capacity
High rotation accuracy
Compactness
Easy to install and handle
KTR TAIWAN LTD.
製品の説明 :
The recently developed DATAFLEX® 16 is available for measuring torque ranges of 10 Nm, 30 Nm and 50 Nm. The torque is measured using the well-approved technology of wire strain gauges combined with the latest electronic components.
The torque signals are processed without contact at a high resolution of 24 bit achieving an accuracy of 0.1 % of the terminal value. Supplementary to torque measuring the size 16 has a speed encoder providing two signals with a resolution of 360 pulses per revolution.
ADLEE POWERTRONIC CO., LTD.
製品の説明 :
Product applications:
Surface grinding machine、Internal & External grinder、CNC lathe machine、CNC milling machine, etc.
Adlee manufactures V3 class of AC spindle motor. The motion of AC induction motor makes great performance and this special design for milling machine spindle.
1. V3 class spindle motor.
2. 3 phase AC induction motor has extra low vibration performance.
3. Efficiency conforms to IEC 60034-30 IE3 standards IEC motor.
4. IEC motor specifically designs for grinding machine and low vibration applications.
5. Power range is from 1HP to 20HP.
HEIDENHAIN CO., LTD. (TAIWAN)
製品の説明 :
Linear encoders are indispensable for machines with high demands regarding positioning accuracy and machining speed. Linear encoders directly and immediately measure the actual position of the feed axis. This makes it possible to eliminate a number of potential error sources: Positioning error due to thermal behavior of the recirculating ball screw
, Reversal error, errors due to deformation of the drive mechanics by machining forces, kinematic errors through pitch error in the recirculating ball screw.
