Description
The AL600P iGE+ achieves high precision machining while suppressing the cumulative pitch error to the utmost in progressive press dies. In the AL-P Series, Sodick introduces the very latest Rigid Linear Motor EDM Technology with the superior SPW power supply (Smart Pulse). The AL-P Series are the most economically efficient, precise and productive Wire EDM Machines on the market.
Features
- 10-Year Positioning Guarantee
- Full Enclosure
- Digital-PIKA-W Plus
- TMP Control II
- Barrel-Free Effect Control II
- 4 Axis Linear Motor Drive System
- Motion Controller
- NC Device
- Windows Operating System
Options
- .002″ to 0.004″ (0.05 to 0.1 mm) diameters are available as options
- Includes power supply, service tank, and wire bucket
Specifications
X - Axis Travel | 23.62" (600 mm) |
Y - Axis Travel | 15.75" (400 mm) |
Z - Axis Travel | 13.78" (350 mm) |
U, V - Axis Travel | 5.91" x 5.91" (150 x 150 mm) |
Work Tank Dimensions W x D | 41.34" x 27.95" (1050 x 710 mm) |
Max. Taper Angle | ±25°plate thickness:5.12" (130 mm) |
Max. Workpiece Dimensions (During flushing machining) W x D x H | 31.50" x 22.44" x 13.39" (800 x 570 x 340 mm) |
Max. Workpiece Dimensions (during submerged machining) W x D x H | 31.50" x 22.44" x 11.02" (800 x 570 x 280 mm) |
Max. Weight of Workpiece (during flushing machining) | 2,205 lbs |
Wire Electrode Diameter | .002"~.012" (0.05 ~ 0.30 mm) *1 |
Wire Tension (N) | 3 ~ 23 |
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Distance from Floor Surface to Upper Surface of Table | 39.17" (995 mm) |
Machine Tool Dimensions W x D x H | 98.23" x 113.98" x 92.32" (2495 x 2895 x 2345 mm) *2 |
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Total Unit Weight | 10,141 lbs (4600 kg) *3 |
Total Power Input | 3-phase 50/60Hz 13 kVA |
4-axis flat rigid linear motor drive
Direct drive method without a ball screw was established, utilizing a high performance flat rigid linear motor developed and manufactured in-house for the 4 axes of X, Y, U, and V. Precise axis movements without backlash can be maintained semi-permanently. Demonstrates accurate position control and excellent discharge characteristics while machining, through the high response and high following characteristics which are the features of the flat rigid linear motor.
New Power Supply Unit & New Machining Circuit
Has a 19-inch vertical type touch panel, realizing the most up-to-date man-machine interface and also ensuring ease of viewing and ease of use. This machine is standardly equipped with the “barrel-free effect control II” which greatly reduces the barrel amount during machining, and “TMP Control II” which improves the surface roughness of the second cut and realizes high speed finish machining.
Pursuing Ultimate Accuracy
Sodick pursued ultra-high precision in the machining, assembly and adjustment of machinery. By adopting ultra-high precision roller guides, high rigidity was also achieved. While standardly equipped with doors made of CFRP, the accuracy was thoroughly pursued in all factors originating in the machining accuracy to temperature control by a high quality inverter cooler.
10 Year positioning Accuracy Guarantee
At Sodick, we believe in our product. This is why we offer a 10-Year Positioning Accuracy Guarantee on our flat rigid linear motor driven Wire and Sinker EDMs. We guarantee that you will not lose any accuracy within the flat rigid linear motor drives. Learn more at www.sodick.com/our-company/10-year-positioning-guarantee
iGroove+ Technology
Our patented wire rotation technology, iGroove+, increases surface quality and accuracy while minimizing wire consumption by up to 39%.
Thermal Commit (TH COM)
Through sensing, the temperature of each component of the machine is precisely corrected and the Thermal Commit (TH COM) function, which provides various diagnostic functions, minimizes thermal displacement due to temperature changes in the installation environment and during high-speed driving.
Step-cut Functionality
It permits machining at the same speed as under standard conditions while significantly improving the accuracy and range of applications when machining shapes with rapidly changing material thickness, such as stepped shapes.