Alignment Positioning Table

Alignment Positioning Table

GIGAGER XXY Alignment Positioning Table XXY160-55-220, also called XXY Alignment Stage or UVW Stage. GIGAGER multiple axis alignment stage featured with high rigidity, high precision and longer life. The high quality and high cost performance makes it an ideal choice for engineers worldwide. 1....
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Product Details

GIGAGER XXY Alignment Positioning Table XXY160-55-220, also called XXY Alignment Stage or UVW Stage. GIGAGER multiple axis alignment stage featured with high rigidity, high precision and longer life. The high quality and high cost performance makes it an ideal choice for engineers worldwide.


1. Specification of XXY Alignment Positioning Table XXY160-55-220

Work Table

160x160

Accuracy Level

G:2μm

Base Size

220x220

B:5μm

Height

55

P:10μm

Linear Stroke

±5

Driver Screw

0601

Action Angle

±3°

Suggesting Load

Horizontal ≤30KG

Action Flatness

±0.03

Surface Processing

Anodizing Sandblasting Treatment

Driver

Stepper Motor 28L

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2. What is the XXY Alignment Positioning Table?

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3. What is the Product Features of GIGAGER XXY Alignment Positioning Table?

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4. Motion Mode of GIGAGER XXY Alignment Positioning Table

*A、B、C is Rotary axis,D is Slave axis

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5. How Many Model Are Available?

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6. What Type of Device Could Use the XXY Alignment Positioning Table?

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Electronic Inspection Device

Multi Axis CNC Equipment



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Laminating Machine

Manipulator



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Laser Processing Device
Polishing Machine


Video Link: https://youtu.be/N5LYWt6WYIU

For more application, please click GIGAGER Youtube Channel: https://www.youtube.com/playlist?list=PLT-2VrhPP3YItwfN_wA4YkS8bzfBpJu39


7. How to Select the Right Model for My Device?

Please contact with our engineer for model selection suggestion.


8. How to Install the XXY Alignment Positioning Table?

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9. Why choose GIGAGER?


10. FAQ

XXY positioning stage is a typical structure. The operation of stage is mainly achieved through screw guide and slide devices. Between a stage and a base, there are several sets of X-axis and Y-axis screw guide devices. In operation of a single set or synchronized multi-set movement by controlling X-axis and Y-axis screw guide devices, the stage can be shifted or turned for calibration and adjustment to achieve processing precision.

As the tolerance accumulates, the stage at completion of positioning may completely lose the rigid steady positioning status. For positioning stage of tri-axis configuration, it cannot withstand the side force because a guide transmission axle has higher freedom of connectivity when the stage stops and the load bearing capacity is thus lower. For another type of traditional positioning stage of four-axis configuration, although it has better side-force load bearing capacity than the tri-axis type, it still has the drawback in high manufacturing cost and the accumulating tolerance, so it cannot achieve rigid steady support. To summarize the above problems, when the stage is subject to a certain force, it tends to shift and severely affect the precision and quality for finished product. This is not up to the expectation of high precision by the industry. It calls for breakthrough to solve the problem.

The product uses its body structure to create tightening and positioning from pressurized fluid and eliminate the assembly relationship among structural components. It can effectively withstand the side push-forces to the stage. The parts and modules of common specifications help meet requirements for low cost and high quality. It also helps precision products in manufacturing process meet higher and stricter precision requirements and provides a complete solution for steady and precise positioning as needed by the market.


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