EUW Series T1 Cartesian Injection Robot
The EUW Series T1 Cartesian Injection Robot is designed for high-speed, high-precision injection molding automation. Its lightweight, high-rigidity aluminum-alloy structure and high-speed servo system enable rapid part extraction and improved production efficiency. Equipped with a 23-bit absolute encoder, it delivers ±0.02 mm positioning accuracy for stable, damage-free handling.
1. Ultra-Fast Part Extraction
2. ±0.02 mm High Positioning Accuracy
3. 23-Bit Absolute Encoder
4. Lightweight, High-Rigidity Structure
5. Payload Capacity up to 7 kg
Product Features
1. Boost efficiency by 20% and fully unleash production line capacity
2. Micron-level precision positioning ensures zero damage to high-end precision parts
3. 65 days of maintenance-free operation plus power-loss memory save on hidden downtime costs
Cartesian Injection Robot Performance
High-speed, high-precision and high-load automation system designed for stable and efficient injection molding production.
2. 70% of the body is made of high-rigidity lightweight aluminum alloy, lightweight, low inertia and faster acceleration.
3. 6500 rad/min high-speed servo motor, instantaneous in-mold vertical speed > 3 m/s.
2. Equipped with 23-bit absolute encoder motor, about 8.38 million position points per circle, keeping the repeat positioning accuracy at the micron level.
3. Adopts digital signal transmission to avoid electromagnetic interference in analog signal transmission, further ensuring position feedback accuracy.
High-Speed Cartesian Robot Specifications
Precision-engineered traversal robot designed for fast cycle time, high load capacity and stable injection molding automation.
T1 Cartesian Robot Core Advantages
T1 Cartesian injection robot enables efficient, precise, and stable mass production on the assembly line.
The T1 Cartesian Injection Robot achieves a repeat positioning accuracy of ±0.02mm. Equipped with a 23-bit absolute encoder—offering over 8 million position points per revolution—it maintains stable, micron-level repeat positioning accuracy.
Digital signal transmission eliminates the electromagnetic interference issues common with analog signals, further ensuring precise position feedback. Every part is retrieved with pinpoint accuracy, free from collisions or misalignment throughout the process; the difference in yield rates translates directly to a difference in profit.
First, a high-rigidity aluminum alloy body, combined with a self-lubricating system, allows the slider assembly to operate continuously for up to 65 dayswithout lubrication.
Second, the absolute encoder features power-loss position memory; after a sudden power outage, the robot resumes operation immediately upon power restoration without needing to return to the home position or undergo recalibration—enabling zero-commissioning recovery.
Additionally, with a maximum payload of 7kg, it supports complex end-effectors and adapts flexibly to a wide range of process requirements.
Model Display
Scenario Adaptation
Suitable for applications with comprehensive requirements on speed, precision and load, such as 3C, electronic cigarettes, medical and other industries.
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Medical parts -
3C Electronics -
electronic cigarettes