The Photoelectric Sensor - GDJ-411 is a precision detection device designed for horizontal flow wrapper machines, operating within a voltage range of 10-30VDC. Using advanced photoelectric technology, it enhances the accuracy and efficiency of packaging lines by detecting the presence, position, and movement of products or materials. Its robust construction and fast response time make it ideal for high-speed, industrial production environments.
Key Features:
Voltage Range: Operates on a 10-30VDC power supply, ensuring compatibility with a wide range of industrial systems.
Accurate Detection: Advanced photoelectric sensing technology provides precise detection of packaging materials and products, ensuring proper alignment and reducing misfeeds or jams.
Fast Response Time: Designed for high-speed packaging operations, the sensor delivers rapid response times to ensure seamless product handling and flow.
Durable Construction: Engineered to withstand dust, moisture, and vibration, the sensor is ideal for continuous use in challenging industrial conditions.
Wide Detection Range: The GDJ-411 offers a long detection range, accommodating various product sizes and materials, ensuring reliable performance across different packaging applications.
Energy-Efficient Operation: Operates efficiently with low power consumption, minimizing energy costs while maintaining high accuracy.
Adjustable Sensitivity: Features adjustable sensitivity settings to suit different materials and environmental conditions, enhancing flexibility in packaging operations.
Easy Installation: Compact and designed for easy integration, this sensor is quick to install in horizontal flow wrapper machines, improving automation and reducing downtime.
With a 10-30VDC operating range, the Photoelectric Sensor - GDJ-411 is a reliable solution for increasing the accuracy and efficiency of horizontal flow wrappers, ensuring smooth production with minimal errors. Its rugged build and precision capabilities make it a valuable addition to any high-speed packaging line.
