The PFG09ZATF high-temperature rotary blade level sensor offers industrial-grade precision for monitoring solids in silos and bins. Engineered to withstand extreme heat up to 200°C, this sensor ensures accurate level detection while maintaining operational safety in explosive or corrosive environments. Its robust construction and versatile installation options make it a trusted solution across manufacturing sectors.
Key Features
- Operates reliably in temperatures up to 200°C
- Explosion-proof design certified for hazardous zones (ATEX & UKCA)
- Double-flange system for effective condensate drainage
- Compatible with a wide range of paddle types for varied materials
- Easy installation in vertical, horizontal, or oblique positions
Design & Functionality
Constructed from die-cast aluminum and stainless steel, the PFG09ZATF combines durability with corrosion resistance. The paddle rotation mechanism is optimized for precise level detection, while the SPDT micro switch provides a dependable output signal. The sensor is dust-proof and water-resistant (IP65), ensuring long-term reliability in demanding industrial environments.
Total Crossed Beams
The rotary blade design allows for complete material contact coverage. Each paddle can be selected based on material density and disturbance conditions, providing accurate threshold detection.
Beam Pitch Options
Multiple paddle configurations ensure adaptability to different material flow types and silo dimensions. From single to multi-blade paddles, the sensor can be customized for optimal performance.
Intrinsic Synchronism
With life-lubricated sealed bearings and a micro switch output, the sensor guarantees synchronized rotation and dependable signal transmission. This intrinsic synchronism enhances reliability and reduces maintenance needs.
Operational Advantages
- Ensures safety in explosive atmospheres
- Reduces downtime with easy installation
- Compatible with existing radar, capacitive, or ultrasonic systems
- Minimal maintenance with long-lasting construction
- Ideal for industrial facilities seeking precise solids-level monitoring
