DYNAguard M is a microwave-based flow monitoring sensor engineered for precise detection of bulk material movement in industrial processing systems. Designed for both open and closed conveying environments, it delivers reliable flow detection across extended distances. This advanced solution is ideal for monitoring powders, pellets, and granules, ensuring uninterrupted production and reducing the risk of operational failures.
Key Features
The system utilizes microwave technology to detect material movement independent of direction, ensuring accurate sensing even at low velocities starting from 0.1 m/s. Its robust construction allows operation in demanding industrial environments, while adjustable sensitivity and damping provide flexibility for various applications. The device supports early detection of flow interruptions, helping prevent costly downtime and material loss.
Design & Functionality
DYNAguard M operates by generating a microwave field that interacts with moving solid particles. As materials pass through this field, their motion is detected and converted into reliable signals for process monitoring. The sensor is designed to be installed at an angle between 45° and 90° relative to the flow direction, ensuring optimal detection accuracy.
Total Crossed Beams
The microwave sensing principle ensures wide-area coverage within the detection zone, allowing consistent monitoring even in systems with varying material distribution. This improves detection reliability in large ducts and pipelines.
Beam Pitch Options
Flexible detection zones enable adaptation to different conveying setups. The sensor can be configured to match system requirements, ensuring accurate monitoring regardless of material density or flow conditions.
Intrinsic Synchronism
The system operates with synchronized signal processing, ensuring stable and interference-resistant detection. This enhances reliability in environments with mechanical components or fluctuating process conditions.
Operational Advantages
DYNAguard M significantly improves operational efficiency by identifying flow issues early, such as clogging, interruptions, or irregular feeding. This proactive monitoring reduces maintenance costs, prevents production delays, and enhances overall plant reliability. Its durable design, combined with precise detection capabilities, makes it a dependable solution for industrial material handling systems.
