DYCW Weighing Module for Dynamic Loads (300 kg - 8 ton)

The DYCW Weighing Module is a versatile and reliable solution for dynamic weighing applications in various industrial settings. Its unique self-stabilizing design ensures accurate and consistent measurements even under dynamic loading conditions. This module is particularly well-suited for applications such as conveyor belt scales, platform scales, truck scales, and other weighing systems where the load may be in motion. Key Features:

- Self-Stabilizing Design: The weighing platform is mounted on a rotatable axis, allowing it to adjust to the movement of the load and maintain accurate measurements.
- High Accuracy: Provides precise and stable measurements even under dynamic loading conditions.
- Durable Construction: Made with high-quality alloy steel or stainless steel for long-lasting performance in harsh environments.
- Easy Installation: Designed for straightforward integration into various weighing systems.
- Versatile Applications: Suitable for a wide range of dynamic weighing applications, including conveyor belt scales, platform scales, and truck scales. Technical Specifications: Parameter Value Range 0-20T Material Stainless Steel / Alloy Steel Output Sensitivity 2.0 ± 0.002 mV/V Zero point output 2 %FS Non-linearity 0.03 %FS Hysteresis 0.03 %FS Repeatability 0.03 %FS Creep (30 min) 0.03 %FS Temperature Sensitivity Drift 0.02 %FS / 10 °C Zero point Temperature Drift 0.02 %FS / 10 °C Impedance 350 Ω Insulation Resistance ≥ 5000 MΩ / 100 VDC Service voltage 5 - 15 Vdc Operating Temperature Range -20 - 80 °C Safe Overload 150% Extreme Overload 200% Cable 5 core x 2m Cable Limit Tension 10 kg Response Frequency 10 kHz

Dimensions:

Parameter 0.3/0.5/1/2/3 T 5-8 T 10 T 15, 20 T L 286 317.5 360 400 L1 32 32 32 25 L2 226 257 295 350 A 150 178 184 220 A1 124 146 152 170 B 128 152 154 220 B1 102 120 122 170 C 112 152 154 220 C1 80 102 106 170 H 106.9 146.2 215.7 255.7 H1 28 38 45 55 H2 23 30 45 55 T 96 99 105 115 P M10 M16 M20 M24 G Φ13 Φ17 Φ21 Φ26 D 1.6 1.6 3 3