BLAUBERG AH-10 DUO 160
Plastic Outdoor Ventilation Hood
Features
- Outdoor hood for supply and exhaust air connections in residential, commercial, and industrial buildings.
- Outdoor wall mounting.
Available Colors
- White (RAL 9016)
- Stainless steel look
- Black
- Grey
- Anthracite (RAL 7016)
- Brown (RAL 8017)
- Terracotta
Construction
- Made from ASA plastic.
- UV-resistant.
- Fire-resistant.
- For connecting ventilation pipes with a diameter of 150 and 160 mm.
- Features a condensate drip edge to prevent condensate from dripping onto the wall.
- AH-10 Stainless steel look 160 DUO model includes an aluminum cover with a stainless steel finish.
Dimensions and Specifications
| Model | Dimensions (B) mm | Dimensions (H) mm | Dimensions (L) mm | Dimensions (D) mm | Effective Cross-section m² | Article Number |
|---|---|---|---|---|---|---|
| AH-10 White 160 DUO | 220 | 231 | 54 | 144 | 0.00632 | 8058608 |
| AH-10 Stainless Steel Look 160 DUO | 220 | 231 | 54 | 144 | 0.00632 | 8058615 |
| AH-10 Grey 160 DUO | 220 | 231 | 54 | 144 | 0.00632 | 8058639 |
| AH-10 Anthracite 160 DUO | 220 | 231 | 54 | 144 | 0.00632 | 8066986 |
| AH-10 Brown 160 DUO | 220 | 231 | 54 | 144 | 0.00632 | 8058646 |
| AH-10 Black 160 DUO | 220 | 231 | 54 | 144 | 0.00632 | 8058622 |
| AH-10 Terracotta 160 DUO | 220 | 231 | 54 | 144 | 0.00632 | 8058653 |
A technical drawing shows the external dimensions: a side view with dimensions 220 mm (width), 54 mm (depth), and 231 mm (height). A front view shows a square mounting plate with dimensions 155 mm by 155 mm, a central circular opening with a diameter of 144 mm, and four mounting holes (Ø5) located at the corners.
Technical Data
Graph 1: Pressure Drop vs. Airflow. This graph illustrates the pressure drop in Pascals (Pa) on the y-axis against airflow in liters per second (l/s) on the x-axis. It displays three distinct curves corresponding to models AH-10 100, AH-10 125, and AH-10 160, showing their performance characteristics.
Graph 2: Airflow and Velocity Relationships. This section contains two related graphs. The first shows airflow in liters per second (l/s) on the x-axis and airflow in cubic meters per hour (m³/h) on the secondary y-axis, indicating a linear conversion. The second graph plots airflow in cubic meters per hour (m³/h) on the x-axis against air velocity in meters per second (m/s) at the effective cross-section on the y-axis, also demonstrating a linear relationship.
