MesseneuheitOZB-20-2 distribution block
The OLE-BOX ZB Dn20 distribution blocks are a cutting-edge solution designed to serve two heating circuits with maximum efficiency and flexibility. Available in versions with or without a hydraulic separator, these blocks empower you to customize your heating system for optimal performance and adaptability.
Engineered with precision and innovation, the OLE-BOX ZB Dn20 stands out for its compact design, versatile configurations, and robust construction. Whether you're upgrading an existing system or planning a new installation, this advanced distribution block ensures seamless operation, reduced installation effort, and long-term reliability. Choose OLE-BOX ZB Dn20 to bring efficiency and modern engineering to your heating system.
Features:
- Housing made of EPP insulation material, 26 mm thick, with a density of 40 g/L.
- Can be installed next to or below the boiler.
- 3 heating circuit configurations.
- 5 control options for mixing circuits.
- Ultra-compact dimensions: the width of the OLE-BOX ZB Dn20 for 2 circuits is 396 mm.
Technical Specifications:
- Maximum heat transfer medium flow rate: 2.2 m³/h.
- Maximum flow rate per circuit: 2.0 m³/h.
- Maximum operating pressure: 6 bar.
- Maximum operating temperature: 105°C.
- Connection to the boiler: 3/4" male thread.
- Connection to circuits: 1" union nut.
Configuration (without hydraulic separator):
- Distribution manifold with union nuts.
- Union nuts 1" x 3/4" (2 pcs.) for boiler connection.
- Insulated housing made of 26 mm thick EPP.
- Wall mounting kit.
- Circuits – according to the model.
Configuration (with hydraulic separator):
- Distribution manifold with hydraulic separator and union nuts.
- Shut-off valves with thermometers and union nuts 1" x 3/4" female thread (2 pcs.) for boiler connection.
- Insulated housing made of 26 mm thick EPP.
- Wall mounting kit.
- Circuits – according to the model.
The OLE-BOX ZB Dn20 is a compact, versatile, and efficient solution for distributing the heat transfer medium in heating systems.