DFP10 Ground Fire Hydrant

Production Description

DFP10 Ground Fire Hydrants are critical safety components in firefighting systems, designed to provide a reliable water supply for fire suppression. These hydrants are installed at ground level, allowing easy access for firefighters to connect hoses and access high-pressure water quickly during emergencies.

A DFP10 Ground Fire Hydrant typically features a robust construction with a valve mechanism that controls the flow of water. The hydrant is connected to the municipal water supply, ensuring a steady and reliable source of water when needed. Its design allows for quick operation and efficient water flow, crucial for effective firefighting.

One significant advantage of DFP10 Ground Fire Hydrant is their accessibility and ease of use during emergencies. Their installation at ground level ensures that firefighters can operate them without additional equipment, facilitating rapid response in critical situations.

In summary, DFP10 Ground Fire Hydrants are essential for providing quick and reliable access to water in firefighting efforts. Their sturdy design and straightforward operation contribute to effective emergency response and enhanced safety.

DFP10 Ground Fire Hydrant
DFP10 Ground Fire Hydrant

Production Standard

Nominal Dimension (DN)

Nominal Pressure (PN)

Length (cm)

Operating Temperature

Design

Connection

Coating

Testing

DN 80 - DN 100

PN 10-PN 16

125cm - 145cm - 175cm - 215cm

-40° / +110­­°

EN 14384

EN 1092-1 ISO7005-1 Flanged

Electrostatic Powder Epoxy

EN 14384

Application Areas

DFP10 Ground Fire Hydrants are widely used in various industrial and commercial applications.

1. Urban Areas

2. Residential Neighborhoods

3. Commercial and Industrial Zones

4. Public Facilities

5. Parks and Recreational Areas

6. High-Rise Buildings

7. Industrial Plants

8. Transportation Hubs

In these areas, DFP10 Ground Fire Hydrants play a crucial role in controlling fluid flow, ensuring sealing integrity, and enhancing efficiency and safety in operations.