Landing / Hydrant Valve
Product Specification
Type A:
- Size: 63 mm
- Comforming Specification: IS: 5290: 1993
- Inlet: 80 mm NB Flanged
- Outlet: Female Instantaneous
Type B:
- Size: 63 mm
- Material: Gun Metal/Stainless Steel
- Inlet: 100 mm NB Flanged
- Outlet: Female Instantaneous
Product Description:
A fire hydrant valve is often known as a landing valve. Therefore, it is a critical high-pressure component in fire suppression systems, providing immediate access to water. Fire hydrant valves manufacturers ensure they can be installed on wet or dry risers or municipal mains. Additionally, it allows firefighters to connect hoses to a normally 63mm instantaneous outlet to prevent excessive water flow during emergencies.
Additional Details:
- Brand: Somya Pyrotek Services Pvt. Ltd.
- Model: Hydrant Valve
- Working Pressure: 10 bar / 16 bar (common)
- Marking: Size, pressure rating, manufacturer, standard, flow direction
- Operating Temperature: Typically 0°C to 80°C
- Material: Ductile Iron / Cast Iron / Bronze / Gunmetal
- Coating / Finish: Epoxy powder coated / Red paint
Key Features of Fire Hydrant Valve
Here are the key features of a fire hydrant valve that you must know before purchasing it from a leading fire hydrant valve supplier in India.
- It is made from stainless steel, gunmetal, or brass to resist difficult environmental situations and ensure rust-free, long-term durability.
- Normal or fire hydrant water valve features a standard, quick-release coupling for rapid attachment of fire hoses without equipment.
- It is designed to handle extreme pressure water supply. It is also often tested at up to 300 PSI.
- Fire hydrant uses high-quality hand wheels or, in some major cases, wrench-operated designs for instant, efficient opening and closing by firefighters.
- It ensures a smooth, tight seal on the stem to decrease maintenance and control leaks over extended use.
- Fire hydrant valves manufacturers ensure that it is engineered to decrease friction loss and deliver maximum flow, vital for fire suppression.
- Hydrant valves often includes drain valve to prevent automatic freezing locks to maintain position and control accidental shutoff during operation.
Applicable Areas of Fire Hydrant Valve
- High-Rise Buildings (Wet Risers)
- Commercial Complexes & Shopping Malls
- Industrial Plants & Factories
- Petrochemical Refineries & Chemical Plants
- Warehouses & Logistics Parks
- Underground Parking & Basements
- Marine and Offshore Installations
- Airports & Hangar Facilities
- Metro Terminals & Transport Hubs
- Data Centres & Telecom Facilities
Technical Configuration of Fire Hydrant Valve
| Parameter | Typical Specification |
|---|---|
| Valve Type | Hydrant Valve (Landing Valve / Standpipe Valve) |
| Application | Firefighting water discharge point |
| Nominal Size | 63 mm (2.5″) / 80 mm (3″) / 100 mm (4″) |
| Inlet Connection | Flanged / Screwed / Grooved (as per system design) |
| Outlet Connection | Instantaneous coupling / Storz / BS / NH Thread (region-dependent) |
| Working Pressure | 10 bar / 16 bar (common) |
| Test Pressure | 15 bar / 24 bar (depending on rating) |
| Body Material | Ductile Iron / Cast Iron / Bronze / Gunmetal |
| Bonnet Material | Same as body (or brass/bronze) |
| Spindle Material | Stainless Steel / Brass |
| Seat / Disc Material | EPDM / NBR Rubber |
| Valve Operation | Handwheel / Square key |
| Opening Direction | Clockwise (Close) / Counter-clockwise (Open) |
| Flow Type | Straight / Angle type (commonly 90°) |
| Coating / Finish | Epoxy powder coated / Red paint |
| Installation Type | Wall-mounted / Standpipe-mounted |
| Leakage Requirement | Zero leakage at rated pressure |
| Operating Temperature | Typically 0°C to 80°C |
| Standard Compliance | BS 5041 / EN 671 / IS 5290 / NFPA (varies by region) |
| Marking | Size, pressure rating, manufacturer, standard, flow direction |
| Accessories (Optional) | Cap & chain, nozzle, pressure gauge, hose coupling |
How to Use a Fire Hydrant Valve?
Here, we have mentioned the step-by-step guide to use a fire hydrant valve effectively:
Step 1: Locating the Hydrant Valve
First of all, the location of the nearest fire hydrant valve must be determined. It is mostly red and well signposted, making its location clear.
Step 2: Ensure Personal Safety
Verify your safety before heading towards the fire hydrant valve. Wear personal protective equipment, such as gloves and a helmet, if available. It is also important to confirm that the area around the hydrant is free of fire hazards.
Step 3: Remove the Hydrant Cap
Remove the valve cap using a hydrant wrench or an appropriate alternative tool. Turn the wrench counterclockwise to loosen the cap, then remove it.
Step 4: Attach the Fire Hose
Make sure that the fire hose is correctly and firmly attached to the fire hydrant outlet. The connection must be secure to prevent water leakage.
Step 5: Open the Hydrant Valve
Open the hydrant by rotating the valve stem anticlockwise with the hydrant wrench. This will initiate water flow into the hose.
Step 6: Controlling the Water Flow
Once the fire hydrant valve is fully open, water flow is controlled using the hose nozzle attached to it. The stream should be aimed at the base of the fire, as this is where it will be most effective.
Step 7: Monitor and Adjust as Needed
Continuously observe the fire and modify the water stream accordingly. Coordination with other emergency personnel on-site is also critical.
Step 8: Close Hydrant Valve
After the fire is under control or extinguished, close the hydrant valve stem by turning it clockwise. Water flow will therefore come to a halt. Afterward, the cap is reinstalled, and the stem is tightened. One should not forget to tighten.
Step 9: Report and Maintain
After use, the hydrant must be reported to the appropriate authorities for inspection. It must be ready for the next emergency.
Safety Tips to Know When Using a Fire Hydrant Valve
Using hydrant valves requires a specific technique to ensure emergency water flow without causing infrastructure damage or injuring bystanders. Furthermore, here are some imperative safety tips that every individual should know before using a fire hydrant valve:
- Slowly open and close the valve.
- Ensure to use the appropriate wrench for hydrant valves.
- Don’t forget to stand behind the hydrant while using it to avoid injury from unexpected pressure.
- Before using, ensure to turn the fire hydrant water valve anti-clockwise until it is entirely open.
- Use a gate valve for flow control
- Before operating, make sure to recheck for damage, leaking caps, rust, or obstructions (debris, ice, and dirt).
- Do not force a tight valve.
- Replace the cap securely after use.
What Sets Us Apart from Others?
At Fire Extinguishers India, we deliver comprehensive fire safety solutions, not just products. Our philosophy is always to target the customer’s true needs, whether for a home, office, factory, or commercial building. Quality, reliability, and fast service are the cornerstones of our work. Furthermore, we believe there’s no room for compromise in fire safety. That’s why we provide every client with proper guidance, the right extinguisher selection, and long-term support.
What makes Fire Extinguishers India different?
- ISI-marked & certified products for trusted safety
- Wide range of ABC, CO₂, Foam, Water, and Clean Agent extinguishers
- Genuine refilling & maintenance along with proper safety checks
- Fast delivery & quick installation support
- Expert guidance on the proper selection of an extinguisher
- Reasonable prices with no compromise on quality
- AMC & Servicing to protect for the long term
- Fire safety accessories: hose reel, hydrant, safety signs, among others
- Customer first, communicate clearly and concisely
Frequently Asked Questions
Valves on fire trucks, hoses, or hydrants are supposed to cut off the water supply at the fire scene or within an industry. Fire hose valves are again used in a number of applications, such as deluge and dry riser valves.
Not at all. The term “hose valve” typically refers to smaller internal valves used in hose reels or standpipes. Hydrant valves are specifically designed for high flow and rugged exterior or riser service, with special coupling standards.
Yes, absolutely! You just need to have the right inductors/proportioners and foam-capable nozzles/branchpipes. Also, ensure the materials are compatible with the type of foam and the site’s foam strategy
Pressure-reducing valves maintain safe, consistent nozzle pressure when your network experiences high static pressure or when a tall riser has outlets on lower floors.