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Check valve

Right Angle valve

Piller Hydrant

OS & Y Gate valve

Landing Valve

Fire Hose Reel

Fire brigade

Butterfly Valve

Fire Hydrant Cabinet

Fire Hose

Check valve

Alarm check valve

Brass Nozzle

Air release valve

accessories

Intelligent Smoke Detector

Addressable Fire Alarm Control Panel

Sounder With Strobe

Manual Call Point

Sounder

Motor Driven Fire pump

Pump Control Panel

Fire Pump Package

Bladder tank

Automatic CO2 system

Engine Driven Fire Pump

Jockey Pumps

Fire Extinguisher

Kitchen Hood

Flow Switch

Fire Hydrant System

A fire hydrant system is a water supply with a sufficient pressure and flow delivered through pipes throughout a building to a strategically located network of valves for fire-fighting purposes. In some circumstances, water from a reticulated fire hydrant system can also be shared with other safety measures such as automatic fire sprinkler systems or fire hose reels.

Water Supply & Storage

A water supply for a fire hydrant system can be derived from a reliable source of water such as; street mains, static water supply such as a tank or dam. Water storage must also include a facility for automatic replenishment (make-up water) due to losses from evaporation, leakage, periodic testing, etc. The capacity or volume of the water supply or storage must also be taken into account as part of the hydraulic analysis.

Pipework & Valves

To direct the water from its point of origin (supply) to its destination (hydrant valve) requires a series of interconnected pipes at defined sizes. The dimensions of the pipes are determined by different standards such NFPA 13, NFPA 20, Australian Standard AS2419 etc. and hydraulic analysis. The Control valves are used in combination with the pipework to control and direct the flow of water.

Fire Brigade Booster/Breaching inlet

The booster assembly provides a point of attachment for the fire brigade to provide additional water to a firehydrant system in the event of an emergency. The location of the fire brigade booster should be chosen to ensure that it is readily accessible and provide protection to fire-fighters. A booster is typically mounted in a cabinet that includes details of the pressure limitations and requirements for the fire hydrant system.

Hydrant

The end-point of a fire hydrant system is the Hydrant (also known as a Hydrant Valve, Landing Valve or Millcock) strategically located throughout a building in accordance with the provisions of AS2419, NFPA 13 or NFPA 20. The nominal diameter for a hydrant valve connection is 65mm. The connection for a fire hose varies throughout the country according to the local fire authority. In simple terms fire brigades through Hydrant must also be fitted with a connection or coupling compatible with the local fire brigade.

Layflat Fire Hose

Some buildings may also require as part of the approved design the installation of ancillary equipment such as a layflat fire hose. A layflat fire hose is manufactured in accordance with local Standard is a flexible hose and nozzle that may be connected to a hydrant.

Fire Pump

Fire Pump

A fire pump is a part of a fire protection system’s water supply and Powered by electricity or diesel. The pump intake is either connected to the public underground water supply piping. or a static water source (tank, reservoir, lake). Fire Pump is the heart of a fire protection system which provides the means to flow water with suitable pressure and discharge rate. We provide a vast range of Vertical Inline Multi-stage (Jockey) and End Suction centrifugal pumps as per the statutory standards and norms, both local and international. Our range. covers pumps designed and manufactured according to NFPA 20, UL Listed and approved by FM global.

Auto Sprinkler

Fire Sprinkler

An automatic fire sprinkler system is one of the most effective methods of controlling or suppressing a fire. Sprinkler systems are made up of a network of pipes through the walls and ceilings that have sprinkler heads providing protection to hallways, rooms, stairways and other areas of a building. In most of the systems, the pipes are always filled with water, under pressure and the system is ready to do its job of putting out a fire quickly! In case of fire, the small glass bulb inside the sprinkler head cracks at a certain temperature and starts spraying water over the fire.In case of a concealed sprinkler head in the ceiling, even though you can’t see the sprinkler head, they are still there ready to operate in any case of fire.

Fire Detection System

An automatic fire detection system is designed to detect the presence of fire by monitoring environmental changes associated with com- bustion. Fire alarm systems are used to notify people to evacuate in the event of a fire or other emergency, to request such civil defense as fire brigades emergency services, and to send digital signals to associate systems inter- face to control the spread of fire and smoke. Fire Alarm Systems are classified as either Con- ventional and Addressable.

Conventional
Lower initial equipment costs.
Defined location of fire/alarm not provided at the panel or central station
Limited expansion capability.
Addressable
Easier to install.
Information of detected fire shown at the panel and central station.
Input/Output programming much more flexible. Usually much more roomavailable for expansion.

Fire Suppression

FM200 fire suppression is also known as HFC227ea. FM200 is a waterless fire protection system, it is discharged into the risk within 10 seconds and sup- presses the fire immediately. There is a common misconception that FM200 gas reduces oxygen which is not true! FM200 is a synthetic/chemical fire suppres- sion gas and extinguishes a fire by removing the free radicals or heat elements from the fire triangle (Oxygen, Heat and Fuel). The typical concentration of an FM200 system is normally between 7.9% to 8.5%. This concentration is determined by the risk that is being protected and by the OEM (Original Equipment Manufacturers) and the ISO14520 standards for fire suppression systems.

Fire Doors

Fire doors are an important part of a building’s passive fire protection system, and doors in a means of egress provide life safety by allowing people to exit quickly when necessary. Still, the requirements remain a mystery for many architects and specifies.

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