What is a Fire Alarm System? - YouTube

Fire Alarm Systems are designed to alert us to an emergency

so that we can take action to protect ourselves, staff and the general public.

Fire alarms are found in Offices, Factories, and public buildings,they are a part of our everyday routine

but are often overlooked until there is an emergency

at which point, they might just save our lives.

Whatever the method of detection is, if the alarm is triggered,

sounders will operate to warn people in the building that there may be a fire and to evacuate.

The fire alarm system may also incorporate a remote signal system

which could then alert the fire brigade via a central station.

In this video, we will have a look at the structure and types of the “Fire Alarm Systems”.

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The “Brain” of the system is the Fire Alarm Control Panel.

It is the central hub for all of the detector signals to be wired to and provides a status indication to the users.

The unit can also be set up to simulate an alarm for use in routine Fire and evacuation drills,

so all staff knows what action to take in the event of a real fire.

At the core of a fire alarm system are the detection devices,

from sophisticated intelligent smoke detectors to simple manually operated break glass units

there are a wide array of different types, but we can divide them into groups including

Heat detectors, Smoke detectors, Carbon Monoxide detectors, Multi-sensor detectors, and Manual Call Points.

A Heat detector can either work on a fixed temperature basis,

where it will trigger an alarm if the temperature exceeds a pre-set value

or they can work on the rate of change in temperature.

Commonly Heat detectors work in a similar way to an electrical fuse,

the detectors contain a eutectic alloy which is heat sensitive when a certain temperature is reached

the alloy turns from a solid to a liquid which in turn triggers the alarm.

There are three basic types of smoke detectors including Ionization, Light Obscuring, and Light Scattering.

An Ionization Smoke detector generally contains two chambers.

The first is used as a reference to compensate for changes in ambient temperature, humidity or pressure.

The second chamber contains a radioactive source, usually alpha particle,

which ionizes the air passing through the chamber where a current flows between two electrodes.

When smoke enters the chamber the current flow decreases.

The drop in current flow is used to initiate an alarm.

The light scattering smoke detector operates on the Tyndall effect;

a photocell and light source are separated from each other by a darkened chamber

such that the light source does not fall on the photocell.

The passage of smoke into the chamber

causes the light from the source to be scattered and fall on the photocell.

The photocell output is being used to initiate an alarm.

In the Light obscuring smoke detector,

smoke interferes with a light beam between a light source and photocell.

The photocell measures the amount of light it receives.

The variation in photocell output, is being used to initiate an alarm.

This type of detection can be used to protect large areas

with the light source and photocell positioned some distance apart.

Carbon monoxide detectors are known also as CO fire detectors

and are electronic detectors used to indicate the outbreak of fire

by sensing the level of carbon monoxide in the air.

Carbon monoxide is a poisonous gas produced by combustion.

In this instance, these detectors are not the same as carbon monoxide detectors used in the home

for protecting residents against carbon monoxide produced by incomplete combustion in appliances

such as gas fires or boilers.

Carbon Monoxide fire detectors use the same type of sensor as those in the home

but are more sensitive and respond more quickly.

Carbon monoxide detectors have an electrochemical cell,

which senses carbon monoxide, but not smoke or any other combustion products.

The Multi-sensor detectors combine inputs from both optical and heat sensors

and process them using a sophisticated algorithm built into the detector circuitry.

When polled by the control panel

the detector returns a value based on the combined responses from both the optical and heat sensors.

They are designed to be sensitive to a wide range of fires.

A Manual Call Point or Break Glass Call Point

is a device which enables personnel to raise the alarm

by breaking the frangible element on the fascia; this then triggers the alarm.

Fire Alarm Systems can be broken down into four main types;

“Conventional”, “Addressable”, “Intelligent Fire Systems” and “Wireless Systems”.

Let’s spend some time considering each.

In a Conventional Fire Alarm System,physical cabling is used to interconnect several call points and detectors,

the signals from which are wired back to the main control unit.

Call points and detectors are arranged in “Zones” to simplify locating the cause of the alarm,

this is important for both the fire brigade and general building management.

Each zone is indicated at the Fire Alarm Control Panel either with an indicator lamp,

a text display or in some cases both.

It makes sense that the more we can divide a building into zones,

the more accurate locating the alarm trigger will be.

The Control Panel is wired to a minimum of two sounder circuits

which could contain bells, electronic sounders or other audible devices.

It is these devices which sound the alarm when triggered.

The detection principle of an Addressable System

is the same as a Conventional System

except that each detector is given a set Address usually by means of a dip-switch

and the Control Panel can then determine exactly which detector or call point has initiated the alarm.

The detection circuit is wired as a loop and up to 99 devices may be connected to each loop.

It is common for the loop to be fitted with Loop Isolation Modules

so that the loop is sectioned in order to ensure that a short circuit or single fault

will only cause the loss of a small part of the system.

Allowing the rest of the system to function normally.

In the previous two systems, the “Conventional System” and the “Addressable System”

the detectors are not considered “intelligent”

as they can only give output signals representing the value of detected phenomena.

It is left up to the Control Unit to decide whether there is a fire, fault, pre-alarm or other.

However, in our next type of System, which is an Intelligent Fire Alarm system,

each detector effectively incorporates its own computer which evaluates the environment around it

and communicates to the Control Panel whether there is a fire, fault or the detector head needs cleaning.

Essentially Intelligent Systems are far more complex

and incorporate far more facilities than Conventional or Addressable Systems.

Their primary purpose is to help prevent the occurrence of false alarms.

Intelligent Fire Alarm Systems are available in 2, 4, and 8 loop versions

which means large premises can be monitored from one single panel.

The final type of system we will consider is the Wireless Fire Alarm System.

These are an effective alternative to traditional wired fire alarm systems for all applications.

They utilize secure, license-free radio communications

to interconnect the sensors and devices with the controllers.

It is a simple concept, which provides many unique benefits

and is a full intelligent fire detection system without the need for cabling.

In this video, we have learned that Fire Alarm systems are fitted in many buildings we encounter every day

and that they are used to warn people within the building of an emergency fire-related situation.

We discussed the main types of detectors:

Heat Detectors, Smoke Detectors, Carbon Monoxide Detectors, Multi-Sensor Detectors, and Manual Call points.

And finally, we looked at the different types of fire alarm systems:

Conventional, Addressable, Intelligent Fire Systems, and Wireless Systems.

We hope you enjoyed this short introduction to Fire Alarm Systems,

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