| Zone
Requirements |
|
Only one
zone is required if the total floor area is not greater than 300m² |
|
The total area of a
zone must not exceed 2000m² (Dependent on the risk present) |
|
The maximum search
distance for a zone fire shall not exceed 60m |
|
Where stairwells or
similar extend beyond one floor but are in one fire compartment, the stairwell
shall be a separate zone |
|
If the zone covers
more than one compartment, the zone boundaries shall follow compartment
boundaries |
|
If the building is
split into several occupancies, no zone shall be split between two occupancies |
| L1 |
This
is the highest category for the protection of life and is intended to
give the earliest possible notification of a fire in order to allow maximum
time for evaluation.
Automatic
and manual fire detection should be installed throughout all areas of
the building with smoke detectors employed wherever possible to protect
rooms in which people are expected to be present. All alarm signals given
in a category L system must be sufficient to warn people for whom the
alarm is intended to allow time for an evacuation. |
| L2 |
Intended
to offer early notification of a fire allow evacuation before escape routes
becomes smoke filled. Automatic fire detection should be specified in
defined areas in addition to L3 and additional protection should be provided
in rooms at higher risk. |
| L3 |
As
with L2, category L3 is intended to offer early notification of a fire
to allow evacuation before escape routes become smoke filled. Smoke or
heat detectors should be installed in escape routes and in rooms opening
onto escape routes. |
| L4 |
Category
L4 is designed to offer protection to the escape routes from a building
and should comprise category M plus smoke detectors in corridors and stairways. |
| L5 |
Category
L% is a non-prescriptive system in which the protected areas are designed
to satisfy a specific fire risk objective other than that of L1 to L4.
Within the building, certain areas defined but the fire system specification
are protected by automatic fire detection in order to reduce risk to life.
Category L5 may also include manual fire protection. |
| Alarm
Sounders |
|
A
minimum sound level of 65dBA or 5dBA above any background noise likely
to persist for longer than 30 seconds is required at any point in an occupied
building |
|
If
the alarm systems is to used in buildings such as hotels, a minimum sound
level 75dBA at the bed head is required in order to wake a sleeping person. |
|
Audible
warning devices should have a similar sound and distinct from alarms used
for other purposes, and noisy areas may require high output sounders |
|
To
prevent alarm sounds from exceeding comfortable levels, the use of a greater
number of quieter sounders, should be considered |
|
Two
sounder installed on two independent circuits must be used be used on
a fire system so that a failure on one circuit does not cause a total
failure of all sounders |
|
Most
standard doors will cause a 20dB drop in sound levels. Fire doors will
cause a drop of 30dB |
|
For
P systems, a red external sounder marked 'FIRE ALARM' is required |
|
When
mains voltage sounders are used in addition to 24V DC sounders, the mains
sounder supply must be monitored |
| Heat/Rate
of Rise Detectors |
|
Fixed
temperature heat detectors are suitable in environments where there is
a high ambient temperature or in areas where sudden changes in the ambient
temperatures are common e.g. boiler rooms, drying rooms, kitchens |
|
Rate
of rise detectors are designed to detect a fire as the temperature increases.
They incorporate a fixed upper temperature limit if the rate of temperature
increase has been too slow to trigger the detector earlier. These detectors
are suitable where the ambient temperature is stable and a fast to sudden
temperature increase is required, for example, areas unsuitable for smoke
detection due to dust or other contamination |
|
Heat
detection devices have an individual coverage of 5.3m radius. However
these radii must overlap to ensure there are no 'blind spots'. Therefore
individual coverage can be represented by a square measuring 7.5m x 7.5m
giving an actual coverage of 56-25m² per device |
| Type of Detector |
Ideal Application |
Unsuitable |
| Ionisation Smoke Detector |
General Purpose. Ideal
for fast flaming fires |
Unsuitable for areas,
subjected to smoke, steam dust or dirt during normal use |
| Optical Smoke Detector |
General Purpose. Ideal
for smoldering fires |
Unsuitable for areas,
subjected to smoke, steam dust or dirt during normal use |
| Combined Optical Smoke/Heat
Detector |
General Purpose. Ideal
for both fast flaming and smoldering fires |
Unsuitable for areas,
subjected to smoke, steam dust or dirt during normal use |
| Optical Beam Smoke
Detector |
Large and high rooms |
Unsuitable for areas,
subjected to smoke, steam, dust or dirt during normal user |
| Rate of Rise Heat Detector |
Areas subjected to
smoke, steam, dust or dirt during normal use |
Unsuitable for areas,
subjected to temperatures of over 43ºC and rapid changes of temperature |
| 58ºC Fixed Heat
Detector |
Areas subjected to
smoke, steam, dust or dirt and rapid changes of temperature during normal
use |
Unsuitable for areas,
subjected to temperatures of over 43ºC |
| 78ºC Fixed Heat
Detector |
Areas subjected to
smoke, steam, dust or dirt and temperatures over 43ºC during normal
use |
Unsuitable for areas,
subjected to temperatures of over 70 |
 |
 |
The
sounder device should give a minimum sound level of 65dB(A)
or 5dB(A) above
any background noise lasting more than 30 seconds. It shall operate at
500Hz to 1000Hz |
A
person searching a zone for a fire should not have to travel more than
60m to identify the source
of a fire. A person should not have to travel more than 45m
to reach a manual call point. |
 |
 |
Manual
Callpoints should be positioned1.4m (/-200mm)
from floor level. Any non-mechanically protected cable medium should have
additional protection up to 2m
from floor level. |
Cabling
to the sound device should be arranged so in the event of a fault occurring
during a fire condition, at least one sounder device will remain operational.
Any metallic parts of fire systems including cabling and conduit should
be well separated from any lighting protection system. |
 |
 |
Smoke
detection devices have an individual coverage 7.5m
radius. However, these radii must overlap to ensure there are no 'blind
spots'. Therefore, the individual coverage can be represented by a square
measuring 10.6m x 10.6m giving
an actual area coverage of 112m² per
device |
Heat
detection devices have an individual coverage of 5.3m
radius. However, these radii must overlap to ensure there are no 'blind
spots'. Therefore, the individual coverage can be represented by a square
measuring 7.5m x 7.5m giving
an actual area coverage of 56.25m²
per device. |
 |
 |
For
ceilings that feature an apex, if the height of the apex is less than
150mm from the rest of the
ceiling for heat detectors and 600mm from the rest of the ceiling for
smoke detectors, they can be treated the same as flat ceilings. For higher
apexes, a device should be installed at the highest point. The distance
to adjacent devices can be increased by 1% per1 degree of the angle of
the roof. Up to a maximum of 25% |
Limits
of ceiling heights |
 |
 |
For
areas where people are sleeping, sounder devices should produce a minimum
of 75dBA at the bed-head with
all doors shut. |
Decibel
loss occurs through doors: -20dBA
through a normal door, -30bDA
through a fire door. |
 |
 |
In
corridors less than 2m wide,
the horizontal spacing of detectors may be increased. The areas of coverage
need not overlap as in the case of a room. Any corridor over 2m
wide is deemed a room and device spacing should follow the standard for
rooms. |
In
corridors less than 2m wide,
the horizontal spacing of detectors may be increased. The areas of coverage
need not overlap in the case of a room. Any corridor over
2m wide is deemed a room and
device spacing should follow the standard for rooms. |
 |
 |
Do
not site detectors less than 1m
from air inlets or air conditioning units. |
Detectors
should not be mounted within 500m of
any obstruction. If the opt of a solid partition is less than 300mm
from the ceiling, it should be treated as a wall. Similarly, ceiling obstructions
such as beams should be treated as walls if they are deeper than 10%
of the ceiling height. |
 |
 |
Fire
resistant cabling is required within the whole fire alarm system including
the mains supply cables. The user of non-fire resisting cables will no
longer comply with BS5839. |
Never
mount detectors closer than twice the depth of luminaire |
 |
 |
Voids
less than 800mm in height
need not have independent coverage, unless fire or smoke is able to spread
from one area to another through the void or this risk assessment shows
an AFP (Automatic Fire Protection) to be necessary. |
Vertical
shafts like lifts and stairways should have a detector mounted within
1.5m of any opening. Enclosed
stairways should have a detector on each main landing. |
 |
 |
The
sensing element of a heat detector (Themistor) should not be less than
25mm below the ceiling and
not greater than 150mm below
the ceiling. |
The
sensing element of a smoke detector (Photoelectric chamber) should not
be less than 25mm below the
ceiling and not greater than 600mm
below the ceiling. |
