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Installation Instructions
Model OP921
Photoelectric Detector
UL268 7th edition listed
These instructions are written in accordance with the
installation guidelines of NFPA 72, National Fire Alarm
Code, and CAN/ULC-S524, The Installation of Fire Alarm
Systems.
CAUTION
DO NOT install this detection device until all construction
is completed.
DO NOT store this detection device where it can be
contaminated by dirt, dust, or humidity.
DETECTOR PLACEMENT
Although no specific spacings are set for the detectors
used for a clean air application, use 30-foot center
spacing (900 sq ft) from NFPA Standard 72 initiating
devices chapter and CAN/ULC-S524, if practical, as a
guide or starting point for a detector installation layout.
This spacing, however, is based on ideal conditions –
smooth ceiling, no air movement, and no physical
obstructions.
In
some
considerably less area is protected adequately by each
smoke detector. This is why it is mandatory to closely
follow the installation drawings. In all installations place
the detector on the ceiling, a minimum of 6 inches from
a side wall, or on a wall, 12 inches from the ceiling.
For an ideal, smooth ceiling condition, place the
detectors at a maximum center spacing of 50 feet (2500
square
Drawings provided or approved by
feet).
Siemens Industry, Inc., or by its authorized distributors
are extremely
important.
shown on these drawings were chosen after a careful
evaluation of the area that is protected. Such factors as
air currents, temperature, humidity, pressure, and the
nature of the fire load were carefully considered.
Especially noted were the room or area configuration
and the type of ceiling (sloped or flat, smooth or
beamed). Siemens Industry, Inc.'s extensive experience
in the design of the system assures the best detector
placement by following these drawings. Sound
engineering judgment by qualified personnel must be
followed.
TO AVOID NUISANCE ALARMS
Do not locate the detectors where excessive smoke
concentrations exist under normal conditions, or in areas
of prolonged high relative humidity where condensation
occurs.
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2020-07-14
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applications,
therefore,
The detector placements
Do not locate the detectors next to an oil burner, or
garage where exhaust fumes can trigger an alarm. Other
causes of false alarms are dust accumulation, heavy
concentrations of steam, heavy pipe or cigar smoke, and
certain aerosol sprays.
AIR CURRENTS
Before a detector can sense a fire, the products of
combustion or smoke must travel from the fire to the
detector. This travel is especially influenced by air
currents; therefore, consider air movement when
designing the system. While combustion products tend
to rise, drafts from hallways, air diffusers, fans, etc., may
help or hinder the travel of combustion products to the
detector. When positioning a detector at a particular
location, give consideration to windows and doors, both
open and closed, to ventilating systems, both in and out
of operation, and to other factors influencing air
movement. Do not install a detector in the air stream of
a room air supply diffuser. It is better to position a
detector closer to an air return.
The distance that products of combustion or smoke
travel from a fire to the detector is not usually the shortest
linear route. Combustion products or smoke usually rise
to the ceiling, then spread out. Average ceiling heights of
8 to 10 feet do not abnormally affect detector response.
High ceilings, located in churches, warehouses,
auditoriums, etc., do affect detector response and should
be considered.
SPECIAL CEILING CONSTRUCTION FACTORS
Ceiling obstructions change the natural movement of air
and combustion products. Depending on the direction of
smoke travel, joists and beams can slow the movement
of heated air and smoke, while pockets between them
can contain a reduced level of smoke. Take obstructions
created by girders, joists, beams, air conditioning ducts,
or
architectural
design
determining area protection. Refer to the Initiating
Devices chapter of NFPA Standard 72 for Location and
Spacing requirements for specific types of construction;
e.g. beam, suspended, level, sloped and peaked
ceilings. The detector is also compatible with the
following mechanical protection guard model: STI-9604
(see www.STI-USA.com for details).
Figure 1
into
consideration
when
SIEMENS Industry, Inc.
Smart Infrastructure
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Summary of Contents for Siemens OP921
- Page 1 High ceilings, located in churches, warehouses, square Drawings provided or approved by feet). auditoriums, etc., do affect detector response and should Siemens Industry, Inc., or by its authorized distributors be considered. are extremely important. The detector placements shown on these drawings were chosen after a careful SPECIAL CEILING CONSTRUCTION FACTORS evaluation of the area that is protected.
- Page 2 TEMPERATURE – HUMIDITY – PRESSURE - AIR WIRING VELOCITY The OP921 supports two operation modes: polarity The temperature range for the OP921 detector is 32 °F insensitive mode and isolator mode. The Detector can be (0 °C) to 100 °F (38 °C).
- Page 3 END OF LINE DEVICE TO NEXT BASE * OP921 is a polarity insensitive detector. Line 1 and Line 2 can be either line of the loop. ** The relay contacts are shown after System reset, which represents the non-alarm condition.
- Page 4 Siemens Industry, Inc. Siemens Canada Limited Smart Infrastructure Smart Infrastructure 8, Fernwood Road 2 Kenview Boulevard Florham Park, New Jersey 07932 Brampton, Ontario L6T 5E4 © Siemens Industry, Inc. www.siemens.com/buildingtechnologies Canada Data and design subject to change without notice. A6V10323928_c_en_-- P/N A5Q00041071...