Fire alarm systems provide a means to detect and identify a fire or a potential fire outbreak in a building, warn the occupants of the building about the fire via audible alarm and potentially notify emergency response professionals.
Smoke Detection
Measures the number of smoke particles in the air. Photoelectric & Ionization smoke detectors are used here.
Measures the rise of temperature within a given interval and the maximum temperature. This group includes rate-of-rise temperature detectors and fixed-temperature heat detectors.
Measures the radiation stemming from the fire (infrared, visible, ultraviolet). Infrared and ultraviolet flame detectors are mainly used in this instance.
SMOKE CUM MULTI DETECTOR: A device that sensing smoke and generate automatic alarm. Multi detector is used for sense smoke and heat both. A single device that can produce alarm if there was a smoke or heat generate cause of real fire.
MANUAL CALL POINT: MCP is a device that generate alarm that only used for manned operated. It is not a automatic device.
CONTROL PANEL: It a most important and intelligent device. All device pin point address , logic and other customized function store in control panel.
INPUT/OUTPUT MODULE: This devices are used for any 3rd party intrigrate and activate any safety control function. Its operation based on customized logic function.
BEAM DETECTOR: This device ideologically used in warehouse , where roof height is higher than standard height.
HEAT DETECTOR: A device that can sense rising of heat in a specified area and generate alarm. Fixed temperature warning or rate of rise against of certain time both are available .
LINE TYPE HEAT DETECTOR: Heat sense through a tube(stainless steal or cooper).
FLAME DETECTOR: A flame detectoris a sensor designed to detect and respond to the presence of a flame or fire, allowing flame detection. … A flame detector can often respond faster and more accurately than a smoke or heat detector due to the mechanisms it uses to detect the flame.