KR20090096566A - Control method of fire alarm system - Google Patents

Abstract

A control method of a fire alarm system is provided to efficiently save a life by accurately confirming a position of a human through a human detecting sensor when a fire occurs. A fire detecting sensor detects a fire of a fire alarm region, and generates a fire signal(S1). The fire detecting sensor is a heat detecting sensor. A laser induced generator displays a laser arrow on a floor of the fire alarm region according to the fire signal(S2). A human detecting sensor detects a human in the fire alarm region according to the fire signal(S3). The human detecting sensor is a heat detecting sensor or an infrared sensor. If the human is detected, the human detecting sensor generates a human detecting signal(S4). An LED corresponding to the fire alarm region is turned on according to the human detecting signal(S5).

Description

Control method of fire alarm system

The present invention relates to a control method of a fire alarm system.

Conventionally, an induction lamp or the like is provided in the interior of a building to display or guide an emergency exit or exit. However, since they use fluorescent lamps and light bulbs, as shown in the Daegu subway fire disaster, the fluorescent lamps or light bulbs are scattered and are not visible in the heavy smoke during actual fires, so it is impossible to find emergency exits or escapes. There were disadvantages that could increase casualties such as many accidents.

In addition, when a fire occurs, it is difficult to find the location of a person in the room where the fire occurred, so that effective life-saving activities are not achieved, which causes a lot of precious lives. Accordingly, there is a demand for a method capable of minimizing human injury.

An object of the present invention is to enable people to find the emergency exit position smoothly through the laser arrow in the event of a fire, and to accurately identify the position of the person through the human body sensor to help the rescuers to quickly and efficiently rescue lives It is to provide a control method of the alarm system.

In order to achieve the above object, the control method of the fire alarm system according to the present invention comprises a fire generation signal generating step of generating a fire occurrence signal by detecting a fire occurrence in the fire alarm region; A laser arrow display step of displaying a laser arrow of laser light on a bottom of the fire alarm area according to the fire occurrence signal; Detecting presence or absence of a human body in the fire alarm region according to the fire occurrence signal; Generating a human body detection signal when the presence of the human body is detected; And a light emitting diode lighting step of lighting a light emitting diode (LED) corresponding to the fire alarm region according to the human body detection signal.

The generation of the fire occurrence signal may be to generate the fire occurrence signal when the fire detection sensor of the fire alarm installed on the ceiling of the fire alarm region detects heat at a temperature capable of generating a fire.

The fire detection sensor may be a heat detection sensor.

The laser arrow display step may be to shine an arrow-shaped laser light to point the emergency exit on the floor of the fire alarm area when the laser induction generator installed in the fire alarm receives the fire generation signal.

The presence or absence of detecting a human body may include detecting whether the human body exists according to whether a human body sensor installed in the fire alarm detects heat or infrared rays of a temperature at which the human body exists.

The human body sensor may be a heat sensor or an infrared sensor.

The human body generating step may be to generate the human body detection signal when the human body sensor detects heat or infrared rays of a temperature at which the human body is present.

In the light emitting diode lighting step, the wireless transmitter installed in the fire alarm receives the human body detection signal to generate a wireless signal, and transmits the wireless signal to a plurality of wireless receivers installed on the outer wall of each of the fire alarm zone and the other fire alarm zone. Transmitting and generating, by the wireless receiver, a location information signal of a fire alarm installed in a fire alarm region in which the human body is located according to the wireless signal, and transmitting the location information signal to an external central receiving panel; And a light emitting diode installed corresponding to the fire alarm in which the human body is located in accordance with the position information signal in the structural layout including the light emitting diodes installed to correspond to the fire alarms in the area and other fire alarm areas. have.

The wireless signal may be a radio frequency (RF) signal.

The control method of the fire alarm system according to the present invention enables people to find the emergency exit position smoothly through the laser arrow when a fire occurs. In addition, the control method of the fire alarm system according to the present invention to accurately determine the position of the person through the human body sensor, enabling the rescue personnel to quickly and efficiently rescue lives. Therefore, the control method of the fire alarm system according to the present invention can minimize the damage to life when a fire occurs.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a flowchart showing a control method of a fire alarm system according to an embodiment of the present invention, Figure 2 is an exemplary view for explaining a control method of a fire alarm system according to an embodiment of the present invention, Figure 3a And 3b is another exemplary view for explaining a control method of a fire alarm system according to an embodiment of the present invention.

Referring to Figure 1, the control method of the fire alarm system according to an embodiment of the present invention is a fire generation signal generation step (S1), laser arrow display step (S2), the presence or absence of human body detection step (S3), human body detection signal A generating step S4 and a light emitting diode LED lighting step S5.

First, it is assumed that a fire has occurred in the fire alarm region 11 by taking FIG. 2 as an example. Here, the fire alarm region 11 refers to an area where the fire alarms 110 (110a, 110b, 110c, 110d) are installed, and may be a building or a subway.

The fire generation signal generating step S1 is a step of generating a fire generation signal by detecting a fire occurrence in the fire alarm region 11.

Specifically, in the fire generation signal generating step (S1), a fire detection sensor (not shown) built in the fire alarm 110 installed in the ceiling 11a of the fire alarm region 11 may generate a fire. When it detects heat of temperature, it generates a fire signal. Here, the fire alarm 110 may be formed to sound an alarm according to the fire occurrence signal, the fire detection sensor may be a heat detection sensor having a bimetal function.

The laser arrow display step S2 is a step of displaying the laser arrows 210 (210a, 210b, 210c, 210d) of the laser light on the bottom 11a of the fire alarm region 11 according to the fire occurrence signal.

Specifically, in the laser arrow display step (S2), when the laser induction generator (not shown) installed in the fire alarm 110 receives the fire generation signal, an emergency exit close to the bottom 11a of the fire alarm area 11. Shine an arrow shaped laser light to point to 310. Here, the laser induction generator may include a driving circuit for receiving the fire generation signal to generate laser light. Since the laser light has permeability and straightness, the laser light does not spread even in the thick smoke when a fire occurs so that people can easily recognize the laser light. Therefore, when a fire occurs, people can safely escape to the emergency exit 310 by the laser arrow 210 even in the thick smoke can reduce the human injury.

The detecting of the presence or absence of the human body (S3) is a step of detecting whether the human body exists in the fire alarm region 11 according to the fire occurrence signal.

Specifically, the human body presence detection step (S3) is the human body sensor (not shown) installed in the fire alarm 110 according to whether the human body is detected whether the heat or infrared rays of the temperature to know the presence of the human body This step detects the existence. Here, the human body sensor may be a heat sensor or an infrared sensor. The heat sensor detects the body temperature of the person, and the infrared sensor detects the person's movement, so that the movement of the person can be detected even in the thick smoke during a fire.

The human body detecting signal generating step S4 is a step of generating a human body detecting signal when the presence of the human body is detected. That is, in the generation of the human body detection signal (S4), when the human body detection sensor detects heat or infrared rays of a temperature at which the presence of the human body is known, the human body detection signal is generated.

The light emitting diode (LED) lighting step (S5) is a step of lighting a light emitting diode (LED) corresponding to the fire alarm region 11 according to the human body detection signal, taking the example of FIGS. 3A and 3B. Hereinafter, it is assumed that the human body detection signal is a signal having a meaning that the human body P exists in the fire alarm zone 11 of the third floor of the building among the first floor, the second floor, and the third floor of the building illustrated in FIG. 3A. Let's explain.

In the light emitting diode (LED) lighting step (S5), first, a wireless transmitter (not shown) installed in the fire alarm 110 receives the human body detection signal to generate a wireless signal, and the wireless signal to the fire alarm area (11) and a plurality of radio receivers (not shown) provided on the outer wall of each of the other fire alarm areas 12 and 13 located on the same floor as the fire alarm area 11. Here, the wireless transmitter may be a radio frequency (RF) transmitter and the wireless receiver may be an RF receiver, but the present invention is not limited thereto. The RF wireless transmitter may generate a radio signal by dividing the position of the fire alarm 110 installed in the fire alarm region 11 in which the human body P is located by the frequency from the human body detection signal, and the RF receiver The position of the fire alarm 110 installed in the fire alarm region 11 in which the human body P is located may be determined according to the frequency of the radio signal.

In addition, in the light-emitting diode (LED) lighting step (S5), the wireless receiver receives the location information signal of the fire alarm 110 installed in the fire alarm region 11 in which the human body (P) is located in accordance with the radio signal. It generates and transmits to an external central receiving panel (not shown). Here, the location information signal may include an identification number corresponding to the fire alarm 110 of the fire alarm region 11 in which the human body P is located. The central receiver may be implemented as a central control device such as a computer.

In addition, in the light emitting diode (LED) lighting step (S5), the central receiving panel is installed to correspond to the fire alarms (110, 120, 130) such as the fire alarm area 11 and other fire alarm areas (12, 13). In the structural layout including the diodes 110 ′, 120 ′ and 130 ′, the light emitting diodes 110 ′ corresponding to the fire alarm 110 in which the human body P is located are turned on according to the position information signal. Accordingly, the central receiving panel enables the rescuers to accurately grasp the position of the human body P (that is, the fire alarm region 11 of the third floor of the building) through the light emitting diodes lit in the structural layout. Thus, rescue workers can rescue people quickly and efficiently in the event of a fire.

As described above, the control method of the fire alarm system according to an embodiment of the present invention to enable people to find the emergency exit smoothly through the laser arrow even in the thick smoke, and to accurately identify the position of people through the human body sensor. By enabling rescue workers to quickly and efficiently save lives, life damage can be minimized.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, it is merely an example, and those skilled in the art that various modifications and equivalent other embodiments are possible. I can understand. Accordingly, the true scope of protection of the invention should be defined only by the appended claims.

1 is a flow chart showing a control method of a fire alarm system according to an embodiment of the present invention.

2 is an exemplary view for explaining a control method of a fire alarm system according to an embodiment of the present invention.

3a and 3b is another exemplary view for explaining a control method of a fire alarm system according to an embodiment of the present invention.

Claims (9)

Generating a fire occurrence signal by detecting a fire occurrence in the fire alarm region; A laser arrow display step of displaying a laser arrow of laser light on a bottom of the fire alarm area according to the fire occurrence signal; Detecting presence or absence of a human body in the fire alarm region according to the fire occurrence signal;  Generating a human body detection signal when the presence of the human body is detected; And And a light emitting diode lighting step of lighting a light emitting diode (LED) corresponding to the fire alarm region according to the human body detection signal. The method according to claim 1, The fire generation signal generating step And a fire detection signal generated by a fire detection sensor of a fire alarm installed on a ceiling of the fire alarm area to generate a fire signal. The method according to claim 2, The fire detection sensor is a control method of the fire alarm system, characterized in that the heat detection sensor. The method according to claim 2, The laser arrow display step When the laser induction generator installed in the fire alarm receives the fire generation signal, the control method of the fire alarm system, characterized in that the laser beam of the arrow shape that can point to the emergency exit on the bottom of the fire alarm area. The method according to claim 2, Detecting the presence of the human body is The control method of the fire alarm system, characterized in that the human body sensor installed in the fire alarm detects the presence of the human body in accordance with the detection of heat or infrared temperature of the temperature to know the presence of the human body. The method according to claim 5, The human body sensor is a control method of a fire alarm system, characterized in that the heat sensor or infrared sensor. The method according to claim 5, The human body generating step When the human body sensor detects heat or infrared rays of the temperature to know the presence of the human body, the control method of the fire alarm system, characterized in that for generating the human body detection signal. The method according to claim 2, The light emitting diode lighting step Receiving a human body detection signal by a wireless transmitter installed in the fire alarm, generating a wireless signal, and transmitting the wireless signal to a plurality of wireless receivers installed on outer walls of each of the fire alarm zone and the other fire alarm zone; Generating, by the wireless receiver, a location information signal of a fire alarm installed in a fire alarm region in which the human body is located according to the wireless signal, and transmitting the generated location information signal to an external central receiving panel; A light emitting diode installed in correspondence with the fire alarm in which the human body is located in accordance with the position information signal in the structural layout including the light emitting diode installed by the central receiving panel corresponding to the fire alarms of the fire alarm area and the other fire alarm areas. Control method of a fire alarm system comprising the step of. The method of claim 8, The wireless signal is a control method of a fire alarm system, characterized in that the RF (Radio Frequency) signal.

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