KR101702872B1 - Fires prevention control system - Google Patents

Abstract

The present invention relates to a building fire section-specific disaster prevention control system. The building fire section-specific disaster prevention control system includes: fire detection units installed in partitioned fire zones and detecting the occurrence of fires in the respective fire zones; a central monitoring unit electrically connected to the fire detection unit, a fire detection signal being transmitted from the fire detection unit to the central monitoring unit; a determination unit installed on a signal line for connection between the fire detection unit and the central monitoring unit and determining whether the fire detection signal is a normal signal or an abnormal signal by determining whether or not the fire detection signal transmitted through the signal line is in accordance with the preset normal signal; and an alternative signal unit transmitting the fire detection signal determined as the abnormal signal as a preset alternative fire detection signal for a set period of time in a case where the determination unit determines that the fire detection signal is the abnormal signal.

Description

FIELD PREVENTION CONTROL SYSTEM FIELD PREVENTION CONTROL SYSTEM

More particularly, the present invention relates to a disaster control system for each building fire partition, and more particularly, to a fire alarm control system for a fire alarm system that detects fire when a fire signal is transmitted to a central control unit, In case of a fault signal due to a fault or the like, it is replaced with a preset normal signal for a predetermined time, and the evacuation route is calculated in real time based on the information of the fire temperature and the remaining oxygen amount in the fire occurrence area, To a mobile communication device of a survivor located in a district.

Generally, in a conventional automatic fire fighting system, when a fire occurs due to a fire recognition method, each sensor contacts the corresponding contact point, and a relay is operated according to the presence or absence of a contact point. This is how the operation is performed.

That is, the conventional automatic fire fighting system is configured to detect the opening and closing of a gas valve, whether a gas is leaked, heat and the like, output an alarm bell, and operate a fire extinguisher to evolve a fire.

On the other hand, a sensor for detecting the occurrence of a fire usually transmits a signal to a central control unit through an electric signal line.

Conventionally, when an electric signal line is lost due to a fire or a failure occurs, there is a problem that a signal in an abnormal state is received as it is, and a post-action required for a fire suppression is performed erroneously.

In addition, conventionally, only the fire is detected, and evacuation information in the area can not be guided to people inside the building.

A prior art related to the present invention is Korean Patent No. 10-1467115.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fire alarm system and a fire alarm system in which when a fire is detected and a fire signal is transmitted to the central control unit, it is determined whether the fire alarm signal is a normal signal, A normal time, and a fire temperature and a remaining amount of oxygen in the area where the fire is generated, the evacuation route is calculated in real time and transmitted to the mobile communication device of the survivor located in the area And to provide an emergency disaster control system for each building fire area.

In a preferred embodiment, the present invention provides a disaster control system for each building fire area.

The fire prevention control system according to the constructional fire fighting zone is installed in fire zones divided from each other, and detects fire occurrence in each of the fire zones; A central monitoring unit electrically connected to the fire sensing unit and receiving a fire detection signal sensed by the fire sensing unit; And a control unit which is installed on a signal line connecting the fire detection unit and the central monitoring unit and judges whether the fire detection signal transmitted through the signal line matches a predetermined normal signal to determine a normal signal or an abnormal signal A determination unit; And a replacement signal unit for transmitting a fire detection signal, which is determined to be the abnormal signal, to the predetermined alternate fire detection signal for a predetermined time when the determination unit determines that the fire detection signal is the abnormal signal.

In each of the fire-fighting zones, a plurality of the fire-sensing units are installed.

The plurality of fire detection units are electrically connected to the central monitoring unit through the plurality of signal lines independently of each other.

A switch is provided in each of the plurality of signal lines.

Wherein the alternative signal unit transmits a fire detection signal determined to be the abnormal signal to a predetermined alternate fire detection signal for a predetermined time and then transmits the fire alarm to the fire monitoring unit adjacent to the fire monitoring unit and the central monitoring unit, Turn on the switch and connect it electrically.

In each of the fire zones, rails along different directions are installed.

The plurality of fire detection units are movably installed on each of the rails.

The central monitoring unit drives the linear motors included in each of the rails to move the position of each of the plurality of fire detection units.

Each of the fire-fighting zones is provided with an image sensor for acquiring an image of each of the fire-fighting zones and calculating the temperature distribution by image-processing the image.

The central monitoring unit moves each of the plurality of fire detection units installed at a position below a predetermined reference temperature in the temperature distribution.

Each of the signal lines is disposed inside a protective tube formed of a non-combustible material.

The protective pipe is formed in multiple so as to form a passage therein.

The flow path is connected to the cooling water circulation unit.

The cooling water circulating unit circulates the cooling water having the set cooling temperature through the oil passage.

Each of the fire-fighting zones is provided with a temperature sensor for measuring the fire temperature and an oxygen sensor for measuring the remaining oxygen amount.

The central monitoring unit receives the measured fire temperature and the measured remaining oxygen amount. A region which is equal to or higher than a predetermined reference temperature and a reference oxygen amount is selected,

When a plurality of regions are formed, a map is formed to connect the plurality of regions to each other,

The configured map is transmitted to a survivor's wireless communication device located in the fire zones using a wireless communication scheme to visualize the map.

In the present invention, when a fire is detected, when a fire signal is transmitted to the central control unit by detecting it, it is determined whether the signal is a normal signal. If the signal is a failure signal due to a device failure or the like, , The evacuation route can be calculated in real time and transmitted to the mobile communication device of the survivor located in the corresponding area based on information such as the fire temperature and the remaining oxygen amount in the area where the fire occurs .

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a view showing the construction of a fire prevention control system for each building fire fighting zone according to the present invention. FIG.
2 is a view showing an example in which a cooling water circulation unit according to the present invention is provided.
FIG. 3 is a flowchart showing a disaster prevention control method for each building fire partition according to the present invention.
FIG. 4 is a flowchart showing an example in which a fire monitoring unit in which an abnormal signal is generated, and another fire monitoring unit neighboring to the fire monitoring unit are electrically connected by switching on the central monitoring unit.

The embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention.

The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Hereinafter, the term "an upper (or lower)" or a "top (or lower)" of the substrate means that any structure is disposed or arranged in any manner, as long as any structure is provided or disposed in contact with the upper surface .

Furthermore, the present invention is not limited to a configuration that does not include any other configuration between the substrate and any configuration provided or disposed on (or under) the substrate.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fire fighting control system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a view showing an example in which a cooling water circulation unit according to the present invention is provided. FIG. 3 is a view showing an example of a fire prevention control system according to the present invention, FIG. 4 is a flowchart showing an example in which a fire monitoring unit in which an abnormal signal is generated and another fire monitoring unit in the neighborhood of the fire monitoring unit are electrically connected by switching on the central monitoring unit.

Referring to FIGS. 1 to 4, a fire prevention control system for each building fire partition is installed in fire protection zones separated from each other, and includes a fire detection unit 100 for detecting fire occurrence in each of the fire protection zones, A central monitoring unit 200 electrically connected to the fire detection unit 100 and receiving a fire detection signal sensed by the fire detection unit 100 and a central monitoring unit 200 connected to the fire detection unit 100 and the central monitoring unit 200 A determination unit (not shown) for determining whether the fire detection signal transmitted through the signal line 300 corresponds to a predetermined normal signal and determining a normal signal or an abnormal signal, And a control unit 400 for controlling the control unit 400 to output a fire detection signal, which is determined to be the abnormal signal, to a predetermined alternate fire detection signal for a predetermined time, when the fire detection signal is determined to be the abnormal signal And an alternative signal unit 500 for transmitting the signal.

In each of the fire-fighting zones, a plurality of the fire-sensing units 100 are installed.

The plurality of fire detection units 100 are electrically connected to the central monitoring unit 200 through the plurality of signal lines 300 independently of each other.

A switch 310 is provided in each of the plurality of signal lines 300.

The alternative signal unit 500 transmits a fire detection signal determined as the abnormal signal to a predetermined alternate fire detection signal for a predetermined time and then transmits the fire alarm to the fire monitoring unit 100 where the abnormal signal is generated, Unit 100 and the central monitoring unit 200 are turned on and electrically connected.

In each of the fire-fighting zones, rails 10 along different directions are installed.

The rails 10 have an X-axis rail installed at the ceiling portion of the fire-fighting area and a Y-axis rail moved along the X-axis direction at the X-axis rail.

The fire sensing units 100 are moved along the Y axis at the upper end of each of the Y-axis rails.

Each of the fire sensing units 100 is moved to a predetermined XY position along the X-axis rail and the Y-axis rail by driving each of the linear motors 20.

The plurality of fire detection units 100 are installed movably in each of the rails 10.

The central monitoring unit 200 drives the linear motors 20 provided on each of the rails 10 to move the position of each of the plurality of fire sensing units 100 installed.

Each of the fire-fighting zones is provided with an image sensor (not shown) for capturing an image of each of the fire-fighting zones and calculating the temperature distribution by image-processing the image.

The central monitoring unit 200 moves each of the plurality of fire detection units 100 to a position that is equal to or lower than a predetermined reference temperature in the temperature distribution.

Each of the signal lines 300 is disposed inside a protective pipe 320 formed of a non-combustible material.

The protective pipe 320 is formed in multiple so as to form a passage therein.

The flow path is connected to the cooling water circulation unit 600.

The cooling water circulating unit (600) circulates the cooling water having the set cooling temperature through the oil passage.

The cooling water circulation unit 600 includes a circulation pipe 610 for connecting both ends of the protection pipe 320 and a cooling unit 610 installed on the circulation pipe 610 for circulating the cooling water, (620).

Although not shown in the drawings, each of the fire-fighting zones is provided with a temperature sensor for measuring the fire temperature and an oxygen sensor for measuring the remaining oxygen amount.

The central monitoring unit 200 receives the measured fire temperature and the measured remaining oxygen amount. An area which is equal to or higher than a predetermined reference temperature and a reference oxygen amount is selected.

And, when the area has a plurality of areas, a map connecting the plurality of areas is formed.

The configured map is transmitted to a survivor's wireless communication device located in the fire zones using a wireless communication scheme to visualize the map.

According to the above-described structure and operation, in the case where a fire is generated, when the fire signal is transmitted to the central control unit upon detecting a fire, it is determined whether the signal to be delivered is a normal signal, It is assumed that the failure signal is replaced with a preset normal signal for a predetermined period of time and the evacuation route is calculated in real time based on the information such as the fire temperature and the remaining oxygen amount in the area where the fire occurs, To the survivor's mobile communication device.

Although specific embodiments of the disaster control system for each building fire department according to the present invention have been described, it is apparent that various modifications can be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100: Fire detection unit
200: central monitoring unit
300: signal line
400:
500: Alternate signal section

Claims (4)

A fire detection unit installed in fire-fighting zones partitioned from each other, and detecting fire occurrence in each of the fire-fighting zones;
A central monitoring unit electrically connected to the fire sensing unit and receiving a fire detection signal sensed by the fire sensing unit;
And a control unit which is installed on a signal line connecting the fire detection unit and the central monitoring unit and judges whether the fire detection signal transmitted through the signal line matches a predetermined normal signal to determine a normal signal or an abnormal signal A determination unit; And
And an alternative signal unit for transmitting a fire detection signal determined as the abnormal signal to a predetermined alternate fire detection signal for a predetermined time when the determination unit determines that the fire detection signal is the abnormal signal,
In each of the fire zones,
A plurality of fire detection units are provided,
Wherein the plurality of fire detection units are electrically connected to the central monitoring unit through the plurality of signal lines independently of each other,
Switches are provided in the plurality of signal lines, respectively,
The alternate signal portion includes:
After transmitting the fire detection signal determined as the abnormal signal to the predetermined alternate fire detection signal for a predetermined time,
The fire monitoring unit, which is adjacent to the fire monitoring unit in which the abnormal signal is generated, and the central monitoring unit are electrically connected by turning on the switch,
In each of the fire-fighting zones, rails along different directions are installed,
Wherein the plurality of fire detection units are installed movably in each of the rails,
The central monitoring unit,
The linear motors provided in each of the rails are driven to move the position of each of the plurality of fire sensing units,
Wherein each of the fire-fighting zones is provided with an image sensor for acquiring an image of each of the fire-fighting zones and calculating the temperature distribution by image-processing the image,
The central monitoring unit,
Wherein each of the plurality of fire detection units is moved to a position at a predetermined reference temperature or lower in the temperature distribution,
Each of the fire-fighting zones is provided with a temperature sensor for measuring a fire temperature and an oxygen sensor for measuring a remaining oxygen amount,
The central monitoring unit receives the measured fire temperature and the measured remaining oxygen amount. A region which is equal to or higher than a predetermined reference temperature and a reference oxygen amount is selected,
When a plurality of regions are formed, a map is formed to connect the plurality of regions to each other,
Wherein the map is transmitted to a wireless communication device of a survivor located in the fire zones using a wireless communication method to visualize the map.
delete delete The method according to claim 1,
Each of the signal lines includes:
And is disposed inside a protective tube formed of a nonflammable material,
The protection tube is formed in multiple so as to form a passage therein,
The flow path is connected to the cooling water circulation unit,
The cooling water circulation unit,
And cooling water having a predetermined cooling temperature is circulated through the flow path.

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