KR101742071B1 - Fire monitoring system of fire fighting - Google Patents

Abstract

In the present invention, provided is a high-rise building fire monitoring system. The high-rise building fire monitoring system comprises: first fire sensors including information on a first unique location set by each floor of a first building and installed at a plurality of locations to sense a fire; second fire sensors installed at a plurality of locations in a second building to sense the fire; and a fire sensing control unit for sensing, through any one of the second fire sensors, a fire sensing signal from the first fire sensor in which an abnormality occurs when the abnormality occurs in one of the first fire sensors. The fire sensing signal sensed through any one of the second fire sensors uses the fire sensing signal from the first fire sensors included within a predetermined distance from the first fire sensor in which the abnormality occurs. According to the present invention, when a fault occurs in the fire sensors installed in the high-rise building, fire sensing information of other normal sensors positioned around the sensor having the fault is transmitted to a sensor positioned at a corresponding level of a neighboring building, thereby performing the fire sensing of a corresponding building without abnormality through a server located in another building in real time.

Description

{FIRE MONITORING SYSTEM OF FIRE FIGHTING}

The present invention relates to a fire alarm monitoring system for a high-rise building, and more particularly, to a fire alarm monitoring system for a fire alarm system in a high-rise building, Layer building fire safety monitoring system capable of transmitting fire detection of a high-rise building through a server located in another building in real time without any abnormality.

Generally, in a building space, a fire is detected by using a sensor such as a temperature sensor and a smoke sensor.

Conventionally, however, even if a fire is not generated due to a failure of a sensor for detecting various fires in a building space, it is recognized as a fire, and a device such as a sprinkler for fire suppression is driven to extinguish the fire. There is a problem that it is used unnecessarily.

Therefore, in the past, a problem has been solved by a method in which a sensor in which a failure in which various types of sensors are detected is replaced by an operator.

Therefore, in the past, when the sensor in which a failure occurs can not be immediately replaced, there is a problem in that fire can not be detected during the replacement time, and fire suppression is difficult.

Furthermore, in the case of a high-rise building, there is a problem that it is difficult to replace the sensor immediately when a sensor failure occurs at a certain level or higher, and it is more difficult to suppress the fire immediately.

A prior art related to the present invention is Korean Patent Laid-Open No. 10-2014-0145638.

SUMMARY OF THE INVENTION It is an object of the present invention to provide fire detection information of other normal sensors located around a sensor where a failure occurs in a fire detection sensor installed in a skyscraper, So that the fire detection of the high-rise building can be performed in real time without any abnormality through a server located in another building.

In a preferred embodiment, the present invention provides a firefighting fire surveillance system for a skyscraper building.

The fire alarm system of claim 1, further comprising: first fire detection sensors installed at a plurality of locations to detect a fire, And second fire detection sensors installed at a plurality of locations of the second building to detect a fire; A fire detector for detecting a fire detection signal from a first fire detection sensor in which an abnormality is generated when any one of the first fire detection sensors is abnormal, And a detection control unit,

A fire detection signal sensed through any one of the second fire detection sensors uses a fire detection signal from the first fire detection sensors included within a predetermined distance from the first fire detection sensor in which an abnormality occurs.

The fire detection control unit may include a first server included in the first building and receiving a fire detection signal from the first fire detection sensors and a second server that determines whether the first fire detection sensors are abnormal, A matching unit for matching any one of the first fire detection sensor and the second fire detection sensors in which an abnormality is generated; A second server for receiving a fire detection signal from the second fire detection sensors and a second server for receiving a fire detection signal from the first fire detection sensors within a predetermined distance from the first fire detection sensor, And a signal transmission unit for transmitting the signal to the server.

The signal transfer unit averages and transmits fire detection signals from the first fire detection sensors included within a predetermined distance.

The second fire detection sensors are installed at a plurality of locations with the second location information set therein.

The first position information and the second position information have a height equal to each other within a predetermined error range.

Wherein the second server transmits a fire detection signal from the first fire detection sensors located within a predetermined distance from the averaged sensor received from the signal transfer unit through an independent wireless signal transmission path, To the server.

In particular, the first server,

A fire detection signal in the first fire detection sensors located within a predetermined distance from the averaged sensor transmitted through the independent wireless signal transmission path,

The fire detection signals transmitted directly from the first fire detection sensors located within a predetermined distance from the abnormal sensor are averaged to be compared with each other, and if they are within the set error range, the independent wireless signal transmission path is blocked.

Wherein each of the first fire detection sensors is disposed in a wall formed in each of the layers and includes a plurality of unit sensors installed inside a case body having slits spaced up and down, So as to detect a fire.

Wherein the wall is formed with a receiving groove in which the case body is received, the wall is provided with a cylinder having a cylinder axis to be lifted, the cylinder axis being connected to an upper end of the case body, The cylinder axis of the cylinder is raised and lowered by the abnormality determination unit so that the slit exposing the remaining unit sensors except for the unit sensor that is judged to be abnormal is exposed in the outer space of the wall, Respectively.

In the present invention, when a failure occurs in fire detection sensors installed in a skyscraper, fire detection information of other normal sensors located in a vicinity of a sensor where a failure occurs is transmitted to a sensor located at a corresponding level in a neighboring building , A server located in another building can provide a high-rise building firefighting surveillance system capable of realizing fire detection of the high-rise building without any abnormality.

1 is a block diagram showing the configuration of a skyscraper fire-fighting fire monitoring system according to the present invention.
2 is a block diagram showing the configuration of a fire detection control unit of the present invention.
3 is a perspective view showing a state in which a fire detection sensor according to the present invention is installed in a case body.
4 and 5 are views showing an example in which the body according to the present invention is lifted and lowered.

Hereinafter, 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.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a high-rise building fire fighting fire monitoring system according to the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a skyscraper fire-fighting fire monitoring system according to the present invention. 2 is a block diagram showing the configuration of a fire detection control unit of the present invention. 3 is a perspective view showing a state in which a fire detection sensor according to the present invention is installed in a case body. 4 and 5 are views showing an example in which the body according to the present invention is lifted and lowered.

1 to 5, the skyscraper building fire fighting fire surveillance system of the present invention is provided with a first fire detection system installed at a plurality of locations with first location information unique to each building of the first building 1, The first fire detection sensors 100 and the second fire detection sensors 200 installed at a plurality of positions of the second building 2 to detect a fire and one of the first fire detection sensors 100 And a fire detection control unit 300 for detecting a fire detection signal from the first fire detection sensor in which an abnormality is generated through any one of the second fire detection sensors 200.

The fire detection signals sensed through any one of the second fire detection sensors 200 may include first fire detection sensors 100 included within a predetermined distance from the first fire detection sensor 100, A fire detection signal from a fire detector is used.

The fire detection control unit 300 includes a first server 310 included in the first building 1 and receiving a fire detection signal from the first fire detection sensors 100, An abnormality determination unit 320 for determining whether the sensors 100 are abnormal and determining the abnormality to be the first fire detection sensor 100 in which the abnormality occurs, A matching unit 330 for matching any one of the first fire detection sensors 200 and the second fire detection sensors 200; The second server 340 receives a fire detection signal from the first fire detection sensors 100 included within a predetermined distance from the first fire detection sensor 100 in which the abnormality is generated, (Not shown).

The signal transfer unit 350 averages and transmits fire detection signals from the first fire detection sensors 100 included within a predetermined distance.

The second fire detection sensors 200 are installed at a plurality of locations with the second location information set therein. The first position information and the second position information have a height equal to each other within a predetermined error range.

The second server 340 transmits a fire detection signal from the first fire detection sensors 100 located within a predetermined distance from the averaged sensor received from the signal transferring unit 350 to an independent wireless And transmits it to the first server 310 through the signal transmission path 400.

Particularly, the first server 310 may detect a first fire (hereinafter, referred to as " first fire detection ") located within a predetermined distance from the first fire detection sensor 100, A fire detection signal in the sensors 100 and a fire detection signal delivered directly from the first fire detection sensors 100 located within a predetermined distance from the first fire detection sensor 100 in which the abnormality is generated are averaged And intercepts the independent wireless signal transmission path 400 when the wireless signal transmission path 400 is within the set error range.

Each of the first fire detection sensors 100 includes a case body 500 disposed at a wall 10 formed in each of the layers and having upper and lower slits 510 formed at intervals, And is mounted on one body so as to be elevated and lowered.

And a plurality of unit sensors 110 are formed to be exposed to the outside by the slits 510 to detect a fire.

The wall 10 is formed with a receiving groove 11 through which the case body 500 is received and fixed.

In the wall 10, a cylinder 600 having a cylinder axis 610 to be elevated is installed.

The cylinder shaft 610 is connected to the upper end of the body 120.

The fire detection control unit 300 may detect that the unit sensor 110 other than the unit sensor 110 that is determined to be abnormal by the abnormality determination unit 320 among the plurality of unit sensors 110 is exposed The cylinder shaft 610 of the cylinder 600 is lifted and lowered so that the slit 510 is exposed to the outer space of the wall body 10 and the body 120 is lifted and lowered.

In addition, injection holes 520 are formed at the lower end of the case body 500 and the case body 500 is connected to the external water supply unit 700 through a tube 710.

The fire-fighting water supply unit 700 is driven by the fire detection control unit 300.

The fire-fighting water supply unit 700 may fire fire water through the injection ports 520 formed at the lower end of the case body 500 when the fire occurs, thereby suppressing the fire.

As described above, the concrete embodiment of the fire-fighting fire monitoring system of a skyscraper of the present invention has been described, but 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: first fire detection sensors
200: second fire detection sensors
300: Fire detection control unit

Claims (4)

First fire detection sensors installed at a plurality of locations to detect a fire, the first fire detection sensors having first unique location information set for each floor of the first building; And
Second fire detection sensors installed at a plurality of locations of the second building to detect a fire;
A fire detector for detecting a fire detection signal from a first fire detection sensor in which an abnormality is generated when any one of the first fire detection sensors is abnormal, And a detection control unit,
The fire detection signal sensed through any one of the second fire detection sensors includes:
A fire detection signal from the first fire detection sensors included within a predetermined distance from the first fire detection sensor,
The fire detection control unit,
A first server included in the first building and receiving a fire detection signal from the first fire detection sensors;
An abnormality determination unit for determining whether or not the first fire detection sensors are abnormal,
A matching unit for matching any one of the first fire detection sensor and the second fire detection sensor,
A second server included in the second building and receiving a fire detection signal from the second fire detection sensors;
And a signal transmission unit for transmitting a fire detection signal from the first fire detection sensors included within a predetermined distance from the first fire detection sensor to the second server,
Wherein the signal transfer unit comprises:
And a fire detection signal from the first fire detection sensors included within a predetermined distance is averaged and transmitted.
delete The method according to claim 1,
Wherein the second fire detection sensors are installed at a plurality of locations with the second location information unique to the second fire detection sensors,
Wherein the first position information and the second position information form a level equal to each other within a predetermined error range.
The method of claim 3,
Wherein the second server comprises:
A signal transmission unit,
A fire detection signal from the first fire detection sensors located within a predetermined distance from the first fire detection sensor,
And transmits the signal to the first server through an independent wireless signal transmission path.

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