KR20170072722A - Fire line management system and method for managing fire fighting facilities using mobile terminal - Google Patents

Abstract

The present invention relates to a fire fighting system management system and method using a mobile terminal, wherein the fire fighting system management system includes a barcode chip including unique information of at least one fire fighting facility in the building and attached adjacent to the corresponding fire fighting facility, A barcode reader for reading the barcode chip to obtain the unique information, and a barcode reader for reading the barcode chip from the barcode chip, And a mobile terminal for inquiring the management server about information on the fire fighting equipment.

Description

FIELD LINE MANAGEMENT SYSTEM AND METHOD FOR MANAGING FIRE FIGHTING FACILITIES USING MOBILE TERMINAL

The present invention relates to a fire fighting facility management technology, and more particularly, to a fire fighting fire fighting system that stores information related to a fire fighting facility in a building in a management server, attaches a barcode chip to a fire fighting facility installed in the building, By reading and managing the relevant information to the management server, it is possible to inquire and control the relevant information from the remote management server in case of a fire or the like, as well as construction and maintenance, The present invention relates to a fire fighting equipment management system and method.

Generally, fire-fighting facilities are fire-extinguishing facilities such as sprinklers that operate in case of fire in buildings, alarm facilities such as detection and broadcasting, evacuation facilities such as guide lights, fire-fighting water facilities such as pumps, emergency outlets or smoke- Equipment, etc., and all the fire-fighting objects are strictly regulated by the Fire Service Act for installation and maintenance of fire-fighting facilities. In recent years, not only office buildings but also residential buildings such as apartments have become large-scale and large-scale, and the construction of fire-fighting facilities is becoming complicated. Therefore, there is a demand that the construction and management of building standards and disaster prevention systems should be accurately known have.

In order to meet such a demand, a fire extinguishing piping design system and a construction method using the fire extinguishing piping system have been proposed in, for example, Korean Patent Registration No. 10-1356969 (published on Jan. 29, 2014). According to this, the fire extinguishing pipe is designed three-dimensionally and then the RFID chip is provided to the designed fire extinguishing pipe. By attaching the same RFID chip to the pipe unit of the block unit, the control unit reads the RFID chip at the time of construction, To ensure that the fire extinguisher is correctly installed. Accordingly, the fire extinguishing piping block having a complicated shape and various components can be installed relatively quickly and accurately.

However, there is a demand that the fire-fighting equipment should not only be properly maintained, but also must operate correctly in the event of a fire or the like. For example, in the past, maintenance of fire fighting equipment has been very difficult, which is further exacerbated by the construction of complex fire fighting pipelines. For example, if a particular sprinkler is found to be malfunctioning, the operator must uncover the ceiling of the nearby ceiling and check the operation of all nearby fire pipe and valves in order to identify the malfunction of the sprinkler. This is time consuming, costly and inefficient.

Meanwhile, in recent years, automatic fire detection equipment has been installed in connection with the fire fighting equipment in the building. The automatic fire detection system detects the fire based on the operation status of the fire extinguishing system installed in the building and the temperature detection information or the gas detection information obtained through various sensors, Type receiver board, etc.). The manager resident in the management room can respond by checking the malfunction or the like and controlling the operation of the valve, the pump, and / or the alarm sounding device based on the information transmitted to the reception unit. However, it is difficult for the manager to always be in the management room, and when the manager is far from the reception desk, it is difficult to quickly respond to the fire detection information arriving at the reception desk.

Therefore, the user can inquire information related to the fire-fighting equipment promptly and promptly, if necessary, in case of usual maintenance of the fire-fighting equipment and also in case of fire, etc., The demand still exists.

Korean Patent No. 10-1356969 (issued on January 29, 2014)

The present invention relates to a fire extinguishing system that stores information related to fire fighting equipment in a building in a management server, attaches a barcode chip to a fire fighting facility installed in a building, reads a barcode chip to a mobile terminal, It is possible to provide a fire extinguishing equipment management system and method using a new mobile terminal that enables a user to promptly and accurately respond to relevant information from a remote management server in the event of a fire such as construction and maintenance as well as construction and maintenance The purpose is to provide.

This object is achieved by a fire fighting system management system and method using a mobile terminal provided according to the present invention.

A fire fighting facility management system using a mobile terminal provided according to an aspect of the present invention is a fire fighting facility management system comprising: a barcode chip including unique information of at least one fire fighting facility in a building and attached adjacent to a corresponding fire fighting facility; A fire fighting facility management server for storing information related to the fire fighting equipment in association with unique information included in the barcode chip; and a control unit for reading the barcode chip to acquire the unique information and associating with the unique information obtained using the wireless communication network And a mobile terminal for inquiring the management server about information on the fire fighting equipment.

The system of claim 1, further comprising a fire control system controller for sensing and controlling information about the fire fighting equipment in the building, wherein the mobile terminal receives a control command for controlling the operation of the fire fighting equipment from a user, To the management server, the management server transmits a control command received from the mobile terminal to the fire-fighting equipment controller, and when the fire-control facility controller receives a control command from the management server, The operation of the fire fighting equipment can be controlled according to

The fire fighting equipment controller may further comprise an automatic fire detection facility including a P-type receiver or R-type receiver that senses and controls information about the fire fighting equipment in the building, And a signal converter for converting the server signal received from the management server into a corresponding signal for transmission to the automatic fire detection system.

The management server registers the users of the plurality of mobile terminals as a group and receives the information inquiry request for the specific fire fighting equipment from the mobile terminal, To the mobile terminal.

Furthermore, the management server registers a user of at least one mobile terminal, receives fire detection information from a reception unit of an automatic fire detection facility installed in association with the fire protection facility in real time, receives the fire detection information from a reception unit of the automatic fire detection facility And to send fire alarm information to the registered user's mobile terminal based on the detected fire detection information.

According to an aspect of the present invention, there is provided a method of managing a fire fighting facility using a mobile terminal, the method comprising: attaching a barcode chip including unique information of at least one fire fighting facility in a building adjacent to the corresponding fire fighting facility; Storing information related to the fire fighting equipment in association with unique information included in the bar code chip in a fire fighting facility management server; and reading the bar code chip to acquire the unique information and using the wireless communication network And querying the management server for information on the fire fighting equipment associated with the unique information obtained by the process.

The method of claim 1, wherein the mobile terminal receives a control command from a user for controlling the operation of the fire fighting equipment and transmits an input control command to the management server, The method comprising the steps of: transmitting a command to a fire control system controller that senses and controls information about fire extinguishing facilities in the building; and when the fire control system controller receives a control command from the management server, And controlling the operation.

The management server registers the users of the plurality of mobile terminals as a group. When the management server receives the information inquiry request for the specific fire fighting equipment from the mobile terminal, To all mobile terminals in the same group as the mobile terminal.

Further comprising: registering a user of the at least one mobile terminal and receiving fire detection information in real time from a reception unit of an automatic fire detection facility installed in association with the fire protection facility; And transmitting the fire alarm information to the registered user's mobile terminal based on the received fire detection information.

According to the present invention, the fire-fighting equipment-related information is stored in the management server, and the fire-fighting equipment is equipped with the barcode chip including the location and the standard information of each fire-fighting equipment. Therefore, By reading the chip, the management server can inquire related information about the desired fire fighting equipment.

As a result, when constructing fire fighting facilities, third parties such as installers and supervisors in the field as well as firefighters who are not on the spot can check the construction process at any time through a mobile terminal such as a smart phone This allows the construction process to be transparent, reliable, and fair.

Further, in the present invention, the manager reads the bar code chip to the mobile terminal during normal maintenance and maintenance of the fire fighting equipment, easily confirms the type, position and size information of the fire fighting equipment and inquires the remote management server for additional information such as 3D installation information I can do it.

Further, according to the present invention, the manager can input control commands such as a valve switch, a pump switch, an alarm sound switch, and the like, which are associated with the specific fire fighting equipment, to the mobile terminal and transmit them to the management server. A control command may be received at the management server and the management server may forward the received control command to a fire fighting equipment controller (e.g., comprising a receiver of the signal converter and automatic fire detection equipment) The operation of the fire fighting equipment can be controlled according to the command. In this manner, the manager can easily check the operation of the desired fire fighting equipment remotely using the mobile terminal.

Furthermore, the present invention can be applied to a case where a fire official and / or a general user is promptly notified of a fire alarm sound, evacuation guidance information, etc. from a remote management server in the event of a fire, Lt; / RTI >

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view illustrating an exemplary configuration of a fire fighting system management system using a mobile terminal according to an embodiment of the present invention; FIG.
2 is a flowchart illustrating an exemplary flow of a fire fighting facility management method using a mobile terminal according to an embodiment of the present invention.
3 is a schematic diagram illustrating an exemplary configuration of a fire fighting system management system using a mobile terminal according to an embodiment of the present invention.
FIG. 4 is a flowchart illustrating an exemplary flow of a fire fighting facility management method using a mobile terminal according to an embodiment of the present invention. FIG.
5 is a schematic view illustrating an exemplary operation of a fire fighting system management system using a mobile terminal according to an embodiment of the present invention;
FIG. 6 is a schematic diagram illustrating an exemplary operation of a fire fighting system management system using a mobile terminal according to an embodiment of the present invention; FIG.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The following description and drawings are only for illustrative purposes and are not intended to limit the scope of the invention. In other words, it is to be understood that the embodiments described below can be modified in various ways when they are implemented in the field, and if they are within the technical idea of the present invention, they should belong to the present invention. To be readily understood by those skilled in the art of marine technology.

1 is a schematic diagram illustrating an exemplary configuration of a fire fighting system management system using a mobile terminal according to an embodiment of the present invention. Referring to FIG. 1, a fire fighting system management system 100 using a mobile terminal according to an aspect of the present invention is illustrated. The fire fighting equipment management system 100 includes a management server 110, a fire fighting facility controller 120 connected to the fire fighting facility 130, a barcode chip 140 attached to the fire fighting facility 130, and a mobile terminal 150 do.

The fire fighting facility management server 110 is a management server that remotely manages information related to the fire fighting equipment 130 installed in the building. In particular, various information related to the fire fighting equipment 130 installed in the building is provided to the barcode chip 140 , And in association with the unique information included in the QR code form. Such a management server 110 may include, for example, a mobile web server that can interact with the mobile terminal 150 over the wireless Internet.

The fire fighting equipment controller 120 is a device for controlling each part of the fire fighting equipment 130 installed in the building. The fire-fighting equipment is equipped with various sensors and operation switch control devices such as a temperature sensor, a gas sensor, opening / closing operation of the valve, operation of a speaker for broadcasting an alarm sound, operation of a pump, They are connected to the fire-fighting equipment controller 120 installed in the building management room through a cable or a wireless communication network, thereby allowing an administrator residing in the management room to integrally control and control the fire-fighting equipment in the building.

The barcode chip 140 includes unique information for identifying each of the fire fighting equipment such as a specific pipe, a valve, a pump, a switch, or a sensor by using a one-dimensional barcode or a two-dimensional barcode such as a QR code. The barcode chip 140 may be attached adjacent to piping, valves, pumps, switches, or sensors corresponding to the unique information contained therein. Alternatively, or additionally, it may be collectively attached to facility facilities, guide maps, etc., which distinguishably display the respective fire fighting facilities in locations within the building corresponding to these facilities (for example, in the fire fighting equipment management room). The barcode chip 134 may be manufactured when the fire fighting equipment is installed for the first time, or may be manufactured and provided during the maintenance process.

In particular, the barcode chip 140 for identifying the specific fire fighting equipment may further include data such as simple information related to the corresponding fire fighting equipment, such as installation location and size information of the corresponding fire fighting equipment, in addition to the unique information identifying each fire fighting equipment . For example, since a two-dimensional barcode such as a QR code can contain a relatively large amount of information, the barcode chip 134 can include a relatively large amount of data.

The mobile terminal 150 can read the bar code chip 140 attached to the fire extinguishing system 130 according to the present invention and obtain the unique information of the fire extinguishing system. In addition, the mobile terminal 150 transmits information on the fire fighting equipment associated with the acquired unique information to the fire fighting equipment management system using a wireless communication network including wireless Internet such as WiFi, WiBro, LTE, And can inquire the server 110.

For example, the mobile terminal 150 may be a smartphone that is now in widespread use. In this case, the user of the smartphone downloads and installs an application for performing the functions according to the present invention from the fire fighting facility management server 110 or the separate application providing site to use the smartphone of the user as the mobile terminal according to the present invention . Although the mobile terminal according to the present invention can be implemented as a smart phone, the present invention does not need to be limited to a smart phone, and a computing device capable of performing the characteristic functions of the present invention such as a tablet PC, A computer, a dedicated device, or the like.

Further, according to the embodiment of the present invention, the information related to the fire fighting equipment stored in association with the unique information included in the bar code chip 140 by the fire fighting facility management server 110 is, as in the example shown in FIG. 1, (DB) 111, an installation information database (DB) 113, a configuration information database (DB) 115, a three-dimensional (3D) information database (DB) 117, (119).

In particular, the fire fighting equipment DB 111 includes name and standard information of each fire fighting equipment associated with the unique information contained in the barcode chip 140. The installation information DB 113 includes installation information of each fire fighting equipment associated with unique information included in the barcode chip 140. [ The shape information DB 117 includes three-dimensional (3D) geometric shape information of each fire fighting equipment associated with the unique information included in the barcode chip 140.

On the other hand, the 3D information DB 117 includes 3D information associated with the unique information included in the barcode chip 140. This information is stored in the fire prevention equipment DB, the installation information DB, and the type information DB, It is possible to generate the three-dimensional shape of the facility, and then install the respective fire-fighting facilities of the generated three-dimensional shape in a virtual building space, and generate 3D geometry information and attributes of the installed fire-fighting facilities. Such 3D information can help the user of the mobile terminal 150 intuitively grasp the fire fighting equipment, for example, to facilitate the work during the construction of the fire fighting facility.

The control information DB 119 includes control information related to the state or operation of the fire fighting equipment in association with the unique information included in the barcode chip 140. [ This may be control information to be provided to the fire fighting equipment controller 120 to control the state or operation of each fire fighting equipment in response to the control command received from the mobile terminal 150. [

According to a preferred embodiment of the present invention, the fire fighting facility management server 110 can receive data from the fire fighting facility controller 120 connected to the building fire fighting facility and transmit a control command.

To this end, the fire fighting equipment controller 120 may include a facility, also referred to as an automatic fire detection facility. This generally includes an alarm facility that detects heat, smoke, and flame generated in the early stage of a fire to notify persons concerned with the fire fighting equipment or residents of the associated building to sound equipment in order to prevent human and material accidents caused by the fire.

In addition, the automatic fire detection facility may include an electric facility required for the fire department and the fire extinguishing activity by inducing an interested person to intervene in the fire extinguishing facility to enable the initial fire extinguishing and operate the evacuation facility to evacuate the occupant to a stable place. It is classified into a P-type facility (straight line type) and an R-type facility (multiple communication type) depending on the signal system, and is usually installed in correspondence with one building or a plurality of collectively managed buildings.

In addition, the fire fighting equipment controller 120 has a function of exchanging signals with the management server 110. Fire fighting equipment controller 120 may be installed in a management room of a building, for example, to control fire fighting facilities in the building, and may transmit and receive data and / or control command signals to and from the management server 110 via a communication network such as a wired or wireless Internet have. When the fire control system controller 120 includes a P-type or R-type receiver of the automatic fire detection system, the fire control system controller 120 converts the signal of the receiver of the automatic fire detection system and transmits / And a signal converter for converting the signal into a signal capable of being received.

In accordance with an embodiment of the present invention, a user with mobile terminal 150 may interact with fire station controller 120 via a management server 110. In other words, on the one hand, the mobile terminal 150 may receive fire detection data sensed by the fire fighting equipment controller 120 via the management server 110. On the other hand, the mobile terminal 150 may transmit control commands of the fire fighting equipment to the fire fighting equipment controller 120 via the management server 110. [ Accordingly, even when the manager of the building fire fighting facility is far away from the fire fighting facility controller 120 installed in the management room, the fire detection information detected by the fire fighting facility controller 120 is quickly received by the mobile terminal 150 in real time And it is possible to cope efficiently by transmitting an appropriate control command in response thereto.

Further, according to the embodiment of the present invention, the management server 110 can simultaneously transmit the same information to the users of a plurality of mobile terminals concerned. In other words, for example, when a plurality of persons related to the fire fighting equipment (for example, a construction worker, a supervisor, a client, a building owner, etc.) are registered as a group, the construction worker on the site, You can ask for information on specific fire fighting equipment. In response, the management server can transmit corresponding related information to all the mobile terminals of the same group as the mobile terminal 150 of the worker who has requested the inquiry. As a result, for example, in the process of constructing the fire-fighting facilities in the building, it is possible to provide the status of the construction such as how much the construction has progressed at present, as well as the remote workers in the field, in addition to the field workers.

Further, according to the embodiment of the present invention, after the management server 110 receives the fire detection signal from the fire control system controller 120 via the wired / wireless communication network, the management server 110 transmits the alarm information to the mobile terminal 150 Lt; / RTI > For example, the fire fighting facility management server 110 may register users of at least one mobile terminal 150. Then, the fire fighting facility management server 110 can receive fire detection information in real time from the fire fighting facility controller 120 installed in association with the fire fighting facility. The management server 110 may be operable to send fire alerting information to the registered user's mobile terminal 150, such as when a fire is detected, based on the received fire detection information. This provides the advantage that in real-time fire information received from the fire fighting equipment controller 120, for example, in the event of a fire being detected, can be quickly provided to the general resident of the building in addition to the manager.

According to the present invention, the fire-fighting equipment-related information is stored in the management server, and the fire-fighting equipment is equipped with the barcode chip including the position and the standard information of each fire-fighting equipment. Therefore, By reading the barcode chip into the mobile terminal, the related information can be inquired to the management server. As a result, when constructing fire fighting facilities, third parties such as installers and supervisors in the field as well as firefighters who are not on the spot can check the construction process at any time through a mobile terminal such as a smart phone This allows the construction process to be transparent, reliable, and fair.

Further, in the maintenance of the fire fighting system, the present invention reads the bar code chip to the mobile terminal, thereby easily identifying the type, position, and standard information of the fire fighting equipment and appropriately responding thereto. Furthermore, it is an object of the present invention to provide a fire alarm system, a fire alarm system, a fire alarm system and a fire alarm system, which are capable of promptly and accurately responding to relevant information such as a fire alarm sound, Effect can be provided.

2 is a flowchart illustrating an exemplary flow of a fire fighting facility management method using a mobile terminal according to an embodiment of the present invention. Referring to FIG. 2, a flow of a method 200 for managing a fire fighting facility using a mobile terminal that can be executed in the system shown in FIG. 1 is illustrated. The exemplary fire fighting facility management method 200 includes an information storage step 210, a barcode reading step 220, an information inquiry step 230, a display step 240, a control command transmission step 250-270, A control step 280 may be included.

The information storage step 210 includes the steps of attaching a barcode chip including unique information of at least one fire fighting equipment in the building adjacent to the corresponding fire fighting equipment, In association with the unique information included in the barcode chip. In other words, the information storage step 210 stores information on the barcode chip and the management server.

Here, the barcode chip is attached to a building, which is a site where fire fighting equipment is to be installed, installed, and / or installed. The barcode chip includes unique information that uniquely identifies at least a specific fire fighting equipment in the form of a two-dimensional barcode such as a QR code. In addition to identification information, the bar code chip may further include standard information of the fire fighting equipment and installed location information.

On the other hand, the management server can be, for example, a server computer device that can include a mobile web server that can exchange information with a plurality of mobile terminals on the wireless Internet. Various information associated with the fire fighting equipment can be stored in the management server corresponding to the unique information of the fire fighting equipment stored in the barcode chip. For example, the management server is information related to the fire fighting equipment associated with the unique information included in the barcode chip, including name and standard information of the fire fighting equipment; Installation information of fire fighting equipment; Three-dimensional (3D) geometric shape information of fire fighting equipment; And 3D information indicating a state in which the fire-fighting equipment of the three-dimensional shape generated based on these pieces of information is installed in the virtual building space.

The barcode reading step 220 is a step of reading the barcode chip at the mobile terminal. The mobile terminal may be, for example, a smart phone owned by an operator who installs fire fighting equipment. The mobile terminal may be, for example, a smart phone owned by a manager who maintains fire fighting facilities. The mobile terminal has a reading function of a two-dimensional bar code such as a QR code. A smartphone which has been popularized recently has a built-in QR code reading function. Thus, when the mobile terminal is a smart phone, the bar code reading function can be implemented without additional cost. The mobile terminal obtains the unique information encoded by the bar code by reading the bar code included in the bar code chip.

Then, in an information inquiry step 230, the mobile terminal uses the wireless communication network such as WiFi or LTE (Long Term Evolution) to obtain information about the fire fighting equipment associated with the acquired unique information You can query the management server. The management server may receive the unique information obtained from the barcode chip from the mobile terminal and then transmit the information related to the fire fighting equipment stored in association with the unique information to the mobile terminal.

Then, in a display step 240, the mobile terminal displays information related to the fire fighting equipment received from the management server by using an output device such as a display, a speaker, and / or a vibration device, can do. The user can accurately grasp the current situation through the displayed information.

In the control command transmission step 250 to 270, the user remotely transmits a control command for controlling the operation of the fire fighting equipment. In other words, the user can input a control command to the mobile terminal (250). Then, the mobile terminal can transmit the control command inputted by the user to the management server (260). The management server may transmit the control command received from the mobile terminal to the fire fighting equipment controller (270). Thus, in the operation control step 280, the fire fighting equipment controller controls the operation of the fire fighting equipment based on the received control command.

3 is a schematic diagram illustrating an exemplary configuration of a fire fighting system management system using a mobile terminal according to an embodiment of the present invention. Referring to FIG. 3, a fire fighting system management system 300 using a mobile terminal according to an aspect of the present invention is illustrated. The fire protection facility management system 300 includes a management server 310, a signal converter 320, a reception unit 330 of an automatic fire detection facility connected to the fire protection facility 340, a barcode chip 350 attached to the fire protection facility 340, , And a mobile terminal (360).

The management server 310 is a management server that remotely manages information related to the fire fighting equipment 340 installed in the building. In particular, various information related to the fire fighting equipment 340 installed in the building can be provided to the barcode chip 350, And stores it in association with the unique information. Such a management server 310 may include a mobile web server capable of interacting with the mobile terminal 360 over a wireless Internet, for example.

The signal converter 320 is a device for converting a signal between the management server 310 and the reception unit 330 of the automatic fire detection system so that they can communicate with each other. The signal converter 320 may include a server signal transceiver 322, a receiver-server signal transducer 324, and a receiver signal transceiver 326. The server signal transmitting and receiving unit 322 can transmit and receive signals to and from the management server 310 using, for example, wireless Internet. The receiver-unit signal transmitter-receiver unit 326 can transmit and receive signals to and from the receiver unit 330 of the automatic fire detection system, for example, in a wired cable communication system. In this case, the receiver-server signal conversion unit 324 may be a device for converting the signal of the wired cable communication system and the signal of the wireless Internet system.

The receiver 330 of the automatic fire detection system controls each part of the fire fighting system 340 installed in the building. The fire-fighting equipment is equipped with various sensors and operation switch control devices such as a temperature sensor, a gas sensor, opening / closing operation of the valve, operation of a speaker for broadcasting an alarm sound, operation of a pump, They are connected to a reception panel 330 of an automatic fire detection system installed in a building management room through a cable or a wireless communication network so that an administrator residing in the management room integrally manages and controls the fire protection facilities in the building.

The barcode chip 350 includes unique information for identifying a one-dimensional barcode or a fire-fighting facility such as a specific pipe, a valve, a pump, a switch, or a sensor using a two-dimensional barcode such as a QR code. The barcode chip 350 may be attached adjacent to piping, valves, pumps, switches, or sensors corresponding to the unique information contained therein. Alternatively, or additionally, it may be collectively attached to facility facilities, guide maps, etc., which distinguishably display the respective fire fighting facilities in locations within the building corresponding to these facilities (for example, in the fire fighting equipment management room).

The mobile terminal 360 can obtain the unique information of the fire fighting equipment by reading the barcode chip 350 attached to the fire fighting equipment 340 according to the present invention. The mobile terminal 360 also displays information on the fire fighting equipment associated with the acquired unique information to the fire fighting facility management server 310 using a wireless communication network including a wireless Internet such as Wi-Fi, WiBro, LTE, can do. For example, the mobile terminal 360 may be a smartphone that has become popular recently.

In the above-described configuration, the management server 310 can receive the data from the reception unit 330 of the automatic fire detection equipment connected to the building fire fighting equipment and transmit the control command. The automatic fire detection system generally detects the heat, smoke and flame generated in the early stage of the fire in order to prevent personal and material disasters caused by the fire and notifies the person concerned of the fire protection facility or the resident of the relevant building by sound device, It is possible for the person concerned to start the fire extinguishing operation and to operate the evacuation facility.

The fire-fighting equipment management system 300 having the above-described configuration is similar to the system 100 shown in FIG. 1, but has an advantage in that the system cost can be reduced since the existing automatic fire- Can be provided.

4 is a flowchart illustrating an exemplary flow of a fire fighting facility management method using a mobile terminal according to an embodiment of the present invention. Referring to FIG. 4, a flow of a method 400 of managing a fire fighting facility using a mobile terminal that can be executed in the system shown in FIG. 3 is illustrated. The exemplary fire fighting facility management method 400 illustrates a process by which a user remotely controls a fire fighting facility using a mobile terminal.

For example, the user may determine that the control of the fire fighting equipment is necessary after confirming the specific fire fighting equipment by eye, by checking the bar code chip by scanning, or by checking based on the information inquired from the management server. Accordingly, the user inputs a necessary control command to the mobile terminal owned by the user. The mobile terminal may then transmit the input control command to the management server (410).

As a result, when the control command is received at the management server, the management server can transmit the received control command to the signal converter (420). The signal converter converts the control command according to the Internet standard received from the management server into a signal of a standard that can be received by the receiver (430). The signal converter then transmits the converted control command to the receiver (440). In response, the receiver can control the operation of the fire fighting equipment according to the received control command (450).

FIG. 5 is a schematic diagram illustrating an exemplary operation of a fire fighting system management system 500 using a mobile terminal according to an embodiment of the present invention. 5, the fire protection facility management system 500 includes a fire protection facility management server 510, a fire protection facility 530, a bar code chip 540 and a plurality of mobile terminals 550 and 560.

The fire fighting equipment 530 includes various components such as, for example, piping, valves, switches, etc., and is installed in the building. A barcode chip 540 having unique information including identification information, installation position information, and standard information for identifying each fire fighting equipment is attached to each fire fighting equipment 530. [

The fire fighting facility management server 510 may be configured to respond to the unique information included in the barcode chip 540 attached to the fire fighting equipment 530 so that each of the fire fighting equipment may include various related information such as installation location information, / RTI >

When the fire fighting equipment 530 is installed in the building, for example, the operator can scan the bar code chip 540 attached to the piping constructed using the mobile terminal # 1 550 and inquire the related information to the management server. Then, the management server 510 can transmit installation location information of the pipeline to the mobile terminal # 1 550 of the worker. The operator can confirm whether the installation is correct by comparing the installation position information of the received pipe with the installation position of the pipe that is currently operated.

Then, the operator can transmit information to the management server 510 that the installation of the corresponding pipe is correctly performed in the mobile terminal # 1 (550). In response to this, the fire fighting facility management server 510 stores installation information of the fire fighting equipment received from the mobile terminal # 1 550 as fire fighting facility related information associated with the unique information included in the barcode chip 540, And transmits the installation information to the mobile terminal # 2 560. The mobile terminal # 2 560 may be a smartphone of a third party (e.g., a constructor, an owner, a fire station, a supervisor, a building owner, etc.) related to construction of a fire fighting facility.

As described above, according to the present invention, in the construction process of the fire fighting equipment, the operator scans the bar code chip of the fire fighting equipment under construction using his own smartphone, thereby determining whether the installation process of the fire fighting equipment currently in operation is performed correctly An advantage of being able to be easily confirmed is provided. Furthermore, when an operator scans a bar code chip and inquires of the management server, not only the operator's smartphone, but also the smartphone of the supervisor of the construction work and / or the smartphone of the client who ordered the construction work, Information related to the construction of fire fighting equipment may be provided. Accordingly, it is possible to confirm the construction status in real time even if a person (for example, construction company, client, fire station, supervisor, building owner, etc.) who has not actually scanned the barcode chip can check the construction status in real time, The advantage of being a construction process is provided.

6 is a schematic view illustrating an exemplary configuration of a fire fighting system management system using a mobile terminal according to an embodiment of the present invention. Referring to FIG. 6, a fire fighting facility management system 600 that provides fire alert information to a general user or a mobile terminal 550 of a resident of a building at a time of emergency is illustrated. The fire protection facility management system 600 includes a fire protection facility management server 610, a reception unit 620 of an automatic fire detection facility of the fire protection facility 630, and a mobile terminal 650.

The fire fighting equipment 630 includes various components such as piping, valves, switches, etc., and is installed in the building. An automatic fire detection system, that is, a receiver 620 is provided in correspondence with the fire fighting equipment 630. The receiver 620 of the automatic fire detection system is similar to the receiver 330 of the automatic fire detection system as described above with reference to FIG. 3, assuming that the signal converter is omitted but is included. In accordance with the present invention, the receiver 620 of the automatic fire detection system is connected through a wired / wireless communication network to transmit real time information to the management server 610.

The management server 610 may register each of the users of at least one mobile terminal 650 as a group or a group. Fire detection information received by the management server 610 from the reception unit 620 can be transmitted to the mobile terminal 650 registered as a user. The fire detection information may include fire escape location sensor information detected by the escape route temperature sensor, fire door opening / closing sensor, and toxic gas concentration sensor installed in association with the fire fighting equipment 630, temperature information of the evacuation route, have.

Accordingly, the registered user having the mobile terminal 650 can receive the fire alarm information from the management server 610 via a wireless communication network such as the wireless Internet, and can provide the user with a display, a speaker, and / Can be displayed using an output device.

In accordance with the present invention, in particular when the mobile terminal 650 is registered as a management user, the management user may send a control command for controlling the fire fighting equipment 630 via the management server 610 to the reception unit 620 . The receiver 620 can control the fire fighting equipment 630 according to the received control command.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course, fall within the scope of the present invention.

100: Fire Protection Facility Management System
110: Fire protection facility management server
111: Fire Fighting Equipment Database (DB)
113: Installation information database (DB)
115: Shape information database (DB)
117: 3D information database (DB)
119: Control information database (DB)
120: Fire Fighting Equipment Controller
130: Fire fighting equipment
140: Barcode chip
150: mobile terminal

Claims (9)

As fire-fighting equipment management system,
A bar code chip including unique information of at least one fire fighting equipment in the building and attached adjacent to the corresponding fire fighting equipment,
A fire fighting equipment management server storing information related to the fire fighting equipment in association with unique information included in the barcode chip;
And a mobile terminal for reading the bar code chip to obtain the unique information, and for inquiring the management server about information on the fire fighting equipment associated with the unique information acquired using the wireless communication network. Firefighting equipment management system used. The method according to claim 1,
Further comprising a fire control equipment controller for sensing and controlling information on the fire fighting equipment in the building, wherein the mobile terminal inputs a control command for controlling the operation of the fire fighting equipment from a user and transmits an input control command to the management server Wherein the management server transmits a control command received from the mobile terminal to the fire control facility controller, and the fire control facility controller, in response to receiving the control command from the management server, Wherein the control unit controls the operation of the mobile terminal. The method according to claim 1,
Wherein the fire control facility controller comprises an automatic fire detection facility including a P-type receiver or R-type receiver that senses and controls information about the fire fighting equipment in the building, and a transmitter for transmitting the receiver signal received from the automatic fire detection facility to the management server And a signal converter for converting the server signal received from the management server into a corresponding signal for transmission to the automatic fire detection facility. The method according to claim 1,
The fire-fighting equipment management server registers a plurality of users of the mobile terminal as a group, and upon receiving an information inquiry request for a specific fire-fighting facility from the mobile terminal, responds to the corresponding information to all mobile Wherein the mobile terminal is operable to transmit the information to the terminal. The method according to claim 1,
Wherein the management server registers a user of at least one mobile terminal and receives fire detection information in real time from a reception unit of an automatic fire detection facility installed in association with the fire fighting equipment, And to transmit fire alarm information to the mobile terminal of the registered user based on the received information. As a fire fighting equipment management method,
Attaching a barcode chip containing unique information of at least one fire fighting equipment in the building adjacent to the corresponding fire fighting equipment;
Storing information related to the fire fighting equipment in association with unique information included in the bar code chip in a fire fighting facility management server;
The mobile terminal reading the barcode chip to obtain the unique information, and inquiring the management server about the information on the fire fighting equipment associated with the unique information obtained using the wireless communication network. A method for managing fire fighting facilities using terminals. The method of claim 6,
The mobile terminal receives a control command for controlling the operation of the fire fighting equipment from a user and transmits an input control command to the management server; and the management server transmits a control command received from the mobile terminal to the building And a control unit for controlling the operation of the fire-fighting equipment in response to the control command when the fire-fighting facility controller receives a control command from the management server The method comprising the steps of: (a) The method of claim 6,
The method comprising the steps of: the management server registering users of a plurality of mobile terminals as a group; and, when the management server receives an information inquiry request for a particular fire fighting facility from the mobile terminal, To all the mobile terminals in the same group. ≪ Desc / Clms Page number 13 > The method of claim 6,
Wherein the management server registers a user of at least one mobile terminal and receives fire detection information in real time from a reception unit of an automatic fire detection facility installed in association with the fire fighting equipment; And transmitting the fire alarm information to the mobile terminal of the registered user based on the fire detection information.

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