KR20230025825A - System and method for building firefighting safety - Google Patents

Abstract

The present invention relates to a building fire safety management system and method capable of providing speed and accuracy for fire inspection work. According to one embodiment of the present invention, the building fire safety management system comprises: an access sensor including an NFC module and communication module installed at an entrance door of each building; a fire engineer terminal transmitting identification information upon NFC tagging to the access sensor, and functioning as a door key as the NFC module determines whether the identification information is pre-registered identification information; and a building fire safety management server providing a fire engineer application outputting an NFC tag screen to the fire engineer terminal. The access sensor stores the first time when receiving the fire engineer's terminal identification information through the NFC tag screen as visit time information, and the fire engineer terminal receives fire inspection information and end time information from the fire engineer through the fire engineer application. When the fire engineer's terminal NFC-tags the access sensor after building inspection is completed, the fire engineer terminal transmits the fire inspection information and the end time information to the access sensor and the access sensor transmits building identification information, visit time information, fire inspection information, and end time information matched with the identification information of the fire engineer's terminal to the building fire safety management server.

Description

Building fire safety management system and method {SYSTEM AND METHOD FOR BUILDING FIREFIGHTING SAFETY}

The present invention relates to a building fire safety management system and method.

In general, firefighting equipment installed in various buildings refers to fire alarms, sprinklers, fire pumps, and indoor fire hydrants provided on each floor to detect fire and sound an alarm. The fire-fighting equipment is an important facility that can prevent a large-scale fire by detecting when a fire occurs while operating normally and promptly responding at an early stage. Conventionally, in order to determine whether the operation of firefighting equipment installed for the prevention of large-scale fires is normal or abnormal, fire inspectors directly check the receiver lights of traditional markets as well as buildings close to multi-use establishments. am.

In this way, in the past, the inspection of the firefighting equipment itself is also performed in a passive and modern way. Even that only checks the management status of the firefighting equipment itself, and the fire risk of the surrounding environment through the firefighting equipment. Acquisition of information on various types of fire safety in the district is not being carried out at all.

In accordance with these problems of the prior art, in addition to automating the safety inspection of fire-fighting equipment, comprehensively considering the state of fire-fighting equipment and the surrounding environment, not only the safety state of fire-fighting equipment but also the fire safety state of the area can be monitored Technology development is required.

In this regard, Korean Patent Registration No. 10-2023851 (title of invention: iot smart fire detection guidance system using an existing fire detector) discloses an iot smart fire detection guidance system.

Some embodiments of the present invention have been created to solve the above-mentioned problems, and a fire engineer periodically visits a building to diagnose a fire fighting system. At this time, the present invention contacts the building owner or the building owner Its purpose is to provide a building fire safety management system and method that allows the building owner to easily check the inspection and diagnosis contents performed by the fire engineer in real time on mobile, even if it does not appear when the firefighter visits.

However, the technical problem to be achieved by the present embodiment is not limited to the technical problems described above, and other technical problems may further exist.

As a technical means for achieving the above technical problem, the building fire safety management system according to an embodiment of the present invention includes an access sensor including an NFC module and a communication module installed at the door of each building; A fire engineer's terminal that transmits identification information by NFC tagging to the access sensor and functions as a door key according to the NFC module determining whether or not it is pre-registered identification information; And a building fire safety management server that provides a fire engineer application that outputs an NFC tag screen to a fire engineer terminal, but the access sensor uses the first time when the identification information of the fire engineer terminal is received through the NFC tag screen as visit time information. and the firefighter's terminal receives firefighting inspection information and end time information by the firefighter through the firefighter application, and after the building inspection is completed, when the firefighter's terminal tags the access sensor and NFC, the firefighting inspection information and termination The time information is transmitted to the access sensor, and the access sensor transmits the building identification information matched with the identification information of the fire engineer terminal, visit time information, fire inspection information, and end time information to the building fire safety management server.

The server includes a communication module; A memory in which a building fire safety management service provision program is stored; A processor that runs a building fire safety management service provision program; And a database in which fire safety management data for each building is stored, and the program provides fire fighting facility information based on building identification information that matches the identification information of the fire engineer terminal connected to the fire engineer application, and provides information on fire fighting facility information. Outputs a first interface for receiving a correction input for firefighting facilities, outputs a second interface for receiving a selection input of firefighting inspection information for each firefighting facility, provides entry and exit records for visit time information, and selects input for end time information. Outputs the receiving third interface.

It further includes a fire detection sensor including a control module and a communication module mounted on the fire alarm of each building, but the fire detection sensor determines that the fire alarm is malfunctioning if the fire alarm rings one or less times during a preset time, and the fire alarm is activated. When the alarm rings more than a predetermined number of times during a predetermined time period or exceeds a predetermined time period, it is determined that a fire has occurred and fire detection information is transmitted to the server.

A server manager terminal outputting a manager application provided from the server; and a building owner terminal outputting a building owner application provided from the server, wherein the server transmits a fire notification to the server manager terminal and the building owner terminal when fire detection information is received from the fire detection sensor.

The program updates firefighting safety management data including firefighting inspection information, fire detection information, entry and exit record information including visit time information and end time information, and fire safety management data including firefighting facility information matched for each building identification information received from the firefighter terminal in real time. and provides fire safety management data to the server manager terminal through the manager application.

The building fire safety management method performed by the building fire safety management system includes an access sensor including an NFC module and a communication module installed at the door of each building; A fire engineer's terminal that transmits identification information by NFC tagging to the access sensor and functions as a door key according to the NFC module determining whether or not it is pre-registered identification information; And a building fire safety management server that provides a fire engineer application that outputs an NFC tag screen to a fire engineer terminal, and (a) visits the first time the access sensor receives the identification information of the fire engineer terminal through the NFC tag screen. Storing as visual information; (b) receiving firefighting inspection information and end time information through a firefighting engineer application by a firefighting engineer terminal; (c) transmitting fire inspection information and end time information to the access sensor when the firefighter's terminal is NFC-tagged with the access sensor after the building inspection is completed; and (d) transmitting, by the access sensor, building identification information matched with identification information of the fire engineer terminal, visit time information, fire inspection information, and end time information to the building fire safety management server.

In step (b), the server provides firefighting facility information based on the building identification information that matches the identification information of the firefighter terminal connected to the firefighter application, and receives a correction input for the firefighting facility information. outputting a first interface; (b-2) outputting a second interface for receiving a selection input of firefighting inspection information for each firefighting facility; and (b-3) outputting a third interface for providing entry/exit records for visit time information and receiving a selection input for end time information.

The building fire safety management system further includes a fire detection sensor including a control module and a communication module mounted on the fire alarm of each building, but if the fire detection sensor sounds less than once during a preset time, the fire alarm malfunctions. judging; and determining that a fire has occurred and transmitting fire detection information to a server when the fire alarm sounds more than a predetermined number of times during a predetermined time period or exceeds a predetermined time period.

Building fire safety management system, the server manager terminal for outputting the manager application provided from the server; and a building owner terminal that outputs the building owner application provided from the server, and when the server receives fire detection information from the fire detection sensor, transmitting a fire notification to the server manager terminal and the building owner terminal.

The server updates fire safety management data including fire inspection information, fire detection information, entry and exit record information including visit time information and end time information matched for each building identification information received from the fire engineer terminal, and fire safety management data including fire fighting facility information in real time. doing; and providing, by the server, fire safety management data to the server manager terminal through the manager application.

According to any one of the problem solving means of the present invention described above, the on-site inspector and the in-house manager according to an embodiment of the present invention can exchange real-time data to provide speed and accuracy for fire inspection tasks.

In addition, it is possible to maximize work efficiency through systematic manualization of inspection service contents of fire management agencies, and it is possible to detect and control fire alarm detection and monitoring functions and facility conditions.

In addition, it is possible to break away from the old inspection form of the existing paper type, provide a building object recognition inspection system using NFC, and improve management efficiency by systematically classifying building facilities and equipment and providing inspection details.

On the other hand, based on the basic data and inspection contents of the building, opportunities to provide additional services can be prepared.

1 to 3 are configuration diagrams showing a building fire safety management system according to an embodiment of the present invention.
4 to 6 are diagrams illustrating an example of an interface of a fire engineer application according to an embodiment of the present invention.
7 is a diagram illustrating an example of an interface of a manager application according to an embodiment of the present invention.
8 is a flowchart illustrating a building fire safety management method by a building fire safety management system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail so that those skilled in the art can easily practice the present invention with reference to the accompanying drawings. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part is said to be "connected" to another part, this includes not only the case where it is "directly connected" but also the case where it is "electrically connected" with another element interposed therebetween. . In addition, when a part "includes" a certain component, this means that it may further include other components, not excluding other components, unless otherwise stated, and one or more other characteristics. However, it should be understood that it does not preclude the possibility of existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

In this specification, 'unit' includes a unit realized by hardware or software, or a unit realized using both, and one unit may be realized using two or more hardware, and two or more units may be implemented. The above units may be realized by one piece of hardware. Meanwhile, '~unit' is not limited to software or hardware, and '~unit' may be configured to be in an addressable storage medium or configured to reproduce one or more processors. Therefore, as an example, '~unit' refers to components such as software components, object-oriented software components, class components, and task components, processes, functions, properties, and procedures. , subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays and variables. Functions provided within components and '~units' may be combined into smaller numbers of components and '~units' or further separated into additional components and '~units'. In addition, the components and '~units' may be implemented to regenerate one or more CPUs in the device.

A network refers to a connection structure capable of exchanging information between nodes such as terminals and servers, such as a local area network (LAN), a wide area network (WAN), and the Internet (WWW: World Wide Web), wired and wireless data communication network, telephone network, and wired and wireless television communication network. Examples of wireless data communication networks include 3G, 4G, 5G, 3rd Generation Partnership Project (3GPP), Long Term Evolution (LTE), World Interoperability for Microwave Access (WIMAX), Wi-Fi, Bluetooth communication, infrared communication, ultrasonic communication, visible light communication (VLC: Visible Light Communication), LiFi, and the like, but are not limited thereto.

In this specification, the user terminal may be implemented as a computer or portable terminal capable of accessing a building fire safety management server supporting the provision of a building fire safety management service through a network. Here, the computer includes, for example, a laptop, desktop, laptop, etc. equipped with a web browser, and the portable terminal is, for example, a wireless communication device that ensures portability and mobility. , all kinds of handheld-based wireless communication devices such as various smart phones and tablet PCs.

1 to 3 are configuration diagrams showing a building fire safety management system according to an embodiment of the present invention.

As shown in FIG. 1, the building fire safety management system 1 transmits identification information by NFC tagging the access sensor 10 and the access sensor 10 including the NFC module and communication module installed at the door of each building, Building fire safety providing a fire engineer terminal 20 that functions as a door key and a fire engineer application that outputs an NFC tag screen to the fire engineer terminal 20 according to the determination of whether or not the registered identification information is pre-registered identification information by the NFC module It includes the management server 100.

Here, the access sensor 10 stores the first time at which the identification information of the fire engineer terminal 20 is received through the NFC tag screen as visit time information, and the fire engineer terminal 20 is a fire engineer application by the fire engineer. After receiving input of firefighting inspection information and end time information, and when the firefighter terminal 20 performs NFC tagging with the access sensor after the building inspection is completed, the firefighting inspection information and end time information are transmitted to the access sensor 10, and The sensor 10 may transmit building identification information, visit time information, fire inspection information, and end time information matched with the identification information of the fire engineer terminal 20 to the building fire safety management server 100 .

Therefore, the present invention provides promptness and accuracy for fire inspection tasks by exchanging real-time data between field inspectors and in-house managers, and at the same time, it is possible to maximize work efficiency by systematic manualization of inspection service contents of fire management agencies.

Specifically, referring to FIGS. 1 to 3, the building fire safety management system 1 includes a building fire safety management server 100, an access sensor 10 provided for each building, a fire detection sensor 50, and a building owner terminal. (40), a plurality of fire engineer terminals (20), and a server manager terminal (30).

Exemplarily, the building fire safety management server 100 provides a communication interface necessary to provide signals transmitted and received to each sensor 10, 50 and terminals 20, 30, and 40 in the form of packet data, and each terminal Operations for the building fire safety management service are processed in conjunction with the building fire safety management service providing program running on the s 20 , 30 , and 40 .

Exemplarily, each of the terminals 20, 30, and 40 includes a communication module, a memory, and a processor, and the communication module of each terminal performs data communication with the building fire safety management server 100, respectively, under the control of the processor. can be done

For example, the server manager terminal 30 may output a manager application provided from the server 100 , and the building owner terminal 40 may output a building owner application provided from the server 100 .

Referring to FIG. 3 , the fire detection sensor 50 may be an NFAD including a control module and a communication module mounted on fire alarms of each building. For example, the fire detection sensor 50 may receive an acoustic alarm signal generated when the fire alarm detects fire or smoke through a control module to determine the status of the alarm and the facility. In addition, the control module may output a switch control signal for restoring the fire alarm when it is determined that the fire alarm is malfunctioning. In addition, the fire detection sensor 50 may transmit fire detection information to the server 100 through a communication module when it is determined that the acoustic alarm sound generation signal exceeds a threshold value.

Specifically, the fire detection sensor 50 determines that the fire alarm is malfunctioning if the fire alarm sounds once or less for a preset time, and if the fire alarm sounds more than a predetermined number of times during a preset time or exceeds a preset time, It is determined that a fire has occurred and fire detection information may be transmitted to the server 100 .

When receiving fire detection information from the fire detection sensor 50, the server 100 may transmit a fire notification to the server manager terminal 30 and the building owner terminal 40.

Specifically, referring to FIG. 2, the building fire safety management server 100 includes a communication module 120, a memory 140 storing a building fire safety management service providing program, and a processor 130 executing a program stored in the memory 140. ) and the database 150.

The communication module 120 processes data communication with the access sensor 10, the fire engineer terminal 20, the server manager terminal 30, the building owner terminal 40, and the fire detection sensor 50, respectively. The communication module 120 provides a communication interface necessary to provide signals transmitted and received to each sensor 10, 50 and terminals 20, 30, and 40 in the form of packet data in conjunction with a communication network. Here, the communication module 120 may be a device including hardware and software necessary for transmitting/receiving a signal such as a control signal or a data signal through a wired/wireless connection with another network device.

A building fire safety management service providing program is stored in the memory 140 , and the building fire safety management service providing program stored in the memory may be driven by the processor 130 .

Also, the memory 140 temporarily or permanently stores data processed by the processor 130 . Here, the memory 140 may include volatile storage media or non-volatile storage media, but the scope of the present invention is not limited thereto.

The memory 140 may store a separate program, such as an operating system for processing and controlling the processor 130, or may perform a function for temporarily storing input or output data.

The memory 140 may be a flash memory type, a hard disk type, a multimedia card micro type, a card type memory (eg SD or XD memory, etc.), RAM , ROM may include at least one type of storage medium. In addition, the user terminal may operate a web storage performing a storage function of the memory 140 on the Internet.

The processor 130 executes a building fire safety management service providing program stored in the memory 140 and controls overall operations for controlling the building fire safety management system.

To this end, the processor 130 may be implemented by including at least one processing unit (CPU, micro-processor, DSP, etc.), RAM (Random Access Memory), ROM (Read-Only Memory), and the like, and the memory 140 A program stored in may be read into RAM and executed through at least one processing unit. Also, depending on the embodiment, the term 'processor' may be interpreted as the same meaning as terms such as 'controller', 'computing device', and 'control unit'.

The database 150 stores data accumulated while performing a program for providing a service related to a building fire safety management service providing program. For example, the database 150 may store fire safety management data including fire inspection information, fire detection information, entry and exit record information including visit time information and end time information matched for each building identification information, and fire safety management data including fire fighting facility information. there is. Detailed information on fire safety management data for each building will be described later.

Exemplarily, the access sensor 10 includes an NFC module and a communication module. The access sensor 10 stores the building identification information of the installed building through the NFC module, and receives a list of identification information of the fire engineer terminal 20 registered by matching with the building identification information from the server 100 through the communication module. can do. Accordingly, the firefighter can enter and exit the building by NFC tagging the firefighter terminal 20 to the entrance sensor 10 of the building according to his schedule without the need to negotiate a visit schedule for fire safety inspection with the building owner. there is.

For example, the access sensor 10 receives the identification information of the fire engineer terminal 20 from the NFC-tagged fire engineer terminal 20, and determines whether or not the NFC module is the identification information of the already registered fire engineer terminal 20. You can judge and open the door.

As an additional embodiment, the access sensor 10 is provided with a button, and the fire engineer terminal 20 can be registered as a door key through the button. For example, when a firefighter visiting a building presses and holds a button of the access sensor 10 , the access sensor 10 is switched to the registration mode of the firefighter terminal 20 . Subsequently, when the firefighter terminal 20 and the access sensor 10 are tagged with NFC, the identification information of the firefighter terminal 20 is transmitted to the access sensor 10, and the access sensor 10 registers the identification information to the firefighter terminal (20) to act as a door key.

As another additional embodiment, when the NFC module of the access sensor 10 recognizes a predetermined terminal adjacent to a predetermined range, an identification information request message of the fire engineer application (APP) may be transmitted to the recognized terminal. Here, when the terminal is the fire engineer terminal 20 in which the fire engineer APP is installed, the terminal may transmit identification information of the fire engineer APP to the NFC module. At this time, the NFC module receives the identification information of the fire engineer APP and confirms that the recognized terminal is the fire engineer terminal 20, thereby completing authentication and opening the door. In this case, even if the firefighter is replaced, if only the same firefighter APP that is activated is used, additional registration of the terminal through NFC tagging is not required, so it is possible to enter and exit the building quickly and conveniently.

In yet another further embodiment, a fire engineer visiting a particular building for the first time may enter the building with the help of the building owner. When the firefighter enters the firefighting inspection information into the APP and transmits it to the server, the firefighter terminal may also transmit the identification information of the corresponding terminal to the server. At this time, firefighting inspection information and terminal identification information are interlocked and stored in the server, and as fire engineer personal information and terminal identification information previously stored in the server are linked, details about who visited which building and inspected it are recorded in the server. It can be. Then, when the firefighter revisits the building and brings the firefighter's terminal to the NFC module, the NFC module extracts the terminal identification information of the firefighter's terminal and sends it to the server to confirm whether it is the pre-stored terminal identification information before entering the entrance can be opened. In this way, if the NFC module transmits the terminal identification information to the server and then goes through the method of checking, it is possible to easily enter and exit from the second entrance even if the firefighter does not have to register the terminal.

As another additional embodiment, when a firefighting engineer enters and exits a building for the purpose of firefighting work or AS visits, it may be important to report the results or progress of construction to the building owner or thoroughly perform access control. When the building owner terminal requests AS or firefighting work through the APP, and the firefighter terminal accepts the request for AS or firefighting work, the firefighter terminal may enter the AS or construction work type. The server may check the preset work period for each AS or construction work type, and set the AS period and construction period of the firefighter. Thereafter, the access sensor transmits terminal identification information to the server when the firefighter terminal approaches, confirms the approval result, and operates to open the door only within the corresponding period. In addition, whenever a firefighter approaches the firefighter terminal to the access sensor, the information recorded in the firefighter terminal APP is transmitted to the server, and the server compares the previously recorded information with updated details (construction photos and text input). ), it may be provided as a notification to the building owner terminal. In this way, as the server compares the photos and text inputs to previously recorded ones, firefighters randomly upload photos of construction work done on different buildings, or intentionally duplicate photos of the same photos from that building. It can prevent intentional avoidance of construction or AS work or attempts to extend the construction period. Furthermore, if similar feature points (similar distribution and location of feature points) are found between a plurality of different photos through feature point analysis and color analysis of the image in the photo uploaded by the firefighter, the server is a photo taken within a building. If the identical feature points are found between different photos, it can be judged as a duplicate upload of the same photo. Alternatively, if it is determined that the characteristic points of one or more of the different photos are completely different, it may be determined that the photo of the other building has been uploaded with an error.

Stores the first time at which the identification information of the fire engineer terminal 20 is received through the NFC tag screen as visit time information, and the fire engineer terminal 20 stores fire check information and end time through the fire engineer application by the fire engineer. After receiving the information and completing the building inspection, when the firefighter terminal 20 performs NFC tagging with the access sensor, it transmits the firefighting inspection information and end time information to the access sensor 10, and the access sensor 10 transmits the information to the firefighter. Building identification information, visit time information, fire inspection information, and end time information matched with the identification information of the terminal 20 may be transmitted to the building fire safety management server 100 .

Hereinafter, with reference to FIGS. 4 to 7 , a fire engineer application and a manager application provided by the building fire safety management server will be described in detail.

4 to 6 are diagrams illustrating an example of an interface of a fire engineer application according to an embodiment of the present invention.

Referring to FIG. 4 , the server 100 provides a fire engineer application 210 to the fire engineer terminal 20 . Illustratively, as shown in FIG. 4 (a), the fire engineer application 210 may display an NFC tag screen for app login. For example, when a fire engineer tags the fire engineer terminal 20 connected to the access sensor 10 and the NFC tag screen, the fire engineer app 210 may be automatically logged in as soon as the door of the building is opened. At this time, as described above, the access sensor 10 receives identification information from the tagged fire engineer terminal 20 and determines whether or not it is already registered identification information. At the same time as opening, the time at which identification information is received may be stored as visit time information.

In addition, as shown in FIG. 4 (b), after logging in, the fire engineer app 210 displays a first area 211 displaying information about the building name visited and a second area 212 displaying a building fire safety management list. can provide a main interface that outputs on one screen. Preferably, the building fire safety management list may include fire safety management agency / fire inspection / fire construction / AS visit / general visit / entry and exit record items, etc., and the fire engineer app 210 when at least one item is clicked , the interface of the corresponding item can be output. At this time, when a side menu button displayed on one side of the top of the main interface is clicked, a pop-up menu window may be displayed. Here, more building fire safety management items than items displayed in the second region 212 may be displayed in the pop-up menu window. For example, items such as main/building inquiry/firefighting facility/firefighting safety management agency/firefighting inspection/firefighting construction-(quote request, construction)/AS visit/general visit/collection inquiry/record of entry/exit/firefighting facility inspection record can be displayed

For example, when the firefighting facility inspection record is clicked, the firefighter app 210 may display a screen for automatically generating a firefighting safety inspection report, and by the firefighter terminal 20, the manager (firefighter) signature, name Information such as , mail, etc. can be input. At this time, the server 100 may provide a fire safety inspection report for the corresponding building to the building owner terminal 40 . Accordingly, the building owner terminal 40 can check the history or status of the firefighting engineer's firefighting inspection for the building it owns in real time, and can periodically receive a report on firefighting safety inspection.

As another example, when the building inquiry is clicked, the fire engineer app 210 displays the building view and building manager photo information, and when the fire safety management agency is clicked, the fire engineer app 210 displays the building information and the information registered to the firefighting facility and the corresponding Information on the person in charge and assistant safety manager (eg, name, position, contact information, work status, etc.) can be displayed.

5 and 6, the server 100 provides firefighting facility information based on building identification information matching the identification information of the firefighter terminal 20 connected to the firefighter application 210, and the firefighting facility information. Outputs a first interface 214 that receives a correction input for, outputs a second interface 215 that receives a selection input of fire inspection information for each fire facility, and provides entry and exit records for visit time information, A third interface 216 for receiving a selection input of end time information is output.

For example, as shown in FIG. 5 (a), the first interface 214 is a screen for the aforementioned firefighting facility inquiry, and a picture of a firefighting facility (for example, a fire pump) is displayed by the firefighter terminal 20. It may be modified, or addition/deletion of a floor for multi-use establishments may be entered.

As shown in FIG. 5 (b), the second interface 215 is a screen for the above-mentioned firefighting inspection work, and by the firefighter terminal 20, the operating state of each facility is classified (for example, normal operation, error operation, etc.) is selected, photos to be recorded during fire inspection can be uploaded, or new items can be created.

In addition, as shown in FIG. 6, the third interface 216 is a screen for the above-described entry and exit record, and when the fire inspection task is completed, the visit end button can be input by the fire engineer terminal 20. At this time, the third interface 216 may display the visit time information recorded when the access sensor 10 and the NFC tag and the time when the visit end button is input as end time information.

7 is a diagram illustrating an example of an interface of a manager application according to an embodiment of the present invention.

The server 100 is fire safety including fire inspection information, fire detection information, entry/exit record information including visit time information and end time information matched for each building identification information received from the fire engineer terminal 20, and fire safety facility information Management data is updated in real time, and fire safety management data is provided to the server manager terminal 30 through the manager application 310 .

Exemplarily, referring to FIG. 7 , the manager app 310 displays a first area 311 displaying items of a fire safety management list for each building and detailed information for each item linked by a selection input of the first area 311. The second area 312 displaying can be displayed on one screen. That is, the server manager terminal 30 can connect to the manager app 310 to grasp the fire status for each building, the fire inspection status, the construction management status, the AS visit management status, and the entry and exit record status of the firefighting engineer in real time.

Hereinafter, descriptions of components performing the same function among the components shown in FIGS. 1 to 7 will be omitted.

8 is a flowchart illustrating a building fire safety management method by a building fire safety management system according to another embodiment of the present invention.

As shown in FIG. 8, the building fire safety management method performed by the building fire safety management system visits the first time when the access sensor 10 receives the identification information of the fire engineer terminal 20 through the NFC tag screen. Step of storing as time information (S110), step of receiving fire inspection information and end time information through the fire engineer application by the fire engineer terminal 20 (S120), after the building inspection is completed, the fire engineer terminal (20) In case of NFC tagging with the access sensor 10, the step of transmitting fire inspection information and end time information to the access sensor 10 (S130) and the access sensor 10 identifies the firefighter terminal 20 and transmitting the building identification information, visit time information, fire inspection information, and end time information matched with the information to the building fire safety management server 100 (S140). Here, the building fire safety management system 1 transmits identification information by NFC tagging the access sensor 10 including the NFC module and communication module installed at the door of each building and the access sensor 10, and transmits identification information by the NFC module, The building fire safety management server 100 that provides a fire engineer terminal 20 that functions as a door key and a fire engineer application that outputs an NFC tag screen to the fire engineer terminal 20 according to whether or not the registered identification information is determined include

In step S120, the server 100 provides firefighting facility information based on the building identification information matching the identification information of the firefighter terminal 20 connected to the firefighter application, and receives a correction input for the firefighting facility information. Step of outputting interface 1, step of outputting interface 2 for receiving selection input of firefighting inspection information for each fire facility, and interface 3 for providing entry/exit records for visit time information and receiving selection input for end time information It includes the step of outputting.

The building fire safety management system 1 further includes a fire detection sensor 50 including a control module and a communication module mounted on the fire alarm of each building, but the fire detection sensor 50 is activated during a predetermined time by the fire alarm. Determining that the fire alarm is malfunctioning if it sounds less than once; and determining that a fire has occurred and transmitting fire detection information to the server 100 when the fire alarm sounds more than a predetermined number of times during a predetermined time period or exceeds a predetermined time period.

The building fire safety management system 1 further includes a server manager terminal 30 outputting a manager application provided from the server 100 and a building owner terminal 40 outputting a building owner application provided from the server 100, , When the server 100 receives the fire detection information from the fire detection sensor 50, it further includes transmitting a fire notification to the server manager terminal 30 and the building owner terminal 40.

Firefighting safety including firefighting inspection information, fire detection information, entry/exit record information including visit time information and end time information matched for each building identification information received by the server 100 from the fire engineer terminal 20, and firefighting facility information Updating the management data in real time and providing the server 100 with the fire safety management data to the server manager terminal 30 through the manager application.

An embodiment of the present invention may be implemented in the form of a recording medium including instructions executable by a computer, such as program modules executed by a computer. Computer readable media can be any available media that can be accessed by a computer and includes both volatile and nonvolatile media, removable and non-removable media. Also, computer readable media may include computer storage media. Computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data.

Although the methods and systems of the present invention have been described with reference to specific embodiments, some or all of their components or operations may be implemented using a computer system having a general-purpose hardware architecture.

The above description of the present invention is for illustrative purposes, and those skilled in the art can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention. do.

1: Building Fire Safety Management System
10: Access sensor
20: firefighter terminal
30: server manager terminal
40: building owner terminal
100: building fire safety management server
120: communication module
130: processor
140: memory
150: database
210: fire engineer application
310: manager application

Claims (4)

In the building fire safety management system,
Access sensors including NFC modules and communication modules installed at the doors of each building;
a fire engineer's terminal that transmits identification information by NFC tagging to the access sensor and functions as a door key according to whether or not the identification information is pre-registered by the NFC module;
A building fire safety management server providing a fire engineer application for outputting an NFC tag screen to the fire engineer terminal;
a building owner terminal outputting a building owner application provided from the server;
A server manager terminal outputting a manager application provided from the server; and
Including a fire detection sensor including a control module and a communication module mounted on the fire alarm of each building,
The access sensor stores the first time of receiving the identification information of the fire engineer terminal through the NFC tag screen as visit time information,
The firefighter terminal receives firefighting inspection information and end time information through the firefighter application by the firefighter,
When the firefighter terminal performs NFC tagging with the entrance sensor after the building inspection is completed, the firefighting inspection information and end time information are transmitted to the entrance sensor,
The entrance sensor transmits building identification information, visit time information, fire inspection information, and end time information matched with the identification information of the firefighter terminal to the server,
When a firefighting inspection is completed by a firefighter who visits a specific building for the first time,
When the unregistered firefighter terminal transmits the firefighting inspection information input through the firefighter application to the server, the identification information of the unregistered firefighter terminal is also transmitted,
The server stores the identification information transmitted together with the fire inspection information in conjunction with it,
When the building owner terminal requests AS or firefighting work through the building owner application,
When the unregistered firefighter terminal inputs the type of work for AS or firefighting request of the building owner accepted through the firefighter application,
The server receives and stores the building identification information matched with the AS period and construction period of the fire engineer preset for each AS or construction work type and the identification information of the unregistered fire engineer terminal,
When the unregistered fire engineer terminal approaches, the access sensor transmits the identification information of the unregistered fire engineer terminal received through the NFC module to the server to confirm the approval result, and then the AS period and construction period of the fire engineer to open the door inside,
The server
communication module;
A memory in which a building fire safety management service provision program is stored;
A processor executing the building fire safety management service providing program; and
It includes a database in which fire safety management data for each building is stored,
The program provides firefighting facility information based on building identification information that matches the identification information of the firefighter terminal connected to the firefighter application, and outputs a first interface for receiving a correction input for the firefighting facility information, Outputs a second interface for receiving a selection input of the firefighting inspection information for each firefighting facility, provides a record of entry and exit for the visit time information, and outputs a third interface for receiving a selection input for the end time information, In the third interface, the time when the firefighter inputs the visit end button is displayed as the end time information,
The fire detection sensor determines that the fire alarm is malfunctioning when the fire alarm sounds once or less for a predetermined time and outputs a switch control signal for restoring the fire alarm;
The fire detection sensor determines that a fire has occurred and transmits fire detection information to the server when the fire alarm sounds more than a predetermined number of times during a predetermined critical time and exceeds a predetermined critical time,
The server transmits a fire notification to the server manager terminal and the building owner terminal when receiving fire detection information from the fire detection sensor,
The fire safety management data including the fire inspection information, fire detection information, entry and exit record information including visit time information and end time information matched for each building identification information received from the fire engineer terminal, and fire safety management data including fire fighting facility information in real time update,
Providing the fire safety management data to the server manager terminal through the manager application,
The manager application displays a first area for displaying fire safety management list items for each building and a second area for displaying detailed information for each item linked by a selection input of the first area on one screen, Building fire safety management system.
According to claim 1,
When the NFC module of the access sensor recognizes a predetermined unregistered terminal adjacent to a predetermined range, it transmits an identification information request message of the fire engineer application to the unregistered terminal,
When the fire engineer application is pre-installed in the unregistered terminal, the unregistered terminal transmits identification information of the fire engineer application to the NFC module after receiving the identification information request message,
The access sensor transmits the identification information of the corresponding fire engineer application received through the NFC module to the server, and when it is confirmed that the identification information of the previously registered fire engineer application is confirmed, the unregistered terminal is determined as the fire engineer terminal to enter the door To open the building fire safety management system.
In the building fire safety management method performed by the building fire safety management system,
The building fire safety management system includes an access sensor including an NFC module and a communication module installed at the door of each building; a fire engineer's terminal that transmits identification information by NFC tagging to the access sensor and functions as a door key according to whether or not the identification information is pre-registered by the NFC module; A building fire safety management server providing a fire engineer application for outputting an NFC tag screen to the fire engineer terminal; a building owner terminal outputting a building owner application provided from the server; A server manager terminal outputting a manager application provided from the server; And a fire detection sensor including a control module and a communication module mounted on the fire alarm of each building,
(a) storing the first time at which the access sensor receives the identification information of the firefighter terminal through the NFC tag screen as visit time information;
(b) receiving firefighting inspection information and end time information through the firefighting engineer application by the firefighting engineer terminal;
(c) transmitting the firefighting inspection information and end time information to the access sensor when the firefighter terminal performs NFC tagging with the access sensor after the building inspection is completed; and
(d) transmitting, by the entrance sensor, building identification information matched with identification information of the firefighter terminal, visit time information, firefighting inspection information, and end time information to the server;
When a firefighting inspection is completed by a firefighter who visits a specific building for the first time,
When the unregistered firefighter terminal transmits the firefighting inspection information input through the firefighter application to the server, the identification information of the unregistered firefighter terminal is also transmitted,
The server stores the fire inspection information in conjunction with the identification information of the unregistered fire engineer terminal,
When the building owner terminal requests AS or firefighting work through the building owner application,
When the unregistered firefighter terminal inputs the type of work for AS or firefighting request of the building owner accepted through the firefighter application,
The server receives and stores the building identification information matched with the AS period and construction period of the fire engineer preset for each AS or construction work type and the identification information of the unregistered fire engineer terminal,
When the unregistered fire engineer terminal approaches, the access sensor transmits the identification information of the unregistered fire engineer terminal received through the NFC module to the server to confirm the approval result, and then the AS period and construction period of the fire engineer to open the door inside,
The step (b) is
(b-1) The server provides firefighting facility information based on building identification information that matches the identification information of the firefighter terminal connected to the firefighter application, and receives a correction input for the firefighting facility information. Outputting interface 1;
(b-2) outputting a second interface for receiving a selection input of the firefighting inspection information for each firefighting facility; and
(b-3) providing an entry/exit record for the visit time information and outputting a third interface for receiving a selection input of the end time information, wherein the fire engineer presses a visit end button The input time is displayed as the end time information,
outputting a switch control signal for restoring the fire alarm by determining that the fire alarm is malfunctioning when the fire alarm rings one or less times during a predetermined time by the fire detection sensor; and
The fire detection sensor determines that a fire has occurred and transmits fire detection information to the server when the fire alarm sounds more than a predetermined number of times during a predetermined critical time and exceeds a predetermined critical time,
Transmitting a fire notification to the server manager terminal and the building owner terminal when the server receives fire detection information from the fire detection sensor,
The fire safety management data including the fire inspection information, fire detection information, entry and exit record information including visit time information and end time information matched for each building identification information received by the server from the fire engineer terminal, and fire safety management data including fire fighting facility information Updating in real time; and
Including the server providing the fire safety management data to the server manager terminal through the manager application,
The manager application displays a first area for displaying fire safety management list items for each building and a second area for displaying detailed information for each item linked by a selection input of the first area on one screen, How to manage fire safety in buildings.
According to claim 3,
When the NFC module of the access sensor recognizes a predetermined unregistered terminal adjacent to a predetermined range, it transmits an identification information request message of the fire engineer application to the unregistered terminal,
When the fire engineer application is pre-installed in the unregistered terminal, the unregistered terminal transmits identification information of the fire engineer application to the NFC module after receiving the identification information request message,
The access sensor transmits the identification information of the corresponding fire engineer application received through the NFC module to the server, and when it is confirmed that the identification information of the previously registered fire engineer application is confirmed, the unregistered terminal is determined as the fire engineer terminal to enter the door To open a building fire safety management method.

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