KR102357956B1 - Firefighting facility management device and firefighting facility management system comprising thereof - Google Patents

Abstract

According to an embodiment of the present invention, a firefighting facility management device includes: a fire detection module for receiving a fire detection signal from a plurality of fire detection circuits; an alarm bell control module for controlling a plurality of alarm bells based on the received fire detection signal; and a processor running a firefighting facility management program. The processor performs malfunction recovery processing when a fire detection signal is received from the fire detection module by executing the program, and mutes the plurality of alarm bells when the fire detection signal is determined to be a malfunction, generates fire management data including fire detection signal information, malfunction state information, and malfunction action information, and transmits the fire management data to a user terminal. Accordingly, it is possible to reduce the frequency of occurrence of malfunction of a fire alarm.

Description

Firefighting facility management device and firefighting facility management system including same

The present invention relates to a firefighting facility management apparatus and a firefighting facility management system including the same, and more particularly, to a firefighting facility management apparatus that remotely detects and manages a fire alarm generated in a building and restores a firefighting facility in case of malfunction, and a firefighting system including the same It relates to a facility management system.

A fire receiver is a device that can respond to a fire by quickly and accurately receiving a fire signal in the event of a fire. Among fire receivers, in the case of P-type receivers, since they receive a fire signal as a common signal, which is a contact signal, they are connected with separate solid wiring for each boundary area, and the number of lines increases as the number of boundary areas increases. Since large buildings require many lines, they are problematic in installation, maintenance, and repair, so they are installed in small buildings.

However, since the P-type receiver is mainly installed in small buildings, a fire detection signal may be missed due to a lack of fire managers. necessary.

In addition, if the malfunction of the fire alarm occurs frequently, civil complaints due to the alarm noise of the alarm may occur, and it may be difficult to prevent fire damage by mistaken for a malfunction even in an actual fire situation. Accordingly, there is a demand for improvement of the fire management system in order to prevent noise caused by a simple malfunction and to share accurate information on the fire situation.

The firefighting facility management apparatus according to an embodiment of the present invention may reduce the frequency of occurrence of malfunction of a fire alarm through a process of processing a noise signal.

A firefighting facility management apparatus according to an embodiment of the present invention manages fire-related data by utilizing an existing fire receiver facility and intends to transmit it to a server or a user terminal through a network.

A firefighting facility management apparatus according to an embodiment of the present invention includes a fire detection module for receiving a fire detection signal from a plurality of fire detection circuits, a bell control module for controlling a plurality of alarms based on the received fire detection signal, and a firefighting facility and a processor executing a management program. The processor performs malfunction recovery processing when a fire detection signal is received from the fire detection module by executing the program, mutes the plurality of alarm bells when the fire detection signal is determined to be a malfunction, and fire detection signal information; It generates fire management data including malfunction state information and malfunction action information, and transmits the fire management data to a user terminal.

In the firefighting facility management apparatus according to an embodiment of the present invention, the fire management data includes fire detection information, malfunction recovery processing information, regular inspection information, operation state information of an indoor fire hydrant/spring cooler, or operation information of the firefighting facility management apparatus. and at least one, wherein the firefighting facility management device transmits the fire management data to the user terminal through a network.

The firefighting facility management apparatus according to an embodiment of the present invention further includes a communication module for transmitting and receiving data of a fire receiver including a P-type receiver, wherein the communication module is at least one of a WIFI module, an Ethernet communication module, or an RF module It is characterized in that it includes.

The firefighting facility management apparatus according to an embodiment of the present invention provides a QR code or barcode including serial number information or identification information of the firefighting facility management apparatus.

The processor of the firefighting facility management apparatus according to an embodiment of the present invention resets the fire detection module when a fire detection signal is received, determines that a fire detection signal less than a preset number of times is a malfunction, and detects a fire more than a preset number of times When a signal occurs, it is characterized as a fire.

When the fire detection signal is determined to be a malfunction, the processor of the firefighting facility management apparatus according to an embodiment of the present invention mutes the plurality of alarms, and transmits fire detection signal information, malfunction state information, and malfunction action information to the user terminal. characterized in that

The firefighting facility management method performed by the firefighting facility management apparatus according to an embodiment of the present invention includes: when a fire detection signal is received from any one of a plurality of fire detection circuits, performing a malfunction recovery process; detecting the received fire Controlling a plurality of alarm bells based on a signal, generating fire management data based on the fire detection signal, and transmitting the fire management data to a user terminal through a network. In the malfunction recovery process, when a fire detection signal is received, the fire detection circuit in which the fire detection signal is generated is reset, a fire detection signal less than a preset number of times is determined as a malfunction, and when a fire detection signal is generated more than a preset number of times, a fire is detected. characterized by judging. The controlling of the plurality of alarm bells further includes muting the plurality of alarm bells when it is determined that the fire detection signal is a malfunction. The fire management data is characterized in that it includes fire detection information, malfunction state information, malfunction recovery processing information, periodic inspection information, operation state information of an indoor fire hydrant/spring cooler, or operation information of the firefighting facility management device.

Through the fire-fighting facility management apparatus according to an embodiment of the present invention, it is possible to reduce the frequency of occurrence of malfunctions of the fire alarm device, and to control the alarm so as not to sound in case of malfunction, thereby improving the reliability of the fire alarm.

The firefighting facility management apparatus according to an embodiment of the present invention may be connected to a P-type receiver installed in a small building to transmit firefighting management information to a user terminal or a server through a network, and may effectively manage the firefighting management information.

1 is a configuration diagram for explaining a firefighting facility management system according to an embodiment of the present invention according to an embodiment of the present invention.
2 is a configuration diagram for explaining a fire-fighting facility management system according to an embodiment of the present invention.
3 is a configuration diagram for explaining a fire-fighting facility management system according to an embodiment of the present invention.
4 is a block diagram illustrating a firefighting facility management server according to an embodiment of the present invention.
5 is a flowchart illustrating a method for managing a firefighting facility according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. 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 "connected" with another part, this includes not only the case of being "directly connected" but also the case of being "electrically connected" with another element interposed therebetween. . In addition, when a part "includes" a certain component, this means that other components may be further included rather than excluding other components unless otherwise stated.

In the present specification, 'server' and 'system' are one or more memories (not shown), one or more computer processors (not shown), and one or more programs (one or more programs) ( not shown), wherein one or more programs (hereinafter, 'pre-processing programs') are stored in a memory and configured to be executed by one or more processors, and one or more The memory, one or more computer processors, and one or more programs may be physically located in the same device and may be directly connected or connected by a communication network.

1 is a configuration diagram for explaining a firefighting facility management system according to an embodiment of the present invention according to an embodiment of the present invention.

The firefighting facility management system may include a firefighting facility management apparatus 100 , a server 200 , and a user terminal 300 . They may be connected via a network.

The firefighting management method may be implemented in the firefighting facility management apparatus 100 , the server 200 , and the user terminal 300 . The firefighting management system may transmit data collected by the firefighting facility management apparatus 100 to the server 200 . It is possible to remotely manage the fire management system by receiving a fire alarm alarm through the user terminal 300 and temporarily restoring a fire alarm connected to the fire fighting facility management apparatus 100 .

The data analysis collected in the firefighting management method may be performed in the server 200 , and the analysis data may be displayed in the user terminal 300 .

2 is a configuration diagram for explaining a fire-fighting facility management system according to an embodiment of the present invention.

The firefighting facility management system may include a fire receiver 400 including a P-type receiver installed in an existing building and a firefighting facility management device 500 . The firefighting facility management system may further include a commercial power source 610 , an antenna 620 , an adapter 630 or a gateway (not shown). The gateway may include a WIFI module, a UTP module, and an RF communication module of a preset frequency. The antenna 620 may be connected to a gateway to transmit/receive data through an external network.

The fire receiver 400 may include a receiver PCB board 410 , a bell 420 , and a battery 430 . The fire receiver 400 may include a connection terminal connected to the first circuit, the second circuit, the third circuit, the fourth circuit, the fifth circuit, the earth alarm bell, and the main alarm bell connected to the plurality of fire detection sensors.

The firefighting facility management apparatus 500 may include a first communication module 510 , a push button 520 , and a microcontroller unit 530 . The firefighting facility management device 500 is connected to a first circuit, a second circuit, a third circuit, a fourth circuit, a fifth circuit, etc. connected to a plurality of fire detection sensors of the fire receiver 400, the earth alarm bell, the main alarm bell It may include a connection terminal. For example, the first communication module 510 may be an RF communication module of a preset frequency. The push button 520 may be configured to be pressed from the outside without opening the enclosure in which the firefighting facility management device 500 is installed.

For example, the firefighting facility management apparatus 500 may receive commercial power 610 through the power input terminal 542 and output it through the power output terminal 544 to supply power to the fire receiver 400 . . The firefighting facility management apparatus 500 may control power supply to reset the fire receiver 400 .

For example, the firefighting facility management apparatus 500 may include a first terminal 552 of a main alarm bell and a second terminal 554 of a main alarm bell. The main alarm bell first terminal 552 is connected to the alarm bell 420 of the fire receiver 400, and the main alarm bell second terminal 554 is connected to the main alarm bell terminal of the fire receiver 400 to receive the alarm control signal and , the alarm 420 can be controlled. The earth alarm of the fire receiver 400 may be controlled in the same manner as the main alarm.

The firefighting facility management device 500 may include a commercial power control relay (R1), a battery power control relay (R2), and a bell mute control relay (R3).

The relay (R1) for commercial power control can use a product with a structure in which the arc does not affect the outside. For commercial power control relay (R1), NC (Normal Close) spring return type products can be used. The commercial power control relay (R1) can be used with a rated AC 220v, 1A condition.

The relay (R2) for battery power control can use a NC (Normal Close) spring return type product. The relay (R2) for battery power control can use products with rated AC 220v and 1A conditions.

Alarm muting control relay (R3) can use NC (Normal Close) spring return type products. Alarm muting control relay (R3) can be used with rated DC 24v, 100mA condition. The alarm muting control relay (R3) may be configured to block the main alarm or earth alarm circuit.

The firefighting facility management device 500 may be connected to the fire receiver 400 used in the past to effectively detect malfunctions due to aged equipment, and reduce the frequency of malfunctions caused by environmental factors such as dust and humidity. The firefighting facility management apparatus 500 may remotely solve the malfunction of the fire receiver and manage the firefighting facility even if the fire receiver does not directly operate when a malfunction occurs. In addition, the firefighting facility management device 500 is connected to equipment that does not include a wireless communication module such as a P-type receiver, so that information about the state of the firefighting facility or the fire state can be shared smoothly even inside the building, and through the network Information can be delivered in real time to the manager's mobile phone or to the fire control center.

3 is a configuration diagram for explaining a fire-fighting facility management system according to an embodiment of the present invention.

The firefighting facility management system may include network equipment such as a gateway 712 and a switch 714 on the ground floor 710 of a building. The firefighting facility management system may include a P-type receiver 722 and a firefighting facility management device 724 in the basement 720 of the building. The firefighting facility management device 724 may be directly connected to an existing P-type receiver 722 .

The gateway 712 and the switch 714 may be connected using a UTP cable or WIFI. For example, the firefighting facility management device 724 may transmit/receive data to/from the gateway 712 using RF communication of a preset frequency.

The firefighting facility management system may include a first server 730 , a second server 740 , and a user terminal 750 . The first server 730 may be used to control the firefighting facility management device 724 , and the second server 740 may be used as a main server for performing the firefighting facility management method. The firefighting facility management system may be configured simply by using a single server, or by using a plurality of servers to distribute the server load and improve server security.

The user terminal 750 may manage a user account, display state information of a building including a fire state, and control the firefighting facility management device 724 .

4 is a block diagram illustrating a firefighting facility management server according to an embodiment of the present invention.

The firefighting facility management server 200 may include a communication module 210 , an input module 220 , a processor 230 , a memory 240 , and a database 250 .

The communication module 210 communicates data with the connected user terminal and the interworking server, respectively. The communication module 210 may be a device including hardware and software necessary for transmitting and receiving signals such as control signals or data signals through wired/wireless connection with other network devices.

The memory 240 stores a firefighting facility management program. When a fire detection signal is received from any one of a plurality of fire detection circuits, the firefighting facility management program performs malfunction recovery processing, controls a plurality of alarm bells based on the received fire detection signal, and based on the fire detection signal to generate fire management data, and transmit the fire management data to a user terminal through a network. In the malfunction recovery process, when a fire detection signal is received, the fire detection circuit in which the fire detection signal is generated is reset, a fire detection signal less than a preset number of times is determined as a malfunction, and when a fire detection signal is generated more than a preset number of times, it is a fire. characterized by judging. In the process of controlling the plurality of alarm bells, if it is determined that the fire detection signal is a malfunction, the plurality of alarm bells may be muted. The fire management data is characterized in that it includes fire detection information, malfunction state information, malfunction recovery processing information, periodic inspection information, operation state information of an indoor fire hydrant/spring cooler, or operation information of the firefighting facility management device.

In the memory 240 , various types of data generated during the execution of an operating system for driving the firefighting facility management server 200 or a firefighting facility management program are stored.

In this case, the memory 240 collectively refers to a non-volatile storage device that continuously maintains stored information even when power is not supplied, and a volatile storage device that requires power to maintain the stored information.

In addition, the memory 240 may perform a function of temporarily or permanently storing data processed by the processor 230 . Here, the memory 240 may include magnetic storage media or flash storage media in addition to the volatile storage device that requires power to maintain stored information, but the scope of the present invention is limited thereto. it is not going to be

The processor 230 executes the program stored in the memory 240 , and controls the entire process according to the execution of the firefighting facility management program. Each operation performed by the processor 230 will be described in more detail later.

The processor 230 may include any type of device capable of processing data. For example, it may refer to a data processing device embedded in hardware having a physically structured circuit to perform a function expressed as code or instructions included in a program. As an example of the data processing apparatus embedded in the hardware as described above, a microprocessor, a central processing unit (CPU), a processor core, a multiprocessor, an application-specific integrated (ASIC) circuit) and a processing device such as a field programmable gate array (FPGA), but the scope of the present invention is not limited thereto.

The database 250 stores or provides data necessary for the firefighting facility management system under the control of the processor 230 . The database 250 may be included as a component separate from the memory 240 , or may be built in a part of the memory 240 .

5 is a flowchart illustrating a method for managing a firefighting facility according to an embodiment of the present invention.

The firefighting facility management device may receive a fire detection signal (S110). For example, when a fire detection sensor operates in case of a fire, a fire signal may be transmitted to a fire receiver. The fire receiver may be a P-type receiver. The firefighting facility management device may be directly connected to the fire receiver to receive a fire signal received from the fire receiver.

The firefighting facility management apparatus may perform a malfunction recovery process (S120). For example, a fire detection sensor may malfunction due to humidity, dust, etc. In case of a malfunction, the fire detection signal is temporarily generated, so even if the fire signal is transmitted to the fire receiver, the firefighting facility management apparatus may reset the fire receiver or the fire detection sensor. The firefighting facility management device may reset the fire receiver by shutting off power supplied to the fire receiver for a predetermined period of time. If it is not a malfunction, since the fire detection signal is continuously generated even if the fire receiver is reset for a preset number of times or for a period of time, other measures can be taken.

The firefighting facility management device may determine the location of the fire or malfunction based on each contact signal of the earth circuit. The firefighting facility management apparatus may receive and manage operation state information of an indoor fire hydrant or a sprinkler.

The firefighting facility management device may perform alarm control (S130). If it is determined that the fire signal is malfunctioning, the firefighting facility management device may mute the alarm until a separate action is taken. The manager may receive the alarm mute state through a user terminal, etc., and may maintain the alarm bell mute state or operate the alarm again. A separate signal may be provided to the user terminal when the alarm mute state continues for a predetermined time or longer.

The firefighting facility management device may include a terminal for receiving a main alarm bell or an earth alarm control signal generated from a fire receiver. The firefighting facility management device may include a terminal connected to the alarm bell of the fire receiver, and may perform alarm bell control.

The firefighting facility management apparatus may generate fire management data and transmit the fire management data through a network (S140).

The firefighting facility management device generates fire management data including fire detection signal information, malfunction state information, and malfunction action information based on the information received from the fire receiver, and transmits the fire management data to a server or a user terminal through a network. can The fire detection signal information may include information on whether a fire is determined by the fire detection sensor or information on time and place of fire recognition.

The firefighting facility management device identifies the fire detection sensor that generated the fire detection signal, and after resetting the fire receiver, if the fire detection sensor no longer generates a fire detection signal, it is determined that the fire detection sensor has malfunctioned and is in a malfunctioning state. You can include that information in your information. The malfunction state information may include information on the frequency and timing of occurrence of malfunctions for each fire detection sensor. The malfunction action information may include information such as whether a malfunction recovery process is performed through the firefighting facility management device and whether a facility including a fire detection sensor is replaced.

Meanwhile, the firefighting facility management method according to an embodiment of the present invention may also be implemented in the form of a recording medium including instructions executable by a computer, such as a program module 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 is merely illustrative of the technical idea of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: firefighting facility management device
200: server
300: user terminal

Claims (7)

In the firefighting facility management device,
a fire detection module for receiving a fire detection signal from a plurality of fire detection circuits connected to the fire receiver;
a bell control module for controlling a plurality of bells based on the received fire detection signal; and
a processor for executing a firefighting facility management program; comprising;
The processor resets the fire detection module when a fire detection signal is received by executing the program, determines that a fire detection signal less than a preset number of times is a malfunction, and when the fire detection signal is determined as a malfunction, the plurality of Performs malfunction recovery processing of muting alarm bells, determines that a fire detection signal occurs more than a preset number of times, stops the operation of muting the plurality of alarm bells, fire detection signal information, malfunction status information, malfunction action information Generates fire management data comprising a, and transmits the fire management data to a user terminal,
The firefighting facility management device includes a commercial power control relay connected to the fire receiver, a battery power control relay, and an alarm muting control relay, and a communication module for transmitting and receiving data of the fire receiver including a P-type receiver. do,
The firefighting facility management device is connected to the fire receiver, receives first power through the commercial power control relay and supplies it to the fire receiver, and the reset cuts off the power supplied to the fire receiver for a preset time, ,
The firefighting facility management device includes a first terminal connected to the alarm bell of the fire receiver and a second terminal connected to the main alarm bell terminal of the fire receiver, and blocking the second terminal through the alarm bell mute control relay Fire-fighting facility management device characterized by. According to claim 1,
The fire management data includes at least one of fire detection information, malfunction recovery processing information, periodic inspection information, operation state information of at least one of an indoor fire hydrant and a sprinkler, and operation information of the firefighting facility management device,
The firefighting facility management apparatus transmits the fire management data to a user terminal through a network, and receives the firefighting facility management apparatus or fire receiver operation data from the user terminal. delete According to claim 1,
The firefighting facility management device further includes a communication module for transmitting and receiving data of a fire receiver including a P-type receiver,
The communication module is a firefighting facility management device comprising at least one of a WIFI module, an Ethernet communication module, and an RF module. 5. The method of claim 4,
The processor resets the fire detection module when a fire detection signal is received, determines that a fire detection signal less than a preset number of times is a malfunction, and determines that a fire detection signal occurs more than a preset number of times as a fire facility management device. delete In the firefighting facility management method performed by the firefighting facility management device,
When a fire detection signal is received, resetting the fire detection module, determining that a fire detection signal less than a preset number of times is a malfunction, and performing a malfunction recovery process of muting a plurality of alarms when the fire detection signal is determined as a malfunction;
determining a fire when a fire detection signal is generated more than a preset number of times, stopping the operation of muting the plurality of alarm bells, and controlling the plurality of alarm bells; and
generating fire management data based on the fire detection signal, and transmitting the fire management data to a user terminal through a network;
The firefighting facility management device includes a commercial power control relay connected to the fire receiver, a battery power control relay, and a bell mute control relay, and a communication module for transmitting and receiving data of the fire receiver including a P-type receiver. ,
The firefighting facility management device is connected to the fire receiver, receives first power through the commercial power control relay and supplies it to the fire receiver, and the reset cuts off the power supplied to the fire receiver for a preset time, ,
The firefighting facility management device includes a first terminal connected to the alarm bell of the fire receiver and a second terminal connected to the main alarm bell terminal of the fire receiver, and blocks the second terminal through the alarm bell mute control relay,
The fire management data includes fire detection information, malfunction status information, malfunction recovery processing information, regular inspection information, operation status information of at least one of an indoor fire hydrant and a sprinkler, or operation information of the firefighting facility management device. How to manage firefighting facilities.

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