KR101527725B1 - System to manage fire fighting facilities and method for managing thereof - Google Patents

Abstract

The present invention discloses a system to manage firefighting facilities for a rapid response and maintenance in case of fire through regular supervision of a building with firefighting facilities and a method for managing thereof. According to the present invention, the system for a rapid response and maintenance in case of fire through regular supervision of a building with firefighting facilities, comprises: a fire signal receiving unit configured to be connected to a fire sensor; and a terminal for transmitting and receiving a fire signal and a control signal. The fire signal receiving unit comprises a signal transmitting and receiving unit for letting a fire signal and a control signal be transmitted or received between the terminals. The signal transmitting and receiving unit grants an identification number to each of a plurality of the fire signal receiving units, is configured for the identification number to be determined when one of the multiple fire signal receiving units transmits a fire signal, and is placed to be mounted on the fire signal receiving unit. Accordingly, 24x7 fire monitoring can be possible regardless of the place through an Internet network while fire monitoring was possible only in the controlled places of a building with a fire signal receiving device installed in the past, thereby reducing property damage and casualties through a rapid initial response in case of fire, and reducing maintenance and management cost and labor required for firefighting facilities at ordinary times.

Description

FIRE PROTECTION MANAGEMENT SYSTEM AND METHOD FOR MANAGING THE SAME

FIELD OF THE INVENTION The present invention relates to a firefighting facility management system and method for managing the same, and more particularly, to a firefighting facility management system and a management method thereof for prompt response, maintenance, .

According to Article 49 (4) of the Fire Prevention Installation and Maintenance and Safety Management Act, the owner, manager or occupier of the fire protection object periodically checks the fire protection facilities installed in the object, If a fire extinguisher is to be inspected outside the self-inspection, inspection of such fire-extinguishing facilities should be carried out according to the size of the fire-fighting facilities. Although it is possible to confirm all the symptoms of the fire-fighting facilities of a certain building by the fire receiver and the control panel, it is difficult to monitor the fire 24 hours in real time. Therefore, when there is a fire in the absence of the monitor, have.

Meanwhile, in recent years, the spread of portable devices such as smart phones has been spreading due to the development of technology, and the fields and technologies utilizing such portable devices are rapidly developing.

With portable devices, the advantage of being able to use a lot of information without limiting the time and place without having to configure a separate network can be used for fire monitoring, which enables more efficient fire monitoring with less manpower.

Therefore, it is necessary to develop a system capable of mutually monitoring the situation of the fire receiver and the control panel using a portable device, and controlling the firefighting facility according to the situation.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a fire alarm system in which a situation of a fire receiver is monitored in a PC or a portable device, This system enables the supervisor to monitor the fire alarm system 24 hours a day at all times, reduce the damage to property and people by quick response in case of fire, and can quickly respond to the maintenance and management of firefighting facilities. .

A fire alarm system, comprising: a fire detector connected to a fire detector in a fire alarm system, A terminal for transmitting or receiving a fire signal and a control signal; And a signal receiving and transmitting unit for transmitting or receiving a fire signal and a control signal between the terminals, wherein the signal transmitting and receiving unit is configured to assign an identification number to each of the plurality of fire receiving units, The identification number is determined when the fire signal is transmitted from the fire receiver of one of the fire receivers, and the fire sensor is mounted to the fire receiver.

When the fire signal is to be transmitted to a plurality of terminals, the signal transmitting and receiving unit monitors the fire signal receiver through a plurality of terminals and transmits a control signal to the fire signal receiver , It is possible to control the fire receiving unit through a plurality of terminals.

At least one terminal among the plurality of terminals is arranged to store a database including the state of a firefighting facility of a building in which the fire receiver is installed and the presence or absence of a fire of the building corresponding to the identification number of the fire receiver, The terminal may store a plurality of terminals in which the database is not stored in association with a plurality of terminals in which the database is not stored.

The signal transmitting and receiving unit receives the contact signal transmitted by the fire receiver and converts the analog signal into an analog signal and transmits the analog signal to the terminal. The analog signal transmitted from the terminal is changed to a contact system, So that the fire receiver can be controlled.

In the method for quick response and maintenance of a fire caused by a constant monitoring of a building in which a firefighting facility is installed, each identification number is assigned to an output contact of a plurality of fire receiving units, respectively; Inputting a database including a status of a firefighting facility and a fire status to a building corresponding to an identification number of each of the fire receivers; Transmitting the database input to the signal transmitting and receiving unit to a predetermined number of terminals; And outputting the database to a predetermined number of terminals, and when a fire signal is detected in one of the plurality of fire receiving units, transmitting the fire signal from the fire receiving unit to the signal transmitting and receiving unit ; The signal transmission / reception unit determining the identification number and transmitting the identification number to the terminal; And controlling the fire fighting system based on the database stored in the terminal.

It is possible to monitor the fire monitoring which was possible only in the management place of the building where the fire receptor is installed through the Internet network, regardless of the place, and it can reduce property and personal injury by quick initial response in case of fire, And management costs and manpower savings.

1 is a block diagram showing a fire fighting management system according to an embodiment of the present invention.
2 is a flowchart illustrating a fire fighting management method according to an embodiment of the present invention.
3 is a view for explaining a fire fighting management system according to an embodiment of the present invention.
4A and 4B are explanatory views of an input or output signal relayed by the signal transmitting and receiving unit of the fire fighting management system according to the first embodiment of the present invention.
5A and 5B are views for explaining the interconnections among the components of the fire fighting management system according to the first embodiment of the present invention.
6A and 6B are diagrams for explaining a method of identifying a fire receiver by assigning respective identification numbers to output contacts of a plurality of fire receivers in the fire fighting management system according to the first embodiment of the present invention.
7A to 7D are views for explaining a program used by a terminal of the fire fighting management system according to the first embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a block diagram showing a fire fighting management system according to an embodiment of the present invention.

The fire fighting management system according to the present embodiment is provided for monitoring and controlling the situation of the fire receiving unit 100 at the terminal using the wired or wireless communication in the situation of the fire receiving unit 100. [

To this end, the fire fighting management system according to the present embodiment includes a fire receiving unit 100 to which a fire monitor is connected, a signal transmitting and receiving unit 200 for relaying a fire signal and a control signal between the fire receiving unit and the terminal, And a terminal 300 for receiving a control signal and transmitting a control signal.

Here, the fire receiving unit 100 of the fire fighting management system according to the present embodiment means a fire receiving unit installed and used in a building in which a fire fighting facility is installed.

The terminal of the fire fighting management system according to the present embodiment means an electronic device such as a PC (personal computer) or a smart phone which is commonly used by us.

2 is a flowchart illustrating a fire fighting management method according to an embodiment of the present invention.

The fire reception unit 100 of the fire fighting management system according to the present embodiment is connected to a fire monitor to constantly monitor the fire (S201)

During the normal monitoring by the fire receiving unit 100, the fire receiving unit 100 transmits the contact signal to the signal transmitting and receiving unit 200 even if a state change such as a fire does not occur (S202)

Then, the signal transmitting and receiving unit 200 converts the contact signal received from the fire receiving unit 100 into an analog signal (S203), and transmits the analog signal to the terminal 300 through the Internet (S204)

Accordingly, the terminal 300 can remotely monitor the status of the fire receiving unit 100 (S205)

This saves the cost of fire fighting management by eliminating the need for individual surveillance personnel for each fire-fighting facility, reducing the number of people managing fire stations and monitoring fire.

If a fire occurs in a state where the fire is continuously monitored at a long distance as described above (S206-Y), the fire receiving unit 100 of the building in which the fire occurs generates the fire signal 100 to the signal transmitting and receiving unit 200 (S207) and transmits it by the contact method (S208)

Then, the signal transmitting and receiving unit 200 converts the contact signal into an analog signal (S209) and transmits the analog signal to the terminal 300 (S210)

Based on the analog signal received by the terminal 300, the manager can grasp information of a fire-fighting facility installed in a building or a building where a fire occurs. Accordingly, the manager determines how to use the fire fighting facilities to suppress the fire, and then remotely controls the fire fighting facility using the terminal 300 (S211)

At this time, in the remote control method, the analog signal is transmitted to the signal transmission / reception unit 200 (S212), the signal transmission / reception unit 200 converts the analog signal again into the contact signal (S213)

Then, the fire receiving unit 100 operates the fire fighting equipment installed in the building (S215)

If the fire has not been completely suppressed (S216-N), the fire receiving unit generates a fire signal again and transmits a contact signal to the signal transmitting / receiving unit 200. Thus, To receive the remote control again.

A signal transmitted from the fire receiver 100 to the terminal 300 is a fire signal and a signal transmitted from the terminal 300 to the fire receiver 100 is a control signal.

At this time, the fire receiving unit 100 of the present embodiment means one of a plurality of fire receiving units installed respectively in a building in which a fire fighting facility is installed.

In addition, the present embodiment can receive the signal transmitted from the signal transmitting and receiving unit 200 through at least one of the plurality of terminals 300 irrespective of when a fire signal is being monitored at all times. For example, the terminal 300 may be constituted by one PC serving as a server, and further, a plurality of smartphones may be further configured.

Also, in this embodiment, a plurality of smartphones can be used to monitor buildings in which fire detectors are installed alternately, and 24 hours of monitoring can be obtained.

3 is a view for explaining a fire fighting management system according to an embodiment of the present invention.

In this embodiment, a plurality of fire catching units 100 installed in a building in which a fire fighting facility is installed is given an identification number. When a fire signal is transmitted to the signal transmitting and receiving unit 200, the signal transmitting and receiving unit 200 Transmits a fire signal to the PC 300 and the mobile terminal 300 acting as a server through the Internet.

At this time, information related to the fire fighting facilities installed in each building is stored in the PC 300 in a database.

The PC 300 and the mobile terminals 300 can be interlocked with each other to monitor the fire reception unit 100 and remotely control the firefighting facility from either the PC 300 or the mobile terminals 300 .

4A and 4B are explanatory views of an input or output signal relayed by the signal transmitting and receiving unit of the fire fighting management system according to the first embodiment of the present invention.

FIG. 4A is a diagram specifically illustrating an item of a signal transmitted from a fire receiver to a terminal of the fire fighting management system according to the first embodiment of the present invention. FIG.

The fire signals transmitted from the fire reception unit to the terminal are composed of items for monitoring and monitoring the situation of the fire reception unit in the terminal.

FIG. 4B is a diagram specifically illustrating an item of a control signal transmitted from a terminal of the fire fighting management system to the fire receiver according to the first embodiment of the present invention. FIG.

The signals transmitted from the terminal to the fire receiver are composed of items for controlling fire fighting facilities in the terminal.

In summary, the signal transmitting and receiving unit 200 receives signals from a fire receiving unit, such as fire, boundary zone, alarm, emergency broadcast, siren, buzzer, pump start, pump check, pump stop, low water level, Signals of valve check, alarm valve check, gas discharge check, judge lamp check, transmitter, automatic restoration and fire restoration are transmitted and fire, boundary zone, alarm, emergency broadcast, siren, buzzer, It is relayed so that signals of pump start, pump check, pump stop, low water level check, open / shut valve check, preaction valve check, alarm valve check, gas discharge check, judge lamp check, sender, Facilitate control of the facility.

However, the numbers and components of the signals described in the first embodiment of the present invention can be changed, which is only an embodiment of the present invention as shown in FIGS. 4A and 4B. It means not.

5A and 5B are views for explaining the interconnections among the components of the fire fighting management system according to the first embodiment of the present invention.

5A is a plan layout diagram of a signal transmitting and receiving unit 200 of the fire fighting management system according to the first embodiment of the present invention.

5B is a diagram for explaining the interconnection between the fire receiver 100 and the signal transceiver 200 of the fire fighting management system according to the first embodiment of the present invention.

The signal transmitting and receiving unit 200 is designed as a built-in type of fire receiving unit (fire receiving unit) to prevent an external error, and does not modify the existing fire receiving unit (fire receiving unit) installed in the building. It can be used to detect fire, boundary zone, alarm, emergency broadcasting, siren, buzzer, pump start, pump check, pump stop, low water level, check valve, preaction valve check, The existing fire receiver 100 is operated normally regardless of whether the signal transmitting and receiving unit 200 is operated or not by connecting the output line of the gas emission confirmation, the guidance lamp lighting confirmation, the transmitter, the automatic recovery, In order to avoid giving out.

Also, in order to prevent the fire signal receiving unit 100 from operating normally regardless of the operation of the fire signal transmitting / receiving unit, the signal transmitting / receiving unit 200 uses the contact of the secondary output as it is, In order to prevent duplication of signals when applying the same device to multiple objects, two 8PINs are used to base 65,536 points using binary method to transmit and receive a unique signal to a DIP switch, Converts the contact point of the fire receiving unit 100 into an analog signal, and transmits a unique signal to the terminal through the Internet.

Where 65,536 is a number corresponding to the power of 16 of 2.

The signal inputted from the terminal again changes the analog signal input through the signal transmitting and receiving unit 200 to the contact type so that it can issue a control command to the fire receiving unit 100.

6A and 6B are diagrams for explaining a method of identifying the fire receiver 100 by assigning respective identification numbers to output contacts of a plurality of fire receivers 100 in the fire fighting management system according to the first embodiment of the present invention FIG.

Each of the plurality of fire receiving units 100 according to the present embodiment is given a unique identification number. When a fire signal is transmitted from the fire receiving unit 100 to which the specific identification number is assigned, the fire signal receiving unit 100 is determined through the identification number, The identification number can be transmitted together with the fire signal.

7A to 7D are views for explaining a program used by a terminal of the fire fighting management system according to the first embodiment of the present invention.

7A to 7D, the program of the fire fighting management system according to the first embodiment of the present invention is a program for connecting a signal transmitting / receiving unit and a PC serving as a server.

7A is a main screen window of the program.

7B is an individual window of the program.

FIG. 7C is a window showing the history management of the program according to the situation.

7D is a basic input window of the program.

Referring to FIGS. 7A to 7D, an emergency number is prepared by recording the address and the state of the firefighting facility with the unique number of the DIP switch of the signal transmission / reception unit as the name of the business partner.

In addition, when three representative contacts are input and a signal is received at the same time as the signal transmission / reception unit is attached, the window of the target customer's name is opened in the order in which the signals are received so that the sound can be confirmed even if the sound is not transmitted by the alarm sound. It is displayed in red on the incoming window, and it can be indicated by any signal or text and can be checked immediately.

In addition, the control command allows the user to input the screen displayed in red color by touching or typing. In order to be able to communicate with the representative telephone even in case of an emergency, Ensure accurate fire fighting.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: Fire receiver
200: Signal transmission /
300: terminal
DB: Database

Claims (5)

In a system for prompt response and maintenance of a fire in case of constant monitoring of buildings equipped with firefighting facilities,
A fire receiver configured to connect a fire detector;
A terminal for transmitting or receiving a fire signal and a control signal; And
Wherein the fire receiver includes a signal transmitter and receiver for transmitting or receiving a fire signal and a control signal between the terminals,
The signal transmitting /
The identification number is determined when the fire signal is transmitted from one of the plurality of fire receivers to the fire receiver, ,
The fire receiver comprises:
Monitoring whether or not the fire of the building installed with the firefighting facility is constantly monitored through the fire detector so that the fire occurrence of the building installed with the firefighting facility is monitored at all times, The signal transmitting and receiving unit transmits a contact signal indicating a state in which no fire occurs to the building in which the fire fighting facility is installed,
The signal transmitting /
Converting the contact signal received from the fire receiver into an analog signal and transmitting the analog signal to the terminal,
The terminal,
Wherein the monitoring unit continuously remotely monitors the occurrence of a fire in the building based on the analog signal received from the signal transmitting and receiving unit. The method according to claim 1,
The signal transmitting /
When a fire signal is transmitted from the fire receiver to a plurality of terminals,
A fire receiver is monitored through a plurality of terminals,
When a plurality of terminals transmit control signals to the fire receiver,
Wherein the fire control unit controls the fire control unit through a plurality of terminals. 3. The method of claim 2,
Wherein at least one of the plurality of terminals comprises:
A database including the status of a fire-fighting facility of the building in which the fire receiver is installed and the fire status of the building corresponding to the identification number of the fire receiver,
The terminal, which stores the database,
Wherein the plurality of terminals, in which the database is not stored, in association with the plurality of terminals, in which the database is not stored, are also implemented in the same manner. The method according to claim 1,
The signal transmitting /
The fire signal received by the fire receiving unit is converted into an analog signal and is transmitted to the terminal. The analog signal transmitted from the terminal is changed to a contact type and transmitted to the fire receiving unit, Wherein the fire control system comprises: In a method for quick response and maintenance of a fire in case of constant monitoring of buildings equipped with firefighting facilities,
Causing each identification number to be assigned to an output contact of each of a plurality of fire receiving units;
Inputting a database including a status of a firefighting facility and a fire status to a building corresponding to an identification number of each of the fire receivers;
Transmitting the database input to the signal transmitting and receiving unit to a predetermined number of terminals; And
And outputting the database to a predetermined number of terminals,
When a fire signal is detected in one of the plurality of fire receiving units,
Transmitting the fire signal from the fire reception unit to the signal transmission / reception unit;
The signal transmission / reception unit determining the identification number and transmitting the identification number to the terminal; And
And controlling the fire fighting system based on the database stored in the terminal,
The fire receiver comprises:
A fire detector is provided for monitoring the occurrence of a fire in a building in which the fire fighting facility is installed so that the occurrence of a fire in the fire fighting facility is always monitored remotely. A signal transmission / reception unit transmits a contact signal indicating a state in which a fire is not generated to a building in which the fire fighting system is installed,
The signal transmitting /
Converting the contact signal received from the fire receiver into an analog signal and transmitting the analog signal to the terminal,
The terminal,
And monitoring the fire occurrence of the building on a basis of the analog signal received from the signal transmitting and receiving unit remotely.

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