KR101926089B1 - Integrated management system for firefighting facility in apartment house - Google Patents

Abstract

The present invention relates to an integrated firefighting facility management system of an apartment house using electricity. According to the present invention, a firefighting or management head office checks normal operation of a firefighting facility and a water pressure value of a pipe through a receiver including an input module unit, a set-top box, and a management server via an Internet network in real time. When abnormal operation occurs, the abnormal operation is immediately checked to be informed to a building manager, such that the firefighting facility is effectively managed, and thus a large disaster and waste in human power are prevented. Moreover, the water pressure of an indoor hydrant water supply pipe and a sprinkler water supply pipe is detected when fire water is supplied thereto, such that the water pressure of fire water when the indoor hydrant water supply pipe and the sprinkler water supply pipe are operated, abnormality, such as a pore, a crack, and the like, is detected from the indoor hydrant water supply pipe and the sprinkler water supply pipe, and thus correct measurement is realized. According to the present invention, the integrated firefighting facility management system comprises the receiver, the set-top box, and the management server.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an integrated management system for firefighting facilities,

More particularly, the present invention relates to an integrated management system for a fire-fighting facility using electricity in a multi-unit house, and more particularly, Water pressure value can be checked in real time through the internet network at the fire department or the administrative headquarters. In addition, it is possible to notify the building manager immediately when abnormal operation occurs, and it is possible to manage the firefighting facilities more effectively, Since the real-time fire-fighting equipment is managed by the Internet network, waste of manpower can be prevented, objectivity of safety inspection can be greatly improved, and the water pressure of the fire water when the indoor fire hydrant and the sprinkler are operated can be detected , Perforations and cracks in indoor fire hydrant supply pipes and sprinkler water pipes The present invention relates to an integrated management system for a fire-fighting facility using electric power of a multi-family house, which enables detection of an abnormality and enables more accurate management.

Generally, the fire-fighting facilities installed in the apartment house include a fire alarm, a sprinkler, a fire pump, and an indoor fire hydrant, which are provided for each floor to detect fire and generate an alarm.

It is important that the fire-fighting facilities keep the fire-fighting equipment in a normal state at all times by detecting the fire when it occurs and by allowing it to cope with the fire quickly.

To this end, there is conventionally a receiver, which is electrically connected to a fire-fighting facility and is capable of visually confirming or controlling the operation of the fire-fighting equipment in a management room, and an indicator is provided in the receiver. When the fire-fighting equipment is in a normal state, If the fire fighting equipment is in an abnormal state, the indicator is turned off and the administrator can check whether the fire fighting equipment is normal or abnormal,

The fire-fighting facilities are designed to detect a fire when it occurs and to cope with a large-scale fire by promptly responding to the fire. When the light is turned off and the fire-fighting equipment is found to be abnormal, the fire- It is very important that the fire fighting system is always in normal condition.

A conventional prior art is a fire alarm system management system (hereinafter referred to as " Prior Art 1 ") equipped with an input module in Korean Buildings 10-0930980 (Registered on December 02, 2009) Through the set-top box and the management server, it is possible to check the normal operation status of the fire-fighting facilities and the pressure value of the pipeline in real time from the fire department or the administrative office through the Internet network. Since it can manage firefighting facilities more effectively, it can prevent large-scale disasters. Since real-time firefighting equipment is managed by internet network, it is possible to prevent waste of manpower, and also to improve the objectivity of safety inspection. Lt; / RTI >

However, this prior art 1 has a problem that it is difficult to maintain the water pressure supplied from the water tank provided on the roof of the apartment house to the channel constantly.

As a prior art for solving these problems, Korean Patent No. 10-174214 (Registered on May 27, 2015) entitled " Integrated Fire Control Equipment Integrated Management System of Apartment House "(hereinafter referred to as Prior Art 2) The water pressure supplied from the water tank to the pipeline can be maintained constant so that the water supply to the indoor fire hydrant and the sprinkler can be smoothly performed and the fire fighting equipment can be more efficiently managed.

Here, the water pressure to be measured by the pressure detection sensor unit is a water pressure value when the fire hydrant is supplied to the indoor fire hydrant and the sprinkler through a pipeline. In the prior arts 1 and 2, the pressure detection sensor unit is connected to a water tank Since it is installed in the pipeline, it can not measure the actual water pressure value.

That is, the water pressure value that can be measured by the pressure detection sensor unit of the prior arts 1 and 2 can measure the water pressure value according to the water head difference between the water level in the water tank and the installation position of the pressure detection sensor unit, Which means that the water is filled in the water.

Therefore, the prior arts 1 and 2 can not measure the hydraulic pressure value when the fire hydrant is supplied to the indoor fire hydrant and the sprinkler through the pipeline which is a water pressure value requiring actual measurement, There is no meaning in.

In addition, since it does not detect the water pressure while supplying fire water to the indoor fire hydrant supply pipe and the sprinkler water supply pipe, it is impossible to confirm the abnormality of the indoor fire hydrant water supply pipe and the sprinkler water supply pipe which supply the fire water to the indoor fire hydrant and the sprinkler.

That is, when an actual fire occurs and the fire water is supplied to the indoor fire hydrant and the sprinkler, the water pressure drops when the water pipe is punctured or cracked. In the prior arts 1 and 2, the puncture or crack portion of the water pipe can not be detected .

In other words, in the prior arts 1 and 2, in order to measure the water pressure when the fire hydrant is supplied to the indoor fire hydrant and the sprinkler through the conduit, water is supplied to the indoor fire hydrant and the sprinkler through the indoor hydrant supply pipe and the sprinkler water supply pipe, The water pressure in the pipeline should be measured by the sensor part.

In this case, if water is supplied through the pipeline, fire water is waterproofed from the indoor fire hydrant and the sprinkler.

Korea Registered Patent No. 10-0930980 (Registered on December 2, 2009) "Management System of Fire Fighting Facilities Installed in Various Buildings" Korea Registered Patent No. 10-174214 (Registered on May 25, 2015) "Integrated management system for fire fighting facilities in apartment buildings"

Accordingly, it is an object of the present invention to provide a system and method for real-time operation of a fire-fighting facility and a water pressure value of a pipeline through a receiver, a set-top box and a management server, As soon as an operation occurs, it can be immediately confirmed and informed to the building manager. Therefore, it is possible to more effectively manage the fire-fighting facilities, thereby preventing large-scale disasters and real- It is possible to detect the water pressure of the fire water when the indoor fire hydrant and the sprinkler are operated and to detect the abnormality such as the puncture or crack of the indoor fire hydrant water supply pipe and the sprinkler water supply pipe, Electricity-based cottages that enable management It is to provide integrated facilities management systems.

According to an aspect of the present invention, there is provided a fire fighting system comprising: a receiver (100) having an input module (120) for receiving and transmitting operation signals of various fire fighting equipment installed in a building; A data input unit 210 for receiving data to be transmitted from the input module 120 and a central processing unit 220 for transmitting abnormal data among the data input from the data input unit 120 to the transmitting and receiving unit and storing normal data, An Internet transmission / reception unit 230 for transmitting or receiving data transmitted from the central processing unit 220 through the Internet network; and a storage unit 230 for storing data according to a storage command of the central processing unit 220 A set top box 200 including a main memory 240; A data collecting unit 330 for collecting data transmitted from the set top box 200, a central processing unit 320 for transmitting data collected by the data collecting unit, The data transmitted from the central processing unit 320 is displayed on a pop-up window so that the administrator can visually confirm the data, and on the contrary, when the administrator connects to the set-top box 200 via the Internet network, A terminal controller 310 provided for identification, a history of various buildings to be installed, and a map of inside buildings are stored in a database, and the information is stored and provided for the administrator to visually check through the terminal controller 310 And a management server (300) including a main memory (340), and is supplied to an indoor fire hydrant and a sprinkler The fire water piping system 400 further includes a fire water tank 410 installed separately from the living water tank on the roof of the apartment house. And an indoor fire hydrant outlet valve V12 connected in parallel to the fire hydrant water supply pipe Lm via an indoor fire hydrant intake valve V11 for each floor, The indoor fire hydrant supply pipe L1 connected to the indoor fire hydrant through the sprinkler outlet valve V22 is connected in parallel to the fire water supply pipe Lm through the sprinkler intake valve V21 for each floor, And a lower end of the fire water supply pipe Lm is connected to an upper end of the fire extinguishing water supply pipe Lm. The lower end of the reservoir 420 and the lower end of the fire extinguishing water supply pipe Lm are connected to each other. A recovery pipe L3 connected between the upper end of the water tank 410 through a recovery valve V40 and a water discharge pipe L3 installed in the middle of the recovery pipe L3 to pump water in the storage tank 420, And a recovery pump 430 for recovering the detected water pressure of the fire-fighting water supplied to the indoor fire hydrant and the sprinkler to the input water pressure of the input module of the receiver 100, The water pressure detector 500 includes an indoor fire hydrant water pressure sensor 510 installed in the indoor fire hydrant supply pipe L1 and a water pressure sensor 500 installed in the sprinkler water pipe L2, A central processing unit 530 for receiving and transmitting the measured values from the indoor fire hydrant hydraulic pressure sensor 510 and the sprinkler hydraulic pressure sensor 520 and a sprinkler hydraulic pressure sensor 520 installed from the central processing unit 530 Enter the transmitted water pressure value through RS485 communication And a transmission unit 540 for transmitting the digital value to the module unit 120. The input module unit 120 is provided with an arithmetic unit capable of converting an analog value detected and transmitted by the pressure detection unit 500 into a digital value And the water pressure detector 500 includes the main valve Vm, the indoor hydrant inlet valve V11, the indoor hydrant outlet valve V12, the sprinkler inlet valve V21, the sprinkler outlet valve V22, The water pressure detection mode input unit 550 further includes a water pressure detection mode input unit 550 that can open and close the main valve V40 and can operate and stop the recovery pump 430. The water pressure detection mode input unit 550 includes the main valve Vm, And the recovery pump (430) can be operated and stopped by opening and closing the hydrant intake valve (V11), the sprinkler intake valve (V21) and the recovery valve (V30) Management system.

According to the integrated management system for fire fighting facilities using the electricity of the apartment house of the present invention, the normal operation of the fire fighting equipment and the water pressure value of the ducts are transmitted from the fire fighting headquarters or the management headquarters through the receiver, the set- And it can notify the building manager immediately when an abnormal operation occurs. Therefore, it is possible to more effectively manage the fire-fighting facilities, thereby preventing a major disaster.

In addition, since the real-time fire fighting equipment is managed by the Internet network, waste of manpower can be prevented, and the objectivity of the safety check can be greatly improved.

In addition, it is able to detect the water pressure of the indoor fire hydrant and the sprinkler water supply pipe in the state that water is supplied to the indoor fire hydrant supply pipe and the sprinkler water supply pipe. Therefore, it is possible to detect the water pressure of the fire water when the indoor fire hydrant and the sprinkler operate, It is possible to detect abnormality such as puncture or crack of the water supply pipe, and more accurate management becomes possible.

1 to 5 show a preferred embodiment of an integrated fire fighting facility management system using electricity in a multi-unit house according to the present invention,
FIG. 1 is a conceptual view showing an integrated management system for a fire fighting facility using electricity of a multi-family house according to the present invention,
FIG. 2 is a block diagram of a set-top box of an integrated management system for a fire fighting facility using electricity in a multi-
FIG. 3 is a block diagram of a management server of an integrated fire fighting system management system using electricity in a multi-house according to the present invention;
4 is a view showing a fire-water piping system of a multi-
5 is a block diagram showing a hydraulic pressure detecting unit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an integrated fire fighting system management system using electricity in a multi-unit house according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 show a preferred embodiment of a fire fighting facility integrated management system using electricity in a multi-house according to the present invention.

As shown in FIGS. 1 to 5, the fire fighting system integrated management system using electricity of the apartment house according to the present embodiment includes a receiver 100, a set-top box 200, and a management server 300.

The receiver 100 is electrically connected to various buildings, for example, fire-fighting facilities installed in a multi-family house, so that the user can visually check the operation or control the operation thereof, Respectively.

In the present invention, the input module unit 120, which can receive and transmit the operation signal of the receiver 100, is provided inside or at one side of the receiver.

At this time, the operation signal transmitted from the input module 120 includes both a normal signal and an abnormal signal, and is transmitted in real time.

As a method of transmitting the data, it is preferable to use serial communication which is advantageous for real time transmission, that is, RS485 communication.

Of course, since the transmission method can be implemented in various ways, the communication method is not limited in the present invention.

The normal operation of the receiver 100 and the determination of the non-constant operation thereof have been heretofore described and will not be described herein.

The set-top box 200 is connected to the input module unit 120 through RS485 communication, and stores the data input from the input module 120 in real time, detects abnormal data, and transmits the data through the Internet network .

2, the set-top box 200 includes a data input unit 210, a central processing unit 220, an Internet transmission / reception unit 230, and a main storage unit 240.

The data input unit 210 receives data to be transmitted from the input module unit 120.

The central processing unit 220 detects abnormal data among the data input from the data input unit 210 and transmits the abnormal data through the Internet transmission and reception unit 230 and stores normal data in the main memory 240 in real time.

The Internet transceiver 230 is configured to transmit the abnormal data transmitted from the central processing unit 220 through the Internet network or receive data transmitted from the management server 300.

The main memory 240 stores data in real time according to a storage command of the central processing unit 220.

The set-top box 200 configured as described above is generally used as a device for providing various additional functions such as internet connection.

The management server 300 is provided in the fire department or the management center. The history of the detailed map and the location of the built apartment is stored in a database. The data transmitted from the set top box 200 is collected Thereby making the display.

3, the management server 300 includes a data collecting unit 310, a central processing unit 320, a terminal controller 330, and a main storage unit 340.

The data collecting unit 310 is configured to collect data transmitted from the set-top box 200.

The central processing unit 320 is configured to transmit the data collected by the data collecting unit 310 to the terminal controller 330 and the main memory 340.

The terminal controller 330 displays the data transmitted from the central processing unit 320 through a pop-up window or the like through a monitor so that the administrator can visually confirm the data, and conversely, the manager accesses the set- ) Can be checked to see if there is any abnormality in the data being transmitted. The terminal controller 330 is a device that collectively controls computers and the like that can be connected to the central processing unit 320 by using a LAN or communication.

The main memory 340 stores and provides information such that the positions and internal directions of various apartment houses to be constructed are stored in a database so that the administrator can visually confirm them through the terminal controller 330.

Meanwhile, the integrated management system of fire fighting facilities using electricity in the apartment house of the present invention may further include a fire-fighting water piping system 400 to measure and manage the pressure and flow rate of the fire fighting water supplied to the indoor fire fighting system and the sprinkler .

The fire-water piping system 400 includes a fire-fighting water supply pipe Lm connected to a fire-fighting water tank 410 provided separately from a living water tank on the roof of the apartment house through a main valve Vm, The indoor fire hydrant supply line (L1) is connected to the indoor fire hydrant via a indoor fire hydrant outlet valve (V12) of each floor in parallel through the indoor fire hydrant input valve (V11) A sprinkler water supply line L2 connected to the sprinkler through a sprinkler water outlet valve V22 of each layer connected in parallel through a water inlet valve V21 and a water supply line L2 provided in a basement of the water supply water supply pipe Lm, A recovery pipe L3 connected between a lower end of the storage tank 420 and an upper end of the fire water tank 410 through a recovery valve V40, L3) And a recovery pump 430 installed to pump the water in the storage tank 420 and return the water to the water tank 410 through the recovery pipe L3 (see FIG. 4).

The volume of the storage tank 420 is preferably equal to or larger than the volume of the minimum water tank 410.

The fire water supply pipe Lm and the recovery pipe L3 are installed through a pipe chamber 440 installed at one side or an intermediate portion of the apartment house and the storage tank 420 may be installed in a basement of the apartment house.

The sprinkler water supply pipe (L1) and the sprinkler water supply pipe (L2) are provided for each floor of the apartment house. A sprinkler water supply pipe (not shown) for supplying fire water to the sprinkler installed in each household is connected to the sprinkler water supply pipe .

The main valve Vm, the indoor hydrant inlet valve V11, the indoor hydrant outlet valve V12, the sprinkler inlet valve V21, the sprinkler outlet valve V22 and the recovery valve V40 can be manually opened A mechanical valve such as a solenoid valve which can be electronically controlled may be used.

The integrated fire fighting system management system of the apartment house according to the present invention detects the water pressure of the fire fighting water supplied to the indoor fire hydrant and the sprinkler and sends the detected water pressure value to the input module unit 120 of the receiver 100 And a water pressure detector 500 (see FIG. 1).

The water pressure detector 500 is provided to check whether the indoor fire hydrant supply pipe L1 and the sprinkler water supply pipe L2 of each layer are supplied with appropriate water pressure.

The hydraulic pressure detector 500 includes an indoor hydrostatic water pressure sensor 510 installed in the indoor hydrant supply pipe L1 and a sprinkler hydraulic pressure sensor 520 installed in the sprinkler water supply pipe L2, A central processing unit 530 for receiving and transmitting the measured values from the sprinkler hydraulic pressure sensor 520 and the sprinkler hydraulic pressure sensor 520 and a control unit 530 for transmitting the hydraulic pressure value transmitted from the central processing unit 530 to the input module unit 120 via RS485 communication (See FIG. 5).

The input module 120 may further include an arithmetic unit operable to convert an analog value detected and transmitted by the pressure detector 500 into a digital value.

Accordingly, the input module 120 can transmit the converted digital values to the set-top box 200 in real time.

At this time, the central processing unit 220 of the set-top box 200 recognizes that the pressure measured by the pressure detecting unit 500 is a normal value when the pressure is in the legal water pressure range, do.

In the above description, the case where the pressure detecting unit 500 transmits to the input module 120 is exemplified, but it is very clear that the pressure detecting unit 500 can be configured to directly transmit it from the set-top box 200 without going through the input module 120 .

The water pressure detector 500 includes the main valve Vm, the indoor hydrant inlet valve V11, the indoor hydrant outlet valve V12, the sprinkler inlet valve V21, the sprinkler outlet valve V22, And may further include a water pressure detection mode input unit 550 that can open and close the water pump 430 and can operate and stop the water pump 430.

The water pressure detection mode input unit 550 opens and closes the main valve Vm, the indoor hydrant intake valve V11, the sprinkler intake valve V21 and the recovery valve V30, Respectively.

When the water pressure detection mode is input to the water pressure detection mode input unit 550, the main valve Vm, the indoor hydrant intake valve V11, the sprinkler intake valve V21 and the recovery valve V30 are opened, The fire water of the fire water supply pipe Lm is supplied to the indoor fire hydrant supply pipe L1 through the indoor fire hydrant intake valve V11 and the sprinkler intake valve V21, And is stored in the storage tank 420 at the lower end of the fire water supply pipe Lm.

The indoor hydropneumatic water pressure sensor 510 and the sprinkler hydraulic pressure sensor 520 installed in the indoor hydrant supply pipe L1 and the sprinkler water supply pipe L2 detect the hydraulic pressure in the indoor hydrant supply pipe L1 and the sprinkler water supply pipe L2 .

The water pressure value detected by the indoor hydropneumatic water pressure sensor 510 and the sprinkler hydraulic pressure sensor 520 is transmitted to the central processing unit 530 and transmitted from the central processing unit 530 through the transmission unit 540 to the input And is input to the module unit 120.

At this time, the input module 120 converts the water pressure value measured by the indoor fire hydrant water pressure sensor 510 and the sprinkler water pressure sensor 520 into a digital value and transmits the digital value.

The indoor fire hydrant outflow valve V12 and the sprinkler outflow valve V22 are opened when an indoor fire hydrant and a sprinkler are required to be supplied with water because an actual fire is generated and can be opened or closed by a system different from the present invention.

The operation of the fire fighting system integrated management system using the electricity of the apartment house according to the present invention will be described below.

First, the input module 120 provided in the receiver 100 receives the operation signal of the receiver 100 and transmits data in real time.

The data input unit 210 of the set top box 200 receives the data transmitted from the input module unit 120 and the central processing unit 220 stores the data in the main memory 240 in real time. At this time, the central processing unit 220 of the set-top box 200 detects abnormal data (display off of the receiving unit) from the inputted data and transmits the detected abnormal data through the Internet transmission / reception unit 230.

That is, if any one of the display lights 110 provided in the receiver 100 is turned off, it is detected and immediately transmitted. In addition, the water pressure value is stored in real time, but it is transmitted immediately when it goes out of the normal value.

If the A indicator of the receiver 100 is turned off, the Internet transmission / reception unit 230 of the set top box 200 transmits the data through the Internet.

The data thus transmitted is collected by the data collecting unit 310 of the management server 300 installed in the fire department or the management center and the collected data is transferred to the main memory 340 And displayed on the terminal controller 330 through the terminal controller 330.

There are many ways to display it, but a popup window, which is a mail notification method used in the Internet portal service, can be displayed on the monitor. In this pop-up window, the name and location of the apartment house stored in the main storage unit 340 are displayed together. That is, the phrase "A light of C house in B position is off" can be displayed. Furthermore, the manager of the firefighting headquarters displays the detailed map of the apartment in which the A indicator is installed when the popup window containing this phrase is clicked. Of course, it is possible that the map is stored in the main memory 340 of the management server 300 as a database.

A management firefighter who has encountered such a warning will ask the manager of the C Apartment for confirmation and repair using communication such as telephone or fax.

On the other hand, when the water pressure detection mode is input to the water pressure detection mode input unit 550 constituting the water pressure detection unit 500, the input mode is transmitted to the central processing unit 530, and the central processing unit 530 issues a valve opening command The indoor fire hydrant intake valve V11 and the sprinkler intake valve V21 are opened so that the fire water of the fire water tank 410 is supplied to the fire water supply pipe Lm and the fire water supply pipe Lm (L1) and the sprinkler water supply line (L2) connected in parallel to the indoor fire hydrant supply line (L1).

Accordingly, the indoor water hydrant supply pipe (L1) and the sprinkler water supply pipe (L2) are actuated by the water pressure value of the same value as when the indoor water hydrant and the sprinkler are supplied with water, Is detected by the water pressure sensor 520 and is transmitted to the input module 120 of the receiver 100 by RS485 communication and the input module 120 converts the inputted water pressure value into a digital value, Lt; / RTI >

The hydraulic pressure value transmitted from the input module unit 120 to the set top box 200 is input to the data input unit 210 and is stored in the main memory 240 in real time by the central processing unit 220.

The central processing unit 220 of the set top box 200 detects unusual data (such as turning off the display of the receiving unit) from the input data and transmits the abnormal data through the Internet transmission and reception unit 230. When the water pressure detection unit 500 detects Receiving unit 230. When the water pressure detected and transmitted by the water pressure detector 500 is in the legal water pressure range, it is recognized as normal data. If the water pressure value is out of the range, it is recognized as abnormal data, (230).

That is, if any one of the display lights 110 provided in the receiver 100 is turned off, it is detected and immediately transmitted. In addition, the water pressure value is stored in real time, but it is transmitted immediately when it is out of normal data.

If the A indicator of the receiver 100 is turned off, the Internet transmission / reception unit 230 of the set top box 20 transmits the data through the Internet.

The data thus collected is collected by the data collecting unit 310 of the management server 300 constructed in the fire department or the administrative office and the collected data is transferred to the main memory 340 And is displayed on the terminal controller 330 at the same time.

There are a variety of methods to be displayed, but a pop-up window, which is a mail notification method used in an Internet portal service, can be displayed on a monitor. In this pop-up window, the name and location of the apartment house stored in the main storage unit 340 are displayed together. That is, the phrase " A light of C house in B position is turned off "may be displayed. Furthermore, when the administrator of the fire department clicks the pop-up window containing this phrase, it is possible to configure the detailed map of the apartment in which the A indicator is installed. Of course, the map is stored in the main memory 340 of the management server 300 as a database.

Management firefighters who have been exposed to these warning phrases may request confirmation and repair from the manager of the apartment C using communication such as telephone or fax.

In addition, when the water pressure in the fire water supply pipe Lm, the indoor hydr. Water supply pipe L1 and the sprinkler water supply pipe L2 for supplying fire water to the indoor fire hydrant and the sprinkler, as well as various data inputted to the receiver 100, , And the transmission is performed as described above.

In addition, if abnormal data is not input for a considerable time in the apartment house, the management firefighter checks data and water pressure values stored in real time in the main memory unit 240 of the set-top box 200 through the terminal controller 330, .

Therefore, according to the integrated management system for fire fighting facilities using electricity of the apartment house of the present invention, the normal operation of the fire fighting equipment through the receiver 100, the set top box 200, and the management server 300 equipped with the input module 120 Water pressure in the indoor fire hydrant supply pipe L1 and the sprinkler water pipe L2 detected by the water pressure detecting unit 500 can be confirmed in real time through the Internet network at the fire fighting headquarters or the management headquarters, This can be confirmed immediately and notified to the building manager, so that firefighting facilities can be more effectively managed, preventing large-scale disasters.

In addition, since firefighting facilities in apartment buildings are managed on the Internet in real time, waste of manpower can not be prevented, and objectivity of safety inspection can be greatly improved.

It is also possible to detect the water pressure in the indoor fire hydrant supply line (L1) and the sprinkler water supply line (L2) in detecting the water pressure value in the indoor fire hydrant supply pipe (L1) and the sprinkler water supply pipe (L2) It is possible to detect the same water pressure value as when water is supplied to the sprinkler, and the management of the fire fighting equipment can be more accurately performed.

When there is a perforated or cracked portion in the fire water supply pipe Lm, the indoor hydr. Water supply pipe L1 and the sprinkler water supply pipe L2, the water pressure value detected by the indoor hydrgation water pressure sensor 510 and the sprinkler water pressure sensor 520 is set to the water pressure It is possible to check the fire water supply pipe (Lm), the indoor fire hydrant supply pipe (L1) and the sprinkler water supply pipe (L2).

When the detection of the water pressure value of the indoor hydrant water supply pipe L1 and the sprinkler water supply pipe L2 is completed by the water pressure detection unit 500 or the water pressure detection end mode is inputted to the water pressure detection mode input unit 550, The indoor hydrant input valve V11 and the sprinkler inlet valve V21 are closed and the recovery valve V30 is opened and the recovery pump 430 is operated to discharge the fire water stored in the storage tank 420 to the recovery pipe L3 To the fire-fighting water tank 410, so that it is possible to perform the inspection of the fire-fighting equipment without waste of the fire-fighting water.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or essential characteristics thereof. Therefore, the embodiments of the present invention are not intended to limit the scope of the present invention, and the scope of the present invention is not limited by the embodiments described above. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: Receiver 110: Indicator
120: input module unit 200: set top box
210: data input unit 220: central processing unit
230 Internet transmission / reception unit 240 Main memory
300: management server 310: terminal transmission /
320: central processing unit 330: data collecting unit
340: main memory device 400: fire water piping system
410: fire water tank 420: storage tank
430: Return pump Lm: Fire-fighting water supply pipe
L1: Indoor hydrant supply line L2: Sprinkler supply line
L3: Return pipe V11: Indoor hydrant input valve
V12: Indoor fire hydrant outflow valve V21: Sprinkler intake valve
V22: sprinkler outflow valve 500: water pressure detector
510: Indoor fire hydrant water pressure sensor 520: Sprinkler water pressure sensor
530: Central processing unit 540: Transmitting unit
550: Hydraulic pressure detection mode input part

Claims (1)

A receiver (100) having an input module unit (120) provided inside or on one side for receiving and transmitting operation signals of various fire fighting equipment installed in the building;
A data input unit 210 for receiving data to be transmitted from the input module 120 and a central processing unit 220 for transmitting abnormal data among the data input from the data input unit 120 to the transmitting and receiving unit and storing normal data, An Internet transmission / reception unit 230 for transmitting or receiving data transmitted from the central processing unit 220 through the Internet network; and a storage unit 230 for storing data according to a storage command of the central processing unit 220 A set top box 200 including a main memory 240;
A data collecting unit 330 for collecting data transmitted from the set top box 200, a central processing unit 320 for transmitting data collected by the data collecting unit, The data transmitted from the central processing unit 320 is displayed on a pop-up window so that the administrator can visually confirm the data, and on the contrary, when the administrator connects to the set-top box 200 via the Internet network, A terminal controller 310 provided for identification, a history of various buildings to be installed, and a map of inside buildings are stored in a database, and the information is stored and provided for the administrator to visually check through the terminal controller 310 And a management server (300) including a main memory (340). In the system,
The fire water piping system (400) further includes a fire water piping system (400) for measuring and managing the pressure and the flow rate of the fire water supplied to the indoor fire hydrant and the sprinkler of the apartment house,
The fire-water piping system 400 includes a fire-fighting water supply pipe Lm connected to a fire-fighting water tank 410 provided separately from a living water tank on the roof of the apartment house through a main valve Vm, The indoor fire hydrant supply line (L1) is connected to the indoor fire hydrant via a indoor fire hydrant outlet valve (V12) of each floor in parallel through the indoor fire hydrant input valve (V11) A sprinkler water supply line L2 connected to the sprinkler through a sprinkler water outlet valve V22 of each layer connected in parallel through a water inlet valve V21 and a water supply line L2 provided in a basement of the water supply water supply pipe Lm, A recovery pipe L3 connected between a lower end of the storage tank 420 and an upper end of the fire water tank 410 through a recovery valve V40, L3) And a recovery pump 430 installed to pump the water in the storage tank 420 and return the water to the water tank 410 via the recovery pipe L3,
The fire-fighting water supply pipe Lm and the return pipe L3 are installed through a piping chamber 440 installed at one side or a middle portion of the common house. The storage tank 420 is installed in the basement of the common house,
And a water pressure detector (500) for detecting the water pressure of the fire water supplied to the indoor fire hydrant and the sprinkler and sending the detected water pressure value to the input module unit (120) of the receiver (100)
The hydraulic pressure detector 500 includes an indoor hydrostatic water pressure sensor 510 installed in the indoor hydrant supply pipe L1 and a sprinkler hydraulic pressure sensor 520 installed in the sprinkler water supply pipe L2, A central processing unit 530 for receiving and transmitting the measured values from the sprinkler hydraulic pressure sensor 520 and the sprinkler hydraulic pressure sensor 520 and a control unit 530 for transmitting the hydraulic pressure value transmitted from the central processing unit 530 to the input module unit 120 via RS485 communication And a transmitting unit 540,
The input module 120 may further include an arithmetic unit operable to convert an analog value detected and transmitted by the pressure detector 500 into a digital value,
The input module 120 transmits the converted digital values to the set-top box 200 in real time,
The central processing unit 220 of the set-top box 200 recognizes a normal value when the pressure measured by the pressure detector 500 is within a statutory water pressure range, and recognizes the abnormal data when the measured pressure is out of the range,
The water pressure detector 500 includes the main valve Vm, the indoor hydrant inlet valve V11, the indoor hydrant outlet valve V12, the sprinkler inlet valve V21, the sprinkler outlet valve V22, And a water pressure detection mode input unit 550 capable of opening and closing the water pump, and also capable of operating and stopping the water recovery pump 430,
The water pressure detection mode input unit 550 opens and closes the main valve Vm, the indoor hydrant intake valve V11, the sprinkler intake valve V21 and the recovery valve V30, Wherein said control unit is operable to control said fire-fighting facility based on said information.

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