KR101654503B1 - Wireless type emergency call system for apartment - Google Patents

Abstract

The present invention relates to a wireless emergency call system for an apartment house and, more specifically, to a wireless emergency call system for an apartment house, which establishes an emergency bell call system by using a wireless communication resource prepared in the apartment house, and generally takes charge of emergency situation management of the inside/outside of the apartment house. The wireless emergency call system for an apartment house includes: a wireless communication auxiliary facility (110); multiple indoor emergency bell terminals (120) transmitting a call signal by using an indoor emergency button (121) and the wireless communication auxiliary facility (110); a main server (M-S) receiving the call signal and performing total management when an emergency situation occurs; an indoor emergency LED lamp (130) turned on under the control of the main server (M-S); and an indoor speaker (140) outputting a warning broadcast under the control of the main server (M-S).

Description

[0001] The present invention relates to a wireless emergency call system for apartment buildings,

The present invention relates to a wireless emergency call system for a building, and more particularly, to an emergency call system using wireless communication resources provided in a collective building, To a wireless emergency call system for a building.

Generally, apartment buildings such as large apartment buildings, complex buildings, schools, and other buildings are equipped with an emergency bell system to deal with various situations such as taking prompt measures to prevent an emergency such as a crime.

Conventionally, there has been provided a system in which an emergency bell button is provided in each zone of a collective building, a relay is provided to transmit a call signal generated from the emergency bell button to a control room or a management room, and a control line (communication line) is installed .

For example, Korean Patent Laid-Open Publication No. 2015-0091599, entitled " CCTV camera mesh emergency call system, " proposes a technique of configuring a safe zone box in a school zone or an electric room together with a mesh network and operating it in conjunction with a security camera.

However, in the conventional art as described above, a separate repeater and a control line need to be installed, thus increasing the amount of construction and deteriorating the workability. That is, conventionally, there is a limit in that it is not possible to utilize a wireless communication auxiliary equipment network for fire fighting, which is a pre-established communication resource.

Korean Patent No. 10-0900027, 'Emergency call monitoring system in a housing complex', provides a system for recognizing an emergency call in a housing complex and accordingly monitoring with a camera.

However, since the above-described conventional technology provides a high-frequency signal key as an emergency bell, it does not utilize the same communication resources as the wireless communication auxiliary equipment for fire fighting although it uses some wireless methods, and it is difficult to generally manage the occurrence of an emergency situation .

Korean Patent Laid-Open Publication No. 2015-0091599, "CCTV Camera Network Emergency Call System for Crime Prevention" Korean Patent No. 10-0900027 'Emergency call monitoring system in apartment complex'

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an emergency call ring system using wireless communication resources provided in a collective building, And to provide a wireless emergency call system.

To this end, the wireless emergency call system for a building according to the present invention comprises a wireless communication auxiliary equipment installed inside a building of a collective building; A plurality of indoor emergency bell terminals installed at various positions in a building of the collective building and each having an indoor emergency button and an indoor transmission / reception module for transmitting a call signal using the wireless communication auxiliary equipment; A main server communicatively coupled to the indoor emergency bell terminal through the wireless communication auxiliary equipment to receive the paging signal and perform comprehensive management when an emergency occurs; An indoor emergency LED lamp installed at least one inside the building of the collective building and illuminated under the control of the main server when a call signal is generated in the indoor emergency bell terminal; And at least one indoor speaker installed inside the building of the collective building and outputting a warning broadcast under the control of the main server when a call signal is generated in the indoor emergency bell terminal.

A plurality of outdoor emergency bell terminals installed at various positions outside the building of the collective building and each having an outdoor transmission / reception module for transmitting a paging signal to the main server using an outdoor emergency button and a dedicated communication line; An outdoor emergency LED lamp which is installed at least one place outside the building of the collective building and is lit under the control of the main server when a call signal is generated in the outdoor emergency bell terminal; And an outdoor speaker installed at least one site outside the building of the collective building and outputting a warning message under the control of the main server when a call signal is generated in the outdoor emergency bell terminal.

A receiver installed between the outdoor emergency bell terminal and the main server for transmitting and receiving signals; And an RF modem installed between the receiver and the wireless communication auxiliary equipment for transmitting and receiving signals, wherein the indoor emergency bell terminal is connected to the main server through the wireless communication auxiliary equipment, the RF modem and the receiver Preferably, the outdoor emergency bell terminal is communicatively connected to the main server through the receiver, and the indoor emergency bell terminal and the outdoor emergency bell terminal are integratedly managed by the main server.

The emergency call terminal may further include a plurality of surveillance cameras disposed adjacent to at least one of the indoor emergency bell terminal and the outdoor emergency bell terminal. When the call signal is generated, It is preferable that image information of the camera for use by the camera is automatically popped up on the monitoring screen of the main server and the image monitored through the monitoring camera is stored for a predetermined period in the image recording and storing device.

Also, the main server may include a map management unit for generating and managing an electronic map for each of the buildings inside and outside the building of the collective building; An emergency bell management unit for managing installation positions and IDs of the indoor emergency bell terminal and the outdoor emergency bell terminal, respectively; And a matching unit for matching the map manager with the emergency bell manager and displaying an emergency bell icon at a specific location on the electronic map.

The main server includes an emergency bell monitoring unit for monitoring the operation state of the indoor emergency bell terminal and the outdoor emergency bell terminal at a predetermined time period and for monitoring the communication state between the indoor emergency bell terminal and the outdoor emergency bell terminal .

The main server may include a management database for managing an ID and authority of an administrator; And an event database for managing a generation time and a generation position of the paging signal.

A switching hub connected to the main server; And a remote server installed in a guard room of the collective building and receiving monitoring information from the main server through the switching hub.

The present invention makes wireless communication connection between the main server of the control room and the emergency bell installed in each zone by using the wireless communication resources already built in the collective building.

Therefore, by constructing an emergency bell ring system using wireless communication resources such as a fire-fighting wireless communication auxiliary equipment provided in a collective building, the construction cost can be reduced and the workability can be improved without deteriorating the performance.

In addition, the present invention manages a surveillance camera, an emergency LED lamp, and a speaker broadcast on the basis of an electronic map of an assembly building when a call signal is generated at an emergency bell from the main server, and records an event occurrence.

Therefore, it is possible to cope with an emergency situation by using a remote server in the control room as well as an overall management in a centralized manner in an emergency situation occurring inside or outside of a building.

FIG. 1 is a block diagram of a wireless emergency call system for a building according to a first embodiment of the present invention.
2 is a block diagram of a wired emergency call system for a building according to a second embodiment of the present invention.
FIG. 3 is a configuration diagram of a wireless emergency call system for a building according to a third embodiment of the present invention.
FIG. 4 is a diagram illustrating the wireless communication auxiliary equipment of FIG. 3. FIG.
FIG. 5 is a block diagram showing a main server of a wireless emergency call system for a collective building according to the present invention.
6 is a configuration diagram showing an emergency LED lamp of a wireless emergency call system for a building in accordance with the present invention.
7 is a view showing a pop-up status screen of the surveillance camera according to the present invention.
8 is a diagram showing an electronic map generated for each zone in the present invention.
FIG. 9 is a diagram illustrating a state in which an indoor emergency bell icon is displayed on an indoor electronic photograph of a collective building in the present invention.
FIG. 10 is a diagram illustrating a state in which an outdoor emergency bell icon is displayed on an outdoor photograph of a set building in the present invention. FIG.
11 is a diagram illustrating an emergency bell terminal monitoring state according to the present invention.
12 is a view showing an administrator registration screen of the main server according to the present invention.
13 is a view showing a main server login screen according to the present invention.
FIG. 14 is a diagram illustrating a status of occurrence of an emergency situation in the main server according to the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a wireless emergency call system for a building according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, the present invention includes a first calling system (FIG. 1) for an indoor emergency bell terminal 120 inside a collective building and an outdoor emergency bell terminal 210 outside the collective building And a third calling system (FIG. 3) in which the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210 are combined.

1, a wireless emergency call system for a building (first call system) according to the present invention for an indoor emergency bell terminal 120 includes a wireless communication auxiliary facility 110, an indoor emergency bell terminal 120, A main server MS, an indoor emergency LED lamp 130, and an indoor speaker 140.

That is, according to the present invention, communication between a main server (MS) installed in a control room or the like and an indoor emergency LED lamp (130) installed in each area is performed by using wireless communication resources provided in an assembly building, To be performed wirelessly.

Accordingly, since the emergency call ring system is constructed with the wireless communication resources 110 such as the fire-fighting wireless communication auxiliary equipment provided in the collective building, the construction cost can be reduced and the workability can be improved without deteriorating the performance.

To this end, the wireless communication auxiliary equipment 110 is a wireless communication resource installed in the building of the collective building, and the present invention constructs the wireless emergency calling system using the wireless communication resources.

As shown in FIG. 4, the wireless communication auxiliary equipment 110 is installed in an underground parking lot of an apartment complex for fire fighting, a management radio, a car alarm, etc. For example, the wireless communication auxiliary equipment 110 includes an indoor wireless antenna 111, a splitter 112, A line transponder 113 and 114, and a diplex filter 115. In this case,

In addition, it may further include an integrated combiner 116, a main trans-repeater 117, and an outdoor wireless antenna 118 for communication with the inside of the underground parking lot of the collective building and with an external base station and the like.

The indoor emergency bell terminal 120 transmits and receives signals to and from the indoor wireless antenna 111 of the wireless communication auxiliary equipment 110 using a carrier frequency of 447 MHz as an example and then transmits the signal to the distributor 112, And is connected to the main server MS through the amplifiers 113 and 114 and the bidirectional filter 115.

A plurality of indoor emergency bell terminals 120 are installed at various positions within the building of the assembly building and each indoor emergency bell terminal 120 is connected to the indoor emergency button 121 and the wireless communication auxiliary equipment 110 And an indoor transmission / reception module 122 for transmitting a call signal by using the indoor signal.

Referring back to FIG. 1, the indoor emergency button 121 is installed to expose the push button to the outside of the casing, so that a resident or the like presses the push button in an emergency.

Of course, in addition to the above-described pressing method, the indoor emergency button 121 may be operated in a wireless manner by pressing an RF operation module or a smart phone possessed by a resident. In this case, the nearest indoor emergency button 121 responds.

The indoor transmission and reception module 122 is communicatively coupled to the indoor emergency button 121 and includes a main control unit 122a, a data control unit 122b, a downlink signal communication modem 122c, an uplink signal communication modem 122d, A distributor 122e, a downstream signal frequency filter 122f, an upstream signal frequency filter 122g, a frequency matcher 122h and an antenna 122i.

The indoor transmit / receive module 122 preferably uses a crystal modulation scheme to minimize the distortion of the frequency signal according to the surrounding environment such as weather, climate, and temperature / humidity, thereby enhancing the communication environment reliability.

At this time, the main controller 122a is responsible for overall control of the indoor transmission / reception module 122 and receives the call signal generated by the indoor emergency button 121 and transmits it to the main server M-S.

When the indoor emergency LED lamp 130 and indoor loudspeaker 140 to be described later are controlled through the indoor transmission / reception module 122, the indoor emergency LED lamp 130 and the indoor indoor loudspeaker 140 may transmit the control signal of the main server MS to them .

The data control device 122b performs bi-directional data communication with the main control device 122a and transmits the 'response signal' of the main server MS transmitted from the downlink signal communication modem 122c to the main control device 122a, And transmits the 'emergency signal (call signal)' transmitted from the emergency button 121 to the uplink signal communication modem 122d.

The downlink signal communication modem 122c converts the 'emergency response RF signal' transmitted from the downlink signal frequency filter 122f according to the communication modem control signal of the main controller 122a. The upstream signal communication modem 122a converts the emergency signal generated by the indoor emergency button 121 into an 'emergency call RF signal' according to the communication modem control signal of the main controller 122a, and transmits the 'emergency call RF signal' to the upstream signal frequency filter 122g .

The other splitter separates the uplink RF signal from the downlink RF signal and separates the uplink RF signal transmitted from the uplink signal frequency filter 122g and transmits the uplink RF signal to the frequency matching unit 122h. In addition, the downlink RF signal transmitted from the frequency matching unit 122h is separated and transmitted to the downlink signal frequency filter 122f.

The frequency matching unit 122h performs impedance conversion so as to match the impedance value of the antenna 122i to generate an up signal transmitted from the indoor emergency button 121 to the main server MS and an up signal transmitted from the main server MS to the main controller 122a ) Of the downlink signal transmitted from the base station.

Next, the main server M-S communicates with the indoor emergency bell terminal 120 through the wireless communication auxiliary equipment 110 as described above, receives the call signal, and performs comprehensive management when an emergency occurs.

The main server MS is installed in the control room, for example, and controls the surveillance camera, the emergency LED lamp, and the speaker broadcasting based on the electronic map of the building at the time of generating a call signal from the indoor emergency bell terminal 120, And records the event occurrence.

5, the main server MS includes a call button state monitoring control unit 10, a control signal transmitting and receiving unit 20, a surveillance camera host value control unit 30, and a public hall broadcast control unit 40 .

Upon reception of the emergency call signal from the indoor emergency bell terminal 120, the control signal transmitting and receiving unit 20 transmits and receives data to the call button state monitoring and control unit 10, receives the command, And transmits an emergency response signal to the terminal 120.

When the signal transmitted to the control signal transmitting and receiving unit 20 is an emergency call signal transmitted from the indoor emergency bell terminal 120, the control unit 30 controls the monitoring camera base unit control unit 30 to output a monitoring camera control signal , And controls the whole-unit broadcast control unit (40) to output a whole-unit broadcast speaker operation signal.

Therefore, the present invention enables centralized management of an emergency situation occurring in the inside of the collective building as well as outside the collective building, as described later, in the control room. In addition, if necessary, it is possible to assist the emergency situation by using the remote server (RS) in the guard room.

Next, the indoor emergency LED lamps 130 are installed in at least one place in the building of the collective building (usually, a plurality of them are installed near the emergency bell respectively) and when the call signal is generated from the indoor emergency bell terminal 120, MS).

The indoor emergency LED lamp 130 may be integrally installed in the terminal box of the indoor emergency bell terminal 120 or may be installed together on one side of the terminal box. In this case, the indoor emergency LED lamp 130 receives the control signal of the main server MS directly and operates.

6, the indoor emergency LED lamp 130 includes, for example, a blue lamp 131, a white lamp 132, and a red lamp 133, which are controlled by the lamp lighting control unit 134. Preferably, the lamp lighting controller 134 receives the lamp lighting control signal from the main controller 122a of the indoor emergency bell terminal 120.

Accordingly, when normal (or standby) communication is normal, only the white lamp 132 is turned on to give the passenger a sense of stability and provide indoor lighting, and flashes repeatedly in case of communication failure. On the other hand, in an emergency, the blue / white / red lamps 131 to 133 flash in sequence like a warning light and warn criminals.

Next, the indoor loudspeaker 140 is installed in at least one place in the building of the collective building (normally, a plurality of the indoor loudspeakers 140 are provided for each zone), and when the call signal is generated from the indoor emergency bell terminal 120, A warning broadcast is output.

The indoor speaker 140 may be integrally installed in the terminal box of the indoor emergency bell terminal 120 or may be installed in a specific area of the indoor space. However, it is preferable to install it in a specific area of the room, and if it is installed in a specific area of the room, it is directly controlled by the main server (MS).

4, when a public address broadcasting system includes a public address broadcasting rack (PR Rack) PR and a plurality of indoor speakers 140, a main server (MS) 310 to control the electric light broadcasting rack PR so that warning broadcasts are output from the selected indoor speakers 140. [

5, the main server MS transmits the control signal transmitted through the control signal transmitting and receiving unit 20, that is, the 'all-public broadcasting control signal' to the public hall broadcast control unit 40, 40 transmits the 'all-tube broadcast speaker operation signal' to the electric light broadcasting rack PR so as to be directly controlled.

Therefore, the present invention allows communication between the main server MS and the indoor emergency bell terminal 120 installed in each room in the room using wireless communication resources 110 provided in the building. Also, both the visual warning using the indoor emergency LED lamp 130 and the audible warning using the indoor speaker 140 are performed.

Hereinafter, a wireless emergency call system for a building (second call system) according to the present invention for an outdoor emergency bell terminal 210 will be described with reference to the accompanying drawings.

2, the wireless emergency call system for a building according to the present invention for an outdoor emergency bell terminal 210 includes an outdoor emergency bell terminal 210, an outdoor emergency LED lamp 220, And an outdoor speaker (230).

This embodiment is for managing not only the indoor monitoring of the wireless system using the indoor emergency bell terminal 120 described above with reference to FIG. 1, but also the emergency occurrence of the outdoors through addition of the wired system.

At this time, the outdoor emergency bell terminal 210 is installed at various positions outside the building of the collective building and includes an outdoor emergency button 211 and an outdoor transmission / reception module 212).

The outdoor emergency bell terminal 210 is connected to the main server MS through a dedicated line (power line communication or IP cable), for example.

That is, while the indoor emergency bell terminal 120 described above performs wireless communication (minimizes unnecessary interworking and data traffic and prevents malfunction) with one address, the outdoor emergency bell terminal 210 performs the wireless communication Wired communication is performed through a dedicated line.

However, if necessary, the outdoor emergency bell terminal 210 may also be constructed through a wireless communication network in the same manner as the indoor emergency bell terminal 120, in which case a separate wireless communication network should be established.

Meanwhile, the outdoor emergency button 211 of the outdoor emergency bell terminal 210 may be a wired type such as a push button, or a radio system using an RF operation module or a smart phone, as in the indoor emergency bell terminal 120.

The outdoor transmission / reception module 212 includes, for example, a main control device 212a, a data control device 212b, a downstream signal communication modem 212c, an upstream signal communication modem 212d, a distributor 212e, 212f, an upstream signal frequency filter 212g, a frequency matcher 212h, and a serial communication modem 212i.

The outdoor transmission / reception module 212 performs substantially the same function as the indoor transmission / reception module 122 except that a dedicated communication line is used. Accordingly, the main control device 212a, the data control device 212b, the downstream signal communication modem 212c, the upstream signal communication modem 212d, the distributor 212e, the downstream signal frequency filter 212f, the upstream signal frequency filter 212g ), And a repetitive description of the frequency matching unit 212h will be omitted.

However, the serial communication modem 212i transmits and receives up and down RF signals to and from the frequency matcher 212h, and transmits and receives serial communication signals to and from the main server MS through a dedicated communication line There is a difference.

Next, at least one outdoor emergency LED lamp 220 is installed outside the building of the collective building, and the outdoor emergency bell terminal 210 is lit under the control of the main server M-S when a call signal is generated.

The outdoor emergency LED lamp 220 is installed in the vicinity of an outside of a collective building such as an apartment, such as an entrance, a greenery park in a complex, each building, and a neighborhood living facility, so that a warning can be issued in an emergency.

At least one outdoor speaker 230 is installed outside the building of the assembly building and outputs a warning broadcast under the control of the main server M-S when a call signal is generated from the outdoor emergency bell terminal 210.

The outdoor emergency LED lamp 220 and the outdoor speaker 230 have substantially the same function as the indoor emergency LED lamp 130 or the indoor speaker 140 described above except that the outdoor emergency LED lamp 220 and the outdoor speaker 230 are installed in each outdoor area of the assembly building .

Therefore, repetitive description of the outdoor emergency LED lamp 220 and the outdoor speaker 230 will be omitted. The monitoring camera (CM) and the image recording / reproducing apparatus (RC), which are not described in FIG. 2, will be described in detail below.

Hereinafter, a wireless emergency call system for collective buildings (third call system) according to the present invention for integrally managing the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210 will be described with reference to the accompanying drawings .

3, the system for integrated management of indoor and outdoor emergency bell terminals 120 and 210 includes a main server MS, a wireless communication auxiliary equipment 110, an indoor emergency bell terminal 120, An indoor emergency loudspeaker terminal 210, an outdoor emergency LED lamp 220, and an outdoor loudspeaker 230. The advantages are as described above.

However, in the third embodiment of the present invention, the third paging system includes a receiver 320 installed between the outdoor emergency bell terminal 210 and the main server MS for transmitting and receiving signals, (RF Modem) 330 installed between the wireless communication auxiliary equipment 110 and the wireless communication auxiliary equipment 110 for transmitting and receiving signals.

4, the receiver 320 is connected to the outdoor emergency bell terminal 210 through a dedicated communication line. In addition, the receiver 320 is also connected to the RF modem 330. The RF modem 330 is connected to the indoor emergency bell terminal 120 through a bidirectional filter or the like of the wireless communication auxiliary equipment 110.

Accordingly, the indoor emergency bell terminal 120 is connected to the main server MS through the wireless communication auxiliary equipment 110, the RF modem 330 and the receiver 320, and the outdoor emergency bell terminal 210 is connected to the receiver 320 to the main server (MS).

Therefore, the present invention is not limited to the indoor emergency bell terminal 120 installed in an indoor space such as an underground parking lot of a collective building using one main server (MS), but also an outdoor emergency bell terminal 210 .

It is preferable that the present invention further includes a plurality of monitoring cameras CM installed adjacent to at least one of the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210.

For example, four surveillance cameras (CM) are installed in the vicinity of the indoor emergency bell terminal 120 to monitor four rooms in real time. Similarly, four surveillance cameras CM) is installed and monitored.

When the call signal is generated in each of the emergency bell terminals 120 and 210, the image information of the indoor camera or the surveillance camera CM installed in the vicinity of the outdoor emergency bell terminals 120 and 210, And automatically pops up on the monitoring screen of the server (MS). The monitored images are automatically stored in the image recording and storage device (RC) for a predetermined period of time.

4, the main server MS is connected to the CCTV rack CR via the interface unit 310, and the CCTV rack CR controls each monitoring camera CM installed in the indoor and outdoor of the assembly building, Lt; / RTI >

5, when a call signal is generated from the indoor and outdoor emergency bell terminals 120 and 210 in an emergency, the CCTV rack CR is transmitted through the surveillance camera host value control unit 30 of the main server MS And the CCTV rack CR transmits the image of the surveillance camera CM around the emergency bell terminal where the call signal is generated to the main server MS.

7, the monitoring video is provided to the main server MS from the four monitoring cameras CM installed in the vicinity of the emergency bell terminals 120 and 210 where the call signal is generated, .

In addition, the main server M-S of the present invention as described above preferably further includes a map management unit, an emergency bell management unit, and a matching unit (not shown).

At this time, the map management unit generates and manages an electronic map (digital-map) for each building inside and outside the building of the assembly building. The electronic map includes a drawing or an on-site manual drawn by each floor and zone based on the drawing of the building.

The emergency bell management unit manages the installation locations and IDs of the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210, respectively. At this time, each of the emergency bell terminals 120 and 210 is specified in accordance with the set address or ID. At this time, the plurality of emergency bell terminals 120 and 210 may be grouped and managed together.

The matching unit matches the map management unit and the emergency bell management unit. Accordingly, the emergency bell icon provided by the emergency bell management unit is displayed at a specific position on the electronic map provided by the map management unit. That is, an emergency bell is displayed on the electronic map to enable intuitive monitoring.

For example, as shown in FIG. 8, the map management unit creates and manages an electronic map for each floor of the room (for example, an underground parking lot floor). Accordingly, the emergency bell icons provided by the emergency bell management unit can be matched on the electronic map of the room, respectively, as shown in Fig.

In addition, as shown in Fig. 10, the map management unit can use a real estate of a building in the case of outdoor use. In this case, the emergency bell icon is matched on the real estate by the matching unit. In an outdoor environment, for example, an emergency bell icon is displayed for each operation.

As shown in FIG. 10, when a plurality of emergency bulb terminals are grouped by groups, it is possible to manage the emergency bell status of each apartment of the apartment as a whole. For example, if there are 100 emergency bell terminals, the emergency bell terminals 1 to 35 installed in the 'a' of the apartment complex can be grouped and integrated into one emergency bell icon.

The main server MS of the present invention monitors the operating states of the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210 in a predetermined time period and controls the indoor emergency bell terminal 120 and the outdoor And an emergency bell monitoring unit (not shown) for monitoring the communication state with the emergency bell terminal 210. [

As shown in FIG. 11, the emergency bell monitoring unit performs an overall management operation including an abnormality of the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210 itself, a communication state, and the occurrence of an emergency situation.

Accordingly, when the signal is interrupted, the color of the emergency bell icon is changed from green to gray, and when an emergency situation occurs in the air, the status of each emergency bell terminal 120, 210 corresponding to the changed state is changed from green to red To be intuitively grasped.

As described above with reference to FIGS. 9 and 10, the monitoring result of the emergency bell monitoring unit can be obtained by monitoring the status of the emergency bell icon displayed on the electronic map of the indoor space and the emergency bell icon displayed on the outdoor real- Change it.

The main server MS of the present invention includes an administrative database for managing the ID and authority of the administrator, an event database for managing the time and place of occurrence of the call signal from the indoor and outdoor emergency bell terminal 210, (Not shown).

As a result, an ID, a name, a right to use, a department, a contact, an e-mail, a registration date, and a password setting date are generated and stored in the management database as shown in FIG. 12, and the manager uses the created ID and password The user can log in to the server (MS).

As shown in FIG. 14, when an emergency call signal is generated, the alarm date and time, the ID of the emergency bell terminal, the bell position, the alarm status, the date and time of confirmation, and the verifier (or the processor) can be recorded.

In the meantime, the present invention provides a switching hub 340 connected to the main server (MS) and monitoring information provided from the main server (MS) through the switching hub 340 It is preferable to further include a remote server (RS).

As shown in FIGS. 3 and 4, the main server MS is connected to a remote server RS and is connected to a remote server RS, .

Accordingly, the main server MS performs real-time bidirectional communication with the remote server RS, and in particular, receives the event occurrence location information in which the emergency bell terminal operates from the main server MS to the remote server RS, ) So that real-time surveillance is possible even in a guard room.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

110: Wireless communication auxiliary equipment
120: Indoor Emergency Bell Terminal
121: Indoor emergency button
122: indoor transmit / receive module
130: Indoor Emergency LED Lamp
140: Indoor Speaker
210: Emergency bell terminal for outdoor use
211: Outdoor Emergency Button
212: outdoor transmission / reception module
220: Emergency LED lamp for outdoor use
230: Outdoor speaker
MS: Main server
RS: Remote server

Claims (8)

A wireless communication auxiliary equipment 110 installed inside the building of the assembly building;
And an indoor transmission / reception module (122) for transmitting a call signal using the indoor emergency button (121) and the wireless communication auxiliary equipment (110), respectively, at a plurality of positions in the building of the collective building A bell terminal 120;
A main server (MS) communicatively connected to the indoor emergency bell terminal (120) via the wireless communication auxiliary equipment (110) to receive the paging signal and perform comprehensive management when an emergency occurs;
An indoor emergency LED lamp 130 installed at least one inside the building of the collective building and illuminated under the control of the main server MS when a call signal is generated from the indoor emergency bell terminal 120; And
And an indoor speaker (140) installed at least one inside the building of the collective building and outputting a warning broadcast under the control of the main server (MS) when a call signal is generated from the indoor emergency bell terminal (120) ,
And an outdoor transmission / reception module (212) installed at various positions outside the building of the collective building and transmitting call signals to the main server (MS) by using an outdoor emergency button (211) and a dedicated communication line, An emergency bell terminal 210; An outdoor emergency LED lamp 220 installed at least one outside the building of the collective building and illuminated under the control of the main server MS when a call signal is generated from the outdoor emergency bell terminal 210; And an outdoor speaker (230) installed at least one place outside the building of the collective building and outputting a warning broadcast under the control of the main server (MS) when a call signal is generated in the outdoor emergency bell terminal (210)
A receiver 320 installed between the outdoor emergency bell terminal 210 and the main server MS for transmitting and receiving signals; And
And an RF modem 330 installed between the receiver 320 and the wireless communication auxiliary equipment 110 for transmitting and receiving signals,
The indoor emergency bell terminal 120 is connected to the main server MS through the wireless communication auxiliary equipment 110, the RF modem 330 and the receiver 320, And the indoor emergency bell terminal (120) and the outdoor emergency bell terminal (210) are integrally managed by the main server (MS) through a communication with the main server (MS) through the receiver (320) Emergency call system. delete delete The method according to claim 1,
Further comprising a plurality of surveillance cameras (CM) provided adjacent to at least one of the indoor emergency bell terminal (120) and the outdoor emergency bell terminal (210)
When the paging signal is generated, the image information of the monitoring camera (CM) installed in the vicinity of the emergency bell terminal in which the paging signal is generated is automatically popped up on the monitoring screen of the main server (MS)
Wherein the image monitored through the monitoring camera (CM) is stored for a period set in the image recording / storing device (RC). 5. The method of claim 4,
The main server (MS)
A map management unit for generating and managing an electronic map for each of the buildings inside and outside the building;
An emergency bell management unit for managing installation positions and IDs of the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210, respectively; And
And a matching unit for matching the map management unit and the emergency bell management unit and displaying an emergency bell icon at a specific location on the electronic map. 5. The method of claim 4,
The main server (MS)
Monitors the operation state of the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210 at a predetermined time period and monitors the communication state with the indoor emergency bell terminal 120 and the outdoor emergency bell terminal 210 And an emergency bell monitoring unit. 5. The method of claim 4,
The main server (MS)
An administrative database for managing an administrator's identity and authority; And
And an event database for managing the time and location of occurrence of the paging signal. The method according to any one of claims 1, 4, 5, 6, and 7,
A switching hub connected to the main server (MS); And
And a remote server (RS) installed in a security room of the collective building and receiving monitoring information from the main server (MS) through the switching hub.

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