JP4855303B2 - Apartment house management system for earthquake early warning - Google Patents

Description

  More specifically, the present invention relates to an emergency earthquake warning-compatible apartment house management system, and more specifically, an alarm monitoring panel installed in a management room of an apartment house and a housing information terminal installed in each dwelling unit of the apartment house. This is related to a multi-dwelling house management system that supports earthquake early warning.

Conventionally, an apartment house management system has been widely used in an apartment house. Such an apartment house management system is equipped with an alarm monitoring panel installed in a manager's room, etc. and a housing information panel installed in each dwelling unit, and an alarm monitoring panel for the status of fire, gas leakage, crime prevention, etc. in each dwelling unit It can be managed with
The conventional apartment house management system described above is not provided with a function for detecting and notifying a natural disaster, particularly an earthquake, and it is necessary to construct a separate system for earthquake notification.

In the following Patent Document 1, an apartment house management system with an earthquake notification function is proposed to solve such a problem.
In this multi-family housing management system with an earthquake notification function, an earthquake sensor that detects an earthquake is connected to an alarm monitoring panel or housing information panel, and when each earthquake sensor detects an earthquake occurrence, an alarm monitoring is performed on the housing information panel of each dwelling unit. It is configured to display and notify coping guidance such as video and audio distributed from the board.
Further, when the earthquake occurrence notification is sampled and the number of times of detection becomes a predetermined number or more, the countermeasure guidance is displayed or notified as described above.
Japanese Patent Laid-Open No. 2003-67866

  However, the collective housing management system with an earthquake notification function described in Patent Document 1 is configured to detect an earthquake by connecting an earthquake sensor to an alarm monitoring panel or a housing information panel. There is a possibility that malfunctions may occur depending on the accuracy and management status, and it is not necessarily reliable. In other words, although there is an advantage that a direct type earthquake with little time from the detection of initial microtremor to the main motion can be detected quickly, it cannot be detected immediately when the epicenter of the earthquake is far away, and vibrations other than earthquakes There was a problem, such as confusing residents.

  The present invention has been proposed in order to solve the above-mentioned problems. The first object of the present invention is to immediately output an earthquake warning from a housing information terminal installed in each dwelling unit when an earthquake is detected in an apartment house. It is to provide an apartment house management system that supports earthquake early warning. A second object is to provide an emergency earthquake warning-compatible apartment house management system that can immediately stop an earthquake warning in the case of a false alarm and reduce confusion caused by the false alarm.

In order to achieve the above object, an emergency earthquake bulletin responsive collective housing management system according to claim 1 includes an alarm monitoring panel installed in a management room of a multifamily housing, and a housing installed in each dwelling unit of the multifamily housing. An emergency earthquake warning-compatible apartment house management system configured with an information terminal, wherein the alarm monitoring panel is connected to an earthquake sensor installed in the apartment house and obtained via a communication network. When any one of the earthquake detection signal based on the earthquake early warning and the earthquake detection signal from the earthquake sensor is received, the housing information terminal of each dwelling unit is controlled to notify the earthquake warning, and within a predetermined time thereafter to when receiving the other seismic detection signal, while to continue the earthquake alarm, when receiving no other seismic detection signal within the predetermined time, news of the earthquake alarm Wherein the stopping.

  In Claim 2, in Claim 1, after the said alarm monitoring board controls the housing information terminal of each said dwelling unit and stops the alerting | reporting of the said earthquake alert, it alert | reports a misreport message.

  A third aspect of the present invention further includes an earthquake information receiving terminal connected to an earthquake information distribution server that collects earthquake information generated in various places and distributes an early earthquake early warning through a communication network. Based on the earthquake early warning received from the earthquake information distribution server, the terminal analyzes the predicted seismic intensity in its installation area and transmits an earthquake detection signal to the alarm monitoring panel only when the seismic intensity is greater than or equal to a predetermined seismic intensity To do.

  According to claim 4, there is further provided an earthquake information receiving terminal connected to an earthquake information distribution server that collects earthquake information generated in various places and distributes an emergency earthquake early warning through a communication network. The terminal analyzes the predicted seismic intensity of its installation area based on the emergency earthquake warning received from the earthquake information distribution server, transmits an earthquake detection signal including the predicted seismic intensity to the alarm monitoring panel, and The board controls the housing information terminal of each dwelling unit and notifies the earthquake warning only when the predicted seismic intensity included in the earthquake detection signal is equal to or greater than a predetermined seismic intensity.

According to the emergency earthquake warning corresponding housing complex management system according to any one of claims 1 to 4, any one of an earthquake detection signal based on an emergency earthquake warning obtained via a communication network and an earthquake detection signal from an earthquake sensor is provided. Since the earthquake alarm is notified at the housing information terminal of each dwelling unit, it is possible to notify the resident quickly, and if the other earthquake detection signal is not received within a predetermined time, the alarm notification is stopped. Therefore, the resident's confusion is not prolonged unnecessarily even in the case of misinformation.
In addition, not only earthquake detection signals from earthquake sensors installed in apartment buildings but also reliable earthquake early warnings obtained via communication networks are taken into account, so highly reliable earthquake early warning response type An apartment housing management system can be realized.
For example, in such a system of the present invention, in the case of a direct type earthquake with a small distance from the epicenter, an earthquake alarm is notified by the earthquake sensor without waiting for an emergency earthquake warning, while the earthquake sensor reacts sensitively. Even if a reliable earthquake early warning is not received, the false alarm made by the earthquake sensor is immediately stopped, so that the residents are not confused.

  According to the second aspect of the present invention, since the false alarm message is notified after the housing information terminal of each dwelling unit is controlled to stop the notification of the earthquake alarm, the fact that it is a false alarm is notified and confusion can be quickly collected.

In claim 3, the apparatus further comprises an earthquake information receiving terminal, and the earthquake information receiving terminal analyzes the predicted seismic intensity of its own installation area based on the emergency earthquake bulletin received from the earthquake information distribution server. Since the earthquake detection signal is transmitted only to the alarm monitoring panel, the transmission of the earthquake detection signal is controlled according to the predicted seismic intensity. Therefore, for example, even when an earthquake alarm is notified by receiving an earthquake detection signal with a high sensitivity seismic sensor installed in an apartment house, it is transmitted only when the seismic information receiving terminal has a seismic intensity or higher. If no earthquake detection signal is received, an earthquake warning is stopped or a notification that it is a false alarm is made, so that the highly reliable emergency earthquake warning-compatible apartment house management system is obtained.
Further, in claim 4, the alarm monitoring panel is configured to control the housing information terminal of each dwelling unit to notify the earthquake alarm only when the predicted seismic intensity included in the earthquake detection signal is equal to or greater than the predetermined seismic intensity. There is an effect.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 to FIG. 6 show an example of an emergency earthquake bulletin responsive collective housing management system according to the present invention, and FIG. 1 shows an example of an earthquake early warning responsive collective housing management system according to the embodiment. FIG. 2 is a schematic system configuration diagram, FIG. 2 is an internal circuit diagram of an earthquake early warning compatible apartment house management system according to the embodiment, and FIGS. 3 to 6 are emergency earthquake warning alert apartment housing management systems according to the embodiment. It is a time chart which shows the basic operation in.

In the illustrated example of an earthquake early warning-compatible apartment house management system A, the alarm monitoring panel 10 and a plurality of house information terminals 20 installed in each dwelling unit are roughly connected to each other by multiple transmission lines, audio signal lines, and the like. It is a basic configuration and has the same basic functions as a conventional apartment house management system.
That is, the alarm monitoring panel 10 and the home information terminal 20 each have a calling means to be described later and can make a mutual call. Furthermore, a door phone sub-unit (not shown) is connected to the home information terminal 20, and mutual communication between the home information terminal 20 and the door phone sub-unit is also possible.

The alarm monitoring panel 10 is connected to an earthquake sensor qs that is installed in an apartment house and detects an initial fine movement caused by a P wave (primary wave: longitudinal wave). When the earthquake sensor qs detects the occurrence of an earthquake, the earthquake sensor qs transmits an earthquake detection signal (hereinafter, the earthquake detection signal from the earthquake sensor qs may be a second earthquake detection signal) to the alarm monitoring panel 10.
The alarm monitoring panel 10 may use the earthquake detection signal transmitted from the earthquake sensor qs and an earthquake information receiving terminal 30 (to be described later) (hereinafter, the earthquake detection signal from the earthquake information receiving terminal 30 is used as the first earthquake detection signal). ) Is transmitted to the housing information terminal 20 of each dwelling unit, an earthquake alarm command signal for informing an earthquake alarm is transmitted, or an earthquake alarm stop signal for informing an earthquake alarm stop or a false alarm message is transmitted. An earthquake warning signal transmitting means 1 is provided.
Further, the alarm monitoring panel 10 includes a time measuring unit 2 that measures a predetermined time T from the time of receiving an earthquake detection signal transmitted from either one of the earthquake sensor qs and an earthquake information receiving terminal 30 described later. When the other earthquake detection signal is not received within a predetermined time T after receiving one earthquake detection signal, an earthquake warning stop signal is transmitted to the housing information terminal 20 of each dwelling unit.

Here, the predetermined time T is 5 seconds in the present embodiment, but is not limited to this, and can be appropriately changed according to the epicenter, the magnitude of the earthquake, and the like.
Moreover, you may change according to which earthquake detection signal was received previously. For example, the predetermined time T when the first reliable earthquake detection signal is received first is set long, and the predetermined time T when the second earthquake detection signal is received is set short. Also good. The reverse is also possible.
The earthquake sensor qs is installed in a common space in the apartment house, such as a common entrance, an underground parking lot, a management room, and an elevator hall.
In the present embodiment, the alarm monitoring panel 10 is configured to have a call control function for forming a call line with the home information terminal 20, but the present invention is not limited thereto, and the call control device and the management room information terminal are not limited thereto. The present invention can also be applied to a configuration in which these are configured separately.

The housing information terminal 20 has a notification means 3 for notifying an earthquake warning and a false alarm message based on the reception of the earthquake warning signal, and a display means 4 for displaying an earthquake warning image and a false alarm image based on the reception of the earthquake warning signal. , And storage means 5 for storing an alarm sound, a message, an alarm image, and a false alarm image at that time.
Here, the earthquake alarm is not limited to an alarm sound, but includes an earthquake countermeasure message, for example, a message that prompts confirmation of fire extinguishing, gas main stop, securing of a condemned route, and the like. In addition, the misinformation message includes a message notifying that the previous earthquake warning was misinformation.
The housing information terminal 20 is connected to security sensors (not shown) such as fire sensors and gas leak sensors arranged at various locations in the house. It has a function to notify. Upon receiving the notification, the alarm monitoring panel 10 has a function of outputting an alarm from the housing information terminal 20 of the house and surrounding houses, or notifying a center device (not shown) of the occurrence of a fire or gas leak accident. Have.

In addition, the emergency earthquake bulletin responsive collective housing management system A includes an earthquake information receiving terminal 30 connected to the earthquake information distribution server 40 that collects earthquake information generated in various places and distributes the emergency earthquake bulletin through the communication network N. Yes.
The earthquake information receiving terminal 30 is connected to the earthquake information distribution server 40 via a communication network N that communicates using, for example, the IPV6 protocol.
The earthquake information receiving terminal 30 may be configured independently of the alarm monitoring panel 10 or may be integrated.

The earthquake information distribution server 40 continuously monitors the occurrence of local or regional earthquakes by a plurality of earthquake sensors QS (earthquake observation network) and detects initial microtremors caused by P waves (primary waves: longitudinal waves). Immediately, an emergency earthquake bulletin including information such as the epicenter (latitude, longitude, depth), oscillation time, earthquake magnitude (magnitude) is distributed to the earthquake information receiving terminal 30.
The earthquake information receiving terminal 30 analyzes the predicted seismic intensity in its installation area, that is, the location of the apartment house, based on the emergency earthquake bulletin received from the earthquake information distribution server 40.
The analysis of the predicted seismic intensity is calculated by applying a distance attenuation formula based on the distance from the epicenter to the location of the housing complex, the magnitude of the earthquake, and the like. Send an earthquake detection signal.

For example, information such as the location of an apartment house is registered in the earthquake information receiving terminal 30 in advance. In the analysis of the predicted seismic intensity, the ground amplification degree may be taken into account, and in that case, the ground amplification degree may be registered in advance as a value unique to each region in the whole country.
Further, the earthquake information distribution server 40 may be any server as long as it distributes at least the above-mentioned earthquake source including the epicenter and the magnitude of the earthquake. For example, distribution by the Japan Meteorological Agency or National Institute for Disaster Prevention Science and Technology It may be a server that directly or indirectly distributes the earthquake early warning.

Next, based on FIG. 2, the circuit configuration of the emergency earthquake bulletin responsive apartment house management system A will be described.
The alarm monitoring panel 10 includes a signal transmission / reception unit 11 that communicates with the housing information terminal 20 through the multiple transmission lines L1 and L2, and a transmission unit 12 that communicates with the earthquake sensor qs and the earthquake information reception terminal 30 through contact signals or digital signals. A display circuit unit 13 composed of a liquid crystal panel, a key input unit 14 composed of a plurality of operation buttons, a handset 15a and a speaker 15b, and transmits / receives audio signals through audio signal lines L3 and L4. An interphone circuit unit 15, a flash memory 16 storing a control program, an S-RAM 17 for storing setting data, a timer 18, and a CPU 19 for executing the control program are provided.
In this alarm monitoring panel 10, the host CPU 19, the signal transmission / reception unit 11, and the transmission unit 14 constitute the earthquake alarm signal transmission means 1, and the host CPU 19 and the timer 18 constitute the time counting means 2.

The housing information terminal 20 includes a signal transmission / reception unit 21 that communicates with the alarm monitoring panel 10 through multiple transmission lines L1 and L2, a dip switch 22 that sets a unique address, a display circuit unit 23 that includes a liquid crystal panel, and the like. A flash memory storing a key input unit 24 composed of a plurality of operation buttons and the like, an interphone circuit unit 25 having a microphone 25a and a speaker 25b and transmitting / receiving audio signals through audio signal lines L3 and L4, and a control program 26, an S-RAM 27 that stores setting data and the like, a sensor receiver 28 that receives an abnormality detection signal of the security sensor, and a CPU 29 that executes a control program.
In this home information terminal 20, the CPU 29 and the intercom circuit unit 24 constitute the notification unit 3, the CPU 29 and the display circuit unit 23 constitute the display unit 4, and the CPU 29 and the S-RAM 27 constitute the storage unit 5. ing.

  The earthquake information receiving terminal 30 analyzes the predicted seismic intensity according to a predetermined algorithm from the alarm monitoring panel 10, the transmission units 31 and 32 communicating with the earthquake information distribution server 40, and the received emergency earthquake bulletin, or the predicted seismic intensity is equal to or greater than the predetermined seismic intensity. In this case, a CPU 34 that controls the output of an earthquake detection signal to the alarm monitoring panel 10 and a storage unit 33 that stores a control program, location data, and the like are provided.

  Next, the basic operation of the apartment building management system A for emergency earthquake warnings configured as described above will be described with reference to FIGS. In the description based on FIGS. 4 to 6, the description of the same operation as that in FIG. 3 is omitted.

In FIG. 3, the earthquake information distribution server 40 receives the earthquake information of the initial tremor (P wave) obtained from the earthquake sensor QS (earthquake observation network), and transmits the earthquake information to the earthquake information receiving terminal 30 via the communication network N. The earthquake early warning is distributed (101, 102).
The earthquake information receiving terminal 30 calculates a predicted seismic intensity based on the emergency earthquake bulletin received from the earthquake information distribution server 40. If the predicted seismic intensity is a predetermined seismic intensity or higher, for example, a seismic intensity of 3 or higher, the alarm monitoring panel 10 The first earthquake detection signal is transmitted as a contact input or a digital signal, for example (103).
Upon receiving the first earthquake detection signal, the alarm monitoring panel 10 activates the timer 18 to measure a predetermined time T, and transmits an earthquake alarm command signal to the housing information terminal 20 of each dwelling unit (104).
When the housing information terminal 20 of each dwelling unit receives the earthquake warning command signal, it reads out the earthquake countermeasure message and the earthquake warning image from the storage means 2, and notifies and displays them (105).
On the other hand, the alarm monitoring panel 10 stands by until the predetermined time T elapses, and when the second earthquake detection signal is received from the earthquake sensor qs installed in the apartment house before the predetermined time T elapses, Continue waiting. That is, the notification and display are continued on the housing information terminal 20 of each dwelling unit (106).

In FIG. 4, the alarm monitoring panel 10, when no second earthquake detection signal is received from the earthquake sensor qs within a predetermined time T from the reception of the first earthquake detection signal, An alarm stop signal is transmitted (206).
When the housing information terminal 20 of each dwelling unit receives the earthquake warning stop signal, it stops the notification of the earthquake response message and the display of the earthquake warning image, reads out the false alarm message and the false alarm image from the storage means 2, and notifies and displays them ( 207).
Note that the notification of the false alarm message and the display of the false alarm image may be stopped after a predetermined time has elapsed.

In FIG. 5, the earthquake information receiving terminal 30 does not need to transmit an earthquake detection signal when the predicted seismic intensity calculated based on the received earthquake early warning is not equal to or greater than the predetermined seismic intensity, for example, when the predicted seismic intensity is 2. (302).
When receiving the second earthquake detection signal from the earthquake sensor qs, the alarm monitoring panel 10 activates the timer 18 to measure the predetermined time T as described above, and sends the earthquake alarm command signal to the housing information terminal 20 of each dwelling unit. In response to the request (303, 304).
The housing information terminal 20 of each dwelling unit that has received the earthquake warning command signal displays an earthquake response message and displays an earthquake warning image (305), as described above.
The alarm monitoring panel 10 receives the first earthquake detection signal from the earthquake information receiving terminal 30 until the predetermined time T elapses, and stands by as it is.

In FIG. 6, as described based on FIG. 5, when receiving the second earthquake detection signal from the earthquake sensor qs, the alarm monitoring panel 10 activates the timer 18 to measure the predetermined time T, and the earthquake alarm. The command signal is transmitted to the housing information terminal 20 of each dwelling unit, and the dwelling information terminal 20 of each dwelling unit notifies the earthquake countermeasure message and displays the earthquake warning image (403 to 405).
Thereafter, as described with reference to FIG. 4, when there is no reception of the first earthquake detection signal from the earthquake information reception terminal 30 within a predetermined time T from reception of the second earthquake detection signal, the housing information terminal 20 of each dwelling unit. An earthquake warning stop signal is transmitted to the housing information terminal 20 of each dwelling unit, and the notification of the earthquake handling message and the display of the earthquake warning image are stopped as described above, and the false alarm message and the false alarm image are read from the storage means 2. , Notify and display (406, 407).

As is clear from the above configuration and basic operation, the emergency earthquake bulletin responsive apartment house management system A according to the present embodiment has the following effects.
That is, the housing information terminal 20 of each dwelling unit copes with the earthquake by receiving either the first earthquake detection signal based on the emergency earthquake bulletin obtained via the communication network N or the second earthquake detection signal from the earthquake sensor qs. Since the message and the earthquake warning image are notified and displayed, it is possible to notify the resident quickly, and if the other earthquake detection signal is not received within the predetermined time T, the earthquake countermeasure message and the earthquake warning image are displayed and displayed. This will prevent the residents from being confused unnecessarily even in the case of misinformation.

Moreover, since not only the earthquake detection signal from the earthquake sensor qs installed in the apartment house but also the highly reliable earthquake early warning obtained through the communication network N is added, the highly reliable emergency earthquake early warning is taken into account. A corresponding apartment housing management system A can be realized.
For example, in such an emergency earthquake warning-compatible apartment house management system A, in the case of a direct type earthquake with a short distance from the epicenter, the earthquake sensor qs does not wait for the emergency earthquake warning and the earthquake countermeasure message or earthquake warning is received. While the image is reported and displayed, even if the seismic sensor qs reacts sensitively, if a reliable earthquake early warning is not received, the false alarm made by the seismic sensor qs is immediately stopped. There is no confusion.
In particular, in the present embodiment, after the housing information terminal 20 of each dwelling unit is controlled to stop the notification and display of the earthquake response message and the earthquake warning image, the false notification message is displayed and the false notification image is displayed, which is a false report. A notice is displayed and displayed, and confusion can be quickly collected.

  Further, based on the earthquake early warning received by the earthquake information receiving terminal 30 from the earthquake information distribution server 40, the predicted seismic intensity of its own installation area is analyzed. Since the detection signal is transmitted, the transmission of the earthquake detection signal is controlled according to the predicted seismic intensity. Therefore, for example, even when the earthquake sensor qs installed in the apartment house has high sensitivity and the earthquake countermeasure message and the earthquake warning image are notified and displayed by receiving the earthquake detection signal, the earthquake information receiving terminal 30 If there is no reception of an earthquake detection signal that is transmitted only when the seismic intensity is greater than or equal to the specified seismic intensity, the earthquake response message and the earthquake warning image will be stopped, or a false alarm will be notified and displayed. It becomes a bulletin correspondence type apartment house management system A.

Furthermore, since an earthquake response message, an earthquake warning image, etc. are stored in the storage means 5 of the housing information terminal 20 of each dwelling unit, as compared with the conventional case where the response guidance itself is delivered from the alarm monitoring panel 10, Without squeezing the bandwidth of the communication line to the housing information terminal 20 of each dwelling unit connected to the alarm monitoring panel 10, it is possible to quickly transmit an earthquake warning command signal to the housing information terminal 20 of each dwelling unit. it can. Therefore, the housing information terminal 20 of each dwelling unit can promptly notify and display an earthquake response message and an earthquake alarm image.
In addition, even when a disconnection or the like occurs in the communication line connecting the alarm monitoring panel 10 and the housing information terminal 20 of each dwelling unit after the earthquake warning command signal is transmitted, the earthquake countermeasure message is displayed in the housing information terminal 20 of each dwelling unit. It is also possible to notify and display earthquake warning images. In particular, when an earthquake occurs, the communication line may be disconnected due to the main movement caused by the S wave (secondary wave: transverse wave) immediately after the initial fine movement caused by the P wave (primary wave: longitudinal wave) is detected and the earthquake warning command signal is transmitted. However, even in such a case, the earthquake countermeasure message and the earthquake warning image can be notified and displayed on the housing information terminal 20 of each dwelling unit quickly and reliably.

In the present embodiment, the alarm monitoring panel 10 receives either one of the earthquake detection signals, and if the other earthquake detection signal is not received within the predetermined time T, the housing information terminal 20 of each dwelling unit is displayed. While controlling to stop the notification of the earthquake alarm and to notify the false alarm message, it is also possible to stop only the notification of the earthquake alarm.
Moreover, although it is set as the structure which memorize | stores earthquake warnings, such as an earthquake response message, an earthquake warning image, a false alarm image, etc. in the memory | storage means 5 of the housing information terminal 20 of each dwelling unit, it is stored in memory | storage means, such as S-RAM17 of the alarm monitoring panel 10. It is good also as an aspect which memorize | stores and transmits to the housing information terminal 20 of each dwelling unit.

  Furthermore, although it is set as the aspect which the earthquake information receiving terminal 30 performs the necessity of transmission of the 1st earthquake detection signal to the alarm monitoring panel 10 according to a predicted seismic intensity, it is not restricted to this, The aspect which transmits all It is good. Alternatively, the first seismic detection signal transmitted from the earthquake information receiving terminal 30 includes the predicted seismic intensity, and the alarm monitoring panel 10 determines the housing information terminal 20 of each dwelling unit according to the predicted seismic intensity included in the first seismic detection signal. However, it is also possible to determine whether or not it is necessary to transmit an earthquake warning command signal.

It is a schematic system configuration diagram showing an example of an apartment house management system that supports earthquake early warning according to the present invention. It is an internal circuit diagram of an emergency earthquake bulletin corresponding apartment house management system. It is a time chart which shows the basic operation | movement in the apartment house management system corresponding to an earthquake early warning. It is a time chart which shows the other example of the basic operation | movement. 12 is a time chart showing still another example of the basic operation. 12 is a time chart showing still another example of the basic operation.

Explanation of symbols

10 Alarm Monitoring Panel 20 Housing Information Terminal 30 Earthquake Information Receiving Terminal 40 Earthquake Information Distribution Server A Residential Management System Responding to Earthquake Early Warning N Communication Network qs Earthquake Sensor (Inside Housing)

Claims (4)

An emergency earthquake warning-compatible apartment house management system comprising an alarm monitoring panel installed in a management room of an apartment house and a housing information terminal installed in each dwelling unit of the apartment house,
The alarm monitoring panel is connected to an earthquake sensor installed in the apartment house, and is either an earthquake detection signal based on an emergency earthquake warning obtained via a communication network, or an earthquake detection signal from the earthquake sensor When one is received, the housing information terminal of each dwelling unit is controlled to notify an earthquake alarm, and when the other earthquake detection signal is received within a predetermined time thereafter , the earthquake alarm is continued while the predetermined time is An emergency earthquake warning corresponding apartment house management system characterized in that when the other earthquake detection signal is not received within, the earthquake warning notification is stopped. In claim 1,
The alarm monitoring panel is an emergency earthquake warning corresponding housing complex management system that notifies a false alarm message after controlling the housing information terminal of each dwelling unit to stop the alarm alarm notification. In claim 1 or 2,
An earthquake information receiving terminal connected through a communication network to an earthquake information distribution server that collects earthquake information generated in various places and distributes emergency earthquake bulletins,
The earthquake information receiving terminal analyzes the predicted seismic intensity of its own installation area based on the emergency earthquake bulletin received from the earthquake information distribution server, and the seismic information is received from the alarm monitoring panel only when the seismic intensity exceeds a predetermined seismic intensity. An apartment house management system that responds to an earthquake early warning that transmits detection signals. In claim 1 or 2,
An earthquake information receiving terminal connected through a communication network to an earthquake information distribution server that collects earthquake information generated in various places and distributes emergency earthquake bulletins,
The earthquake information receiving terminal analyzes a predicted seismic intensity in its installation area based on the emergency earthquake warning received from the earthquake information distribution server, and transmits an earthquake detection signal including the predicted seismic intensity to the alarm monitoring panel. ,
The alarm monitoring panel controls the housing information terminal of each dwelling unit and notifies the earthquake warning only when the predicted seismic intensity included in the earthquake detection signal is greater than or equal to a predetermined seismic intensity. system.

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