JP5179066B2 - Earthquake notification system - Google Patents

Description

  The present invention relates to an earthquake notification system.

Conventionally, an earthquake notification system that estimates the earthquake arrival time and seismic intensity using emergency earthquake alerts transmitted from the Japan Meteorological Agency when an earthquake occurs and notifies the estimation results or controls elevators, industrial machines, etc. based on the estimation results Has been proposed. (For example, refer to Patent Document 1).
JP 2006-170739 A

  However, in the conventional earthquake notification system, the notification of earthquake information performed when an earthquake occurs is the same operation regardless of the magnitude of the seismic intensity. Therefore, the notification operation when the seismic intensity is large and the urgency is high and the notification operation when the seismic intensity is small and the urgency is low are the same, and the notification operation corresponding to the magnitude of the seismic intensity cannot be performed.

  For example, in the voice notification operation, the tone for notifying earthquake information is the same regardless of the magnitude of the seismic intensity, so it is impossible to convey urgency and urgency, and the user can immediately urgency and urgency when an earthquake occurs. It was difficult to recognize and there was a risk of evacuation delays.

  This invention is made | formed in view of the said reason, The objective is to provide the earthquake alerting | reporting system which can perform alerting | reporting operation | movement according to the magnitude of seismic intensity.

The invention according to claim 1 is an earthquake notification system in which a notification control terminal installed in a house performs an earthquake notification. The notification control terminal estimates an earthquake arrival time and a seismic intensity, an earthquake occurrence information receiving means for receiving an emergency earthquake warning. Target position setting means for setting a plurality of position data including the installation location of the notification control terminal, storage means for storing the set target position data, emergency earthquake warning and target position data Based on the earthquake estimation means for estimating the earthquake arrival time and seismic intensity at the target location, the notification means for notifying the earthquake arrival time and seismic intensity estimation result at the location where the notification control terminal is installed, and the notification destination outside the house that performs the earthquake occurrence notification Data corresponding to each target position and stored in the storage means, the estimated arrival time and seismic intensity at each target position And based on the seismic intensity estimation result at each location of interest, and a notification means for transmitting to the set notification destination in accordance with the magnitude of the seismic intensity, notification means, seismic intensity at the location of the estimated broadcast control terminal The estimation result is voice-notified in a tone format based on the size of the voice.

According to this invention, the notification operation according to the magnitude of the seismic intensity can be performed. Also, when the estimated seismic intensity is small, it is notified with a calm tone with less urgency and tightness, and when the estimated seismic intensity is large, it can be notified with a warning tone with urgency and tightness. You can instantly recognize the urgency and urgency of an earthquake just by listening to your tone. In addition, by performing notification operation according to the magnitude of seismic intensity, for example, earthquake information can be notified only to necessary places according to the hardness of the ground at each target position, the floor number of the residence, etc., and unnecessary notifications can be made Disappear.

The invention according to claim 2 is the terminal device according to claim 1, wherein the notification destination is a terminal device provided with notification means for notifying an estimation result of the estimation means, and a tone format based on the magnitude of the estimated seismic intensity at each target position Then, the estimation result is notified by voice.

  According to the present invention, not only in the house but also at the notification destination, when the estimated seismic intensity is small, the urgency is notified in a calm tone with less urgency, and when the estimated seismic intensity is large, the urgency and urgency is felt. It is possible to notify with a certain warning tone, and it is possible to immediately recognize the urgency and urgency of occurrence of an earthquake simply by listening to the tone of voice notification.

According to a third aspect of the present invention, in the first or second aspect, the notification control terminal includes a control unit that controls an electrical device in the house, and the control operation of the control unit is an estimation of seismic intensity at the installation location of the notification control terminal. Based on the result, the operation content corresponding to the magnitude of the seismic intensity is set.

According to this invention, the control operation according to the magnitude of the seismic intensity can be performed .

As described above, the present invention has an effect that it is possible to perform a notification operation according to the magnitude of the seismic intensity. Also, when the estimated seismic intensity is small, it is notified with a calm tone with less urgency and tightness, and when the estimated seismic intensity is large, it can be notified with a warning tone with urgency and tightness. You can instantly recognize the urgency and urgency of an earthquake just by listening to your tone. In addition, by performing notification operation according to the magnitude of seismic intensity, for example, earthquake information can be notified only to necessary places according to the hardness of the ground at each target position, the floor number of the residence, etc., and unnecessary notifications can be made Disappear.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
As shown in FIG. 1, the earthquake notification system of the present embodiment is connected to the integrated management panel 1 via the integrated management panel 1, the electric line Lp for supplying commercial power, and the control line Lj in the home H <b> 1. Homes such as DC locks, gas supply shut-off devices, lighting fixtures, air conditioners (air conditioners), floor heaters, information terminals, etc. 1 or a plurality of electric devices X installed in the system, a notification control terminal 2 connected to the integrated management panel 1 via a LAN cable Li (a web browser function such as a dedicated control panel, a personal computer, a digital TV compatible with T-Navi) A home network using a general-purpose communication protocol (TCP / IP, UDP, HTTP, etc.). Constitute a click. This home network is a local area network (LAN) compliant with the 100BASE-TX (IEEE 802.3u) standard, and in the integrated management panel 1, an integrated device 1b, which will be described later, corresponding to a layer 2 switch or a layer 3 switch, The notification control terminal 2 corresponding to the network terminal and other terminal devices not shown are connected by star wiring. Further, the integrated device 1b has an Internet connection function corresponding to the type of line for connecting to the Internet (telephone line, CATV line, optical fiber line, etc.), and the home network is connected to the communication network NT as an external network. Connected. The communication network NT includes the Internet, a public line network, and a wireless communication network.

  A center server 10 installed at a remote location away from the house is connected to the home network through a communication network NT, and a personal computer PC having a web browser function (hereinafter referred to as a personal computer PC), a mobile phone, Data communication via the Internet is performed between the portable terminal device PT having a web browser function such as PDA (Personal Digital Assistance) and the center server 10. The center server 10 is composed of a general-purpose computer device having a network function, and belongs to the home network from the integrated management panel 1 and messages sent to the integrated management panel 1 transmitted from the personal computer PC or the portable terminal PT through the communication network NT. It has a function to relay a message transmitted to a non-terminal device. However, since the personal computer PC, the portable terminal PT, and the center server 10 having the Internet connection function as described above are conventionally known, detailed illustration and description thereof are omitted.

  As shown in FIG. 1, the integrated management panel 1 includes a main power breaker 1a composed of a main breaker and a branch breaker for branching commercial power supplied to the house from the outside and supplying the electrical equipment X in the house, and an integrated device 1b. And an electric device controller 1c. Then, each electric circuit Lp from which the commercial power supply is branched through the power supply branching portion 1a is led out of the integrated management panel 1 and is connected to the electrical equipment X in the house to supply operating power.

  The integrated device 1b is connected to terminal devices such as the electrical device controller 1c in the panel and the notification control terminal 2 outside the panel via the LAN cable Li, and the center server 10 and personal computer PC outside the home through the communication network NT. Connected to the portable terminal PT or other terminal device, and has a packet processing function, a path switching function, a network security function, a UPnP (Universal Plug and Play) control point function, etc. Controls data exchange in Japan.

  The electrical device controller 1c has an interface function between the integrated device 1b and the electrical device X that conforms to the unified standard of the Japan Electrical Manufacturers' Association (JEMA), and has received a control request message from the terminal device via the integrated device 1b. Sometimes each electric device X is individually controlled via the control line Lj to switch between operation and stop, and when a monitoring request message is received from the terminal device via the integrated device 1b, each electric device X is controlled via the control line Lj. The operation state (operation or stop) of the device X is individually acquired, and a message of a response to the control request or the monitoring request (operation state of each electric device) is directed to the terminal device that is the transmission source of the request message. A function (control monitoring function) for transmitting through the network.

  In the system configured as described above, the operation when the alert control terminal 2 receives the earthquake early warning (earthquake occurrence information) transmitted from the Japan Meteorological Agency via the communication network NT via the integrated device 1b is as follows. explain.

  As shown in FIG. 1, the notification control terminal 2 includes an interface unit 2a, a control unit 2b, and a notification unit 2c. The interface unit 2a has an interface function between the home network and the control unit 2b. 2c includes a display unit M1 such as a liquid crystal screen, a voice synthesis unit G1, and a voice output unit SP1 having a speaker.

  The control unit 2b includes an earthquake occurrence information receiving unit K1 that receives an emergency earthquake warning transmitted from the Japan Meteorological Agency via the communication network NT, a setting unit K2 that sets various data, and a storage unit that stores each setting data. K3, an earthquake estimation unit K4 that estimates the earthquake arrival time and seismic intensity, and a notification unit K5 that transmits the estimation result of the earthquake estimation unit K4 to the notification destination.

  The setting unit K2 correlates the target position setting unit K21 for setting the target position where the earthquake estimation unit K4 estimates the earthquake arrival time and the seismic intensity, and the notification destination data for which the notification unit K5 notifies the occurrence of the earthquake corresponding to the target position. A notification destination setting unit K22 to be set and a threshold setting unit K23 to set a threshold seismic intensity for notification availability.

  First, in the target position setting unit K21, the location (notification point) of the home H1 where the notification control terminal 2 is installed from the map displayed on the display unit M1, homes of family, relatives, and acquaintances H2, The target position (latitude, longitude) for estimating the earthquake arrival time and seismic intensity is set by the user selecting a location such as H3 or inputting each address (in addition, house H2 in FIG. 1 is grandfather Home, house H3 is uncle's house). Then, in the storage unit K3, an area registration having items of “target position ID”, “target position name”, “home setting”, “notification destination user ID”, and “seismic intensity threshold” as shown in FIG. The table TB1 is stored in advance, and the set target positions are the target position IDs “1”, “2”, “3”, “4”,. . . . . . Stored in correspondence with. Furthermore, “home”, “grandfather's house”, “uncle's house”, etc. are arbitrarily set in the item of the target position name corresponding to each target position, and home is set in the item of home setting. “1” is set at the target position, and “0” is set at the target position set outside the home. Further, the position of the home H1 where the notification control terminal 2 is installed may be acquired by a GPS positioning device (not shown) provided in the notification control terminal 2.

  Next, the notification destination setting unit K22 is operated by the user to input the user name of the notification destination, the e-mail address, the presence / absence of notification, and each input data is “user ID” as shown in FIG. ”,“ User name ”,“ mail address ”, and“ notification presence / absence ”, and are stored in the storage unit K3 in the form of a notification destination registration table TB2 (note that the user names A to FIG. D represents the family at home, user name E represents the grandfather, user name F represents the uncle, and the email addresses of the family AD are the email addresses of the mobile terminals PT carried by the family, and the email address of the grandfather E. Is the mail address of the personal computer PC in the grandfather's house H2, and the mail address of the uncle F is the mail address of the personal computer PC in the uncle house H3). Then, by referring to the notification destination registration table TB2 and setting the notification destination for transmitting the estimated earthquake arrival time and seismic intensity at each target position by e-mail for each target position, the area registration table shown in FIG. The item of the notification destination user ID of TB1 is set (Note that the notification destination user ID setting in FIG. 2 is that the estimation result of the home is transmitted to the mail addresses of the family A to D, and the estimation result of the grandfather's house Are sent to the email addresses of family A, B and grandfather E, and the estimated result of Uncle's house is sent to the email address of Uncle F). That is, the notification destination data for transmitting the estimation result is set corresponding to each target position.

  When the earthquake occurrence information receiving unit K1 of the notification control terminal 2 receives the earthquake early warning, the earthquake estimating unit K4 includes information on the location, depth, seismic intensity at the epicenter, and the like included in the emergency earthquake early warning, and a storage unit Based on the setting data of the target position of K3, the earthquake arrival time and seismic intensity (seismic intensity information) at home H1, grandfather's house H2, and uncle's house H3 are estimated. The estimation result of this earthquake estimation part K4 is produced | generated by the text data which shows the estimation content. One example of text data that represents the estimated earthquake arrival time and seismic intensity results is “It is predicted that there will be a seismic intensity * in * seconds.” If Japanese is the target, text data mixed with kanji and kana, There are kana text data, etc. There are also Roman text data and English text data.

  Of the estimation result (text data) of the earthquake estimation unit K4, the earthquake arrival time and seismic intensity at the home H1 are output to the notification unit 2c in the home H1, and the text data is displayed on the display unit M1.

  Furthermore, the speech synthesizer G1 of the notification unit 2c generates speech guidance as an estimation result by a HMM (Hidden Markov Model) speech synthesis method using text speech synthesis software which is speech conversion software, and is shown in FIG. As described above, the speech guidance is provided with the language database (language D / B) G10, the analysis unit G11, the context-dependent HMM (sound D / B) G12, and the speech waveform generation unit G13, and reads out the text data of the estimation result. Is switched according to the magnitude of the seismic intensity at home H1 estimated by the earthquake estimation unit K4. This tone is characterized by voice quality and prosody, and voice quality is a characteristic that appears mainly in the frequency domain, such as a husky voice, a soft voice, and a hard voice. In addition, prosody includes intonation which is the pitch (pitch) of the voice, volume (strength) of the voice, speech speed (speed of voice), and the like. Depending on the combination of voice quality and prosody, there are, for example, calm tone with less urgency and tightness, and warning tone with urgency and tightness.

  First, the language database G10 is a means for discriminating a suitable tone from the magnitude of the seismic intensity of the home H1 estimated by the earthquake estimation unit K4, and the relationship between the magnitude and tone estimated by the earthquake estimation unit K4 is a dictionary. In seismic intensity 1-7, if the estimated seismic intensity is small (seismic intensity 1-3), if the estimated seismic intensity is large (seismic intensity 4-7) ), The relationship between the magnitude of the seismic intensity and the tone, such as warning tone with urgency and tension.

  The analysis unit G11 performs language analysis on the text data from the earthquake estimation unit K4 using information in the language database G10 to create text synthesis data (intermediate file). In the text synthesis data, the tone information is converted into text along with the estimation result, information such as reading, accent, part of speech, and pose.

  The context-dependent HMMG 12 stores a plurality of tone data related to the tone for notifying the estimation result. Specifically, the context-dependent HMMG 12 is a parameter in which the tone characteristics expressing “urgency,” “tension”, and the like are compressed ( Tone data such as HMM) is stored. Each tone data is created based on voice data created by an announcer actually speaking. The context-dependent HMMG 12 outputs tone data suitable for the estimated seismic intensity from the plurality of tone data to the speech waveform generation unit G13. Specifically, if the estimated seismic intensity is seismic intensity 1 to 3, calmness tone data with little urgency and tightness, and if the estimated seismic intensity is 4 to 7 seismic intensity, warning with urgency and tightness Tone data is output.

  The voice waveform generation unit G13 switches the tone of voice guidance based on the text synthesis data from the analysis unit G11 based on the tone data from the context-dependent HMMG 12, and specifically, the text synthesis data from the analysis unit G11. Then, based on the tone data from the context-dependent HMMG 12, voice signal data that reads out the text data with the set tone is created. The means for determining the tone from the content of the text data is not limited to the above, and other means may be used. For details of the voice guidance generation processing by the voice synthesizer G1, refer to the voice guidance system described in Japanese Patent Application No. 2006-346545 by the applicant of the present invention.

  The audio output unit SP1 includes a D / A converter (not shown) and a speaker (not shown), and the D / A converter receives the audio signal data created by the audio waveform generator G13. The speaker is converted into an analog audio signal, and the speaker reproduces the analog audio signal and gives an audio notification of the seismic intensity estimation result at home H1. Therefore, the sound notification is set in the tone format according to the estimation result of the seismic intensity at home H1, and when the estimated seismic intensity is small, it is notified in a calm tone with less urgency and tightness, and the estimated seismic intensity is large. When the warning tone with urgency and urgency is reported, the family at home H1 can immediately recognize the urgency and urgency of the earthquake just by listening to the tone of the voice notification, and the seismic intensity If it is large, evacuation action can be taken immediately. Further, if the voice notification by the voice output unit SP1 is notified not only in the home H1, but also outside the home H1, it is possible to notify the neighbors of the occurrence of the earthquake.

  Furthermore, the notification unit K5 refers to the item of the notification destination user ID in the area registration table TB1 and sends the estimated earthquake arrival time and seismic intensity at the home H1 to the mail addresses assigned to the user ID1 to ID4. Send by email. In this case, the mail addresses assigned to the user ID1 to ID4 are the mail addresses of the mobile terminals PT of the families A to D, and the family who is out can also receive the earthquake information.

  Further, the notification unit K5 refers to the notification destination user ID item in the area registration table TB1, and sends the estimated earthquake arrival time and seismic intensity estimation result at the grandfather's house H2 to the mail address assigned to the user ID 5. Send with. In this case, the mail address assigned to the user ID 5 is the mail address of the personal computer PC in the grandfather's house H2, and the earthquake information can be notified to the grandfather E who lives away from home. Further, the earthquake information of the grandfather's house H2 can be notified to the mobile terminals PT of the families A and B.

  In addition, the notification unit K5 refers to the notification destination user ID item in the area registration table TB1 and sends the estimated earthquake arrival time and seismic intensity estimation result at the uncle's house H3 to the mail address assigned to the user ID 6. Send with. In this case, the mail address assigned to the user ID 6 is the mail address of the personal computer PC in the uncle's house H3, and the earthquake information can be notified to the uncle F who lives away from home.

  The estimation results transmitted from the earthquake estimation unit K4 to the mobile phone PT of the family A to D, the personal computer PC of the grandfather's house H2, and the personal computer PC of the uncle's house H3 are also generated as text data. In addition, by providing the same voice synthesizer G1 as the notification control terminal 2, the tone of the voice notification at the notification destination is set according to the estimation results of the seismic intensity at the home H1, the grandfather's house H2, and the uncle's house H3. Therefore, even in the above notification operation, when the estimated seismic intensity is small, the urgency is reported with a calm tone with little urgency, and when the estimated seismic intensity is large, the caution is given with a warning tone with urgency and tightness. Therefore, even at a notification destination outside the home, it is possible to immediately recognize the urgency and urgency of an earthquake by simply listening to the tone of voice notification, and if the seismic intensity is large, evacuation action can be taken immediately.

  In this way, by setting the notification operation (voice notification tone) according to the estimated magnitude of the seismic intensity, it is possible to perform the notification operation according to the magnitude of the seismic intensity, the urgency of the occurrence of the earthquake, and the urgency Can be transmitted. In addition to notifying the earthquake arrival time and seismic intensity at home H1, it is possible to notify family members who are away from home, and the earthquake arrival time and seismic intensity at homes of family members, relatives, acquaintances, etc. living remotely And can use earthquake information in a wide range.

  In addition, the notification operation adds priority to each notification destination at the time of notification destination setting in the notification destination setting unit K22, so that the notification unit K5 has the earthquake arrival time and seismic intensity in order from the notification destination having the highest notification order. Information is transmitted, and earthquake information is quickly notified to highly urgent notification destinations. Alternatively, when setting the notification destination in the notification destination setting unit K22 so as to transmit to all the notification destinations at the same time, it is possible to notify earthquake information to all the notification destinations all at once.

  Further, the threshold value setting unit K23 sets a seismic intensity threshold value for determining whether or not the notification operation is possible. If the seismic intensity estimated for each target position is not equal to or greater than the seismic intensity threshold value, the notification operation of the estimation result is not performed. Thus, by setting a notification operation corresponding to the estimated magnitude of the seismic intensity (whether or not the estimation result can be transmitted to each notification destination), a notification operation corresponding to the magnitude of the seismic intensity can be performed. The seismic intensity threshold value set by the threshold setting unit K23 is stored in the area registration table TB1 (see FIG. 2) for each target position. For example, the seismic intensity threshold value of the home H1 is set to “2”, and the grandfather's house H2 having a hard ground. By setting the seismic intensity threshold value of “3” and the seismic intensity threshold value of uncle's house H3 on the higher floor to “1”, only the necessary places according to the hardness of the ground at each target location and the number of floors of the residence, etc. Earthquake information can be sent to the station without unnecessary notifications.

  For example, if the estimation result of home H1 is seismic intensity “1”, the estimation result of grandfather's house H2 is seismic intensity “4”, and the estimation result of uncle's house H3 is seismic intensity “3”, the seismic intensity threshold value of area registration table TB1 in FIG. The estimation result of the home H1 is not notified anywhere, and the estimation result of the grandfather's house H2 is notified to the mobile terminals PT of the families A and B and the personal computer PC of the grandfather's house H2, and the uncle's house H3 is referred to. The estimation result is notified to the personal computer PC of the uncle's house H3. If the estimation result of home H1 is seismic intensity “5”, the estimation result of grandfather's house H2 is seismic intensity “2”, and the estimation result of uncle's house H3 is seismic intensity “1”, the seismic intensity threshold value in area registration table TB1 of FIG. Referring to the item, the estimation result of the home H1 is notified to the mobile terminals PT of the families A to D, the estimation results of the grandfather's house H2 are not notified anywhere, and the estimation result of the uncle's house H3 is the uncle's house. Notification is sent to the personal computer PC of H3.

  Further, if the estimated seismic intensity at home H1 is less than or equal to seismic intensity 3, only parents A and B who are parents are notified of earthquake information of home H1, and the estimated seismic intensity at home H1. If the seismic intensity is 4 or more, the earthquake information of the home H1 may be notified to all the families A to D.

  In the present invention, based on the seismic intensity at each target position estimated by the earthquake estimator K4, the contents of the notification operation and notification operation according to the magnitude of the seismic intensity are set, but are included in the emergency earthquake bulletin from the Japan Meteorological Agency Based on the seismic intensity information of the seismic source to be selected, each operation content corresponding to the magnitude of the seismic intensity may be set.

(Embodiment 2)
As shown in FIG. 5, the earthquake notification system according to the present embodiment is a device control that transmits a control request or a monitoring request for the electrical device X based on the estimation result of the earthquake estimation unit K4 in addition to the configuration of the first embodiment. The unit K6 is provided in the control unit 2b, and the interlocking pattern setting unit K24 for setting the control content of the electric device X by the device control unit K6 performed in conjunction with the estimation result of the earthquake estimation unit K4 is provided in the setting unit K2. Yes. In addition, the same code | symbol is attached | subjected to the structure similar to Embodiment 1, and description is abbreviate | omitted.

  Hereinafter, the control operation of the electric device X by the notification control terminal 2 will be described. First, as shown in FIG. 6, the area registration table TB1 in the storage unit K3 includes “target position ID”, “target position name”, “home setting”, “notification destination user ID”, “ In addition to each item of “seismic intensity threshold”, an item of “interlocking pattern ID” is included.

  Then, the control of the electrical device X by the device control unit K6 at the time of the occurrence of the earthquake is set by the user operating the interlock pattern setting unit K24, and the “interlock pattern ID” as shown in FIG. 7 is stored in the storage unit K3. , An interlocking operation registration table TB3 having items such as “electric lock unlocking”, “DC power on”, “gas shut-off” and the like is stored in advance, and the operation of each item is set by the interlocking pattern setting unit K24. Is stored (?, X). This interlocking control includes interlocking pattern IDs “P1”, “P2”, “P3”,. . . . . . Different contents can be set for each, and the content of the interlock control at home H1 is set to the interlock pattern ID “P1” when the seismic intensity estimated by the earthquake estimation unit K4 is seismic intensity 1 to 3, and is estimated If the seismic intensity is seismic intensity 4-7, if the interlock pattern ID “P2” is set, the item of the interlock pattern ID at home in the area registration table TB1 (see FIG. 6) corresponds to the seismic intensity 1-3. “P1” is stored, and “P2” is stored corresponding to seismic intensity 4-7.

  Thus, if the seismic intensity at home H1 estimated by the earthquake estimating unit K4 is seismic intensity 1 to 3, the device control unit K6 refers to the items of seismic intensity 1 to 3 of the interlocking pattern ID in the area registration table TB1 and interlocks. A request message is transmitted according to the content set in the pattern ID “P2” (see the interlocking operation registration table TB3 in FIG. 7), and interlocking control of the electric device X is performed until the earthquake reaches the home H1. If the seismic intensity at home H1 estimated by the earthquake estimating unit K4 is seismic intensity 4-7, the device control unit K6 refers to the item of seismic intensity 4-7 of the interlocking pattern ID in the area registration table TB1, and the interlocking pattern ID. A request message is transmitted according to the content set in “P1” (see the interlocking operation registration table TB3 in FIG. 7), and interlocking control of the electric device X is performed before the earthquake reaches the home H1. That is, the device control unit K6 transmits a control request to the electric device controller 1c of the integrated management panel 1 according to the magnitude of the seismic intensity at the home H1 estimated by the earthquake estimation unit K4, and the electric device controller 1c transmits the electric device X. By controlling, for example, an electric lock is unlocked to secure an evacuation route, a DC power source is activated to secure a power source such as an emergency light, or a gas supply is shut off to make the electrical device X safe. Control or stop to the state.

  In addition, if the integrated management panel 1 is provided in the uncle's house H3 as well as the home H1, the operation of the electric device X in the uncle's house H3 can be controlled and monitored from the home H1 via the communication network NT. By setting the interlocking pattern ID at H3 (see FIG. 6), based on the seismic intensity at uncle's house H3 estimated by earthquake estimation unit K4, a control request is transmitted from home H1 to uncle's house H3 when an earthquake occurs. The device X can be controlled, and the electric device X can be controlled or stopped in a safe state.

  In this way, based on the estimated earthquake arrival time and seismic intensity at each target position, before the earthquake actually arrives, the electrical equipment X of the house H1, homes of relatives, relatives, acquaintances' homes By controlling or stopping in a safe state, damage caused by an earthquake is minimized. Moreover, the control operation | movement according to the magnitude of a seismic intensity can be performed by setting the control operation | movement of the electric equipment X according to the magnitude | size of the estimated seismic intensity.

  In the present invention, based on the seismic intensity at each target position estimated by the earthquake estimator K4, the content of the control operation according to the magnitude of the seismic intensity is set, but the seismic source included in the emergency earthquake bulletin from the Japan Meteorological Agency Based on the seismic intensity information, the operation content corresponding to the magnitude of the seismic intensity may be set.

(Embodiment 3)
The earthquake notification system of this embodiment is provided with a part of the function of the control unit 2b of the notification control terminal 2 of Embodiment 2 in the center server 10, and the notification control terminal 2 is as shown in FIG. In addition, the control unit 2b includes only the setting unit K2, and the center server 10 receives an earthquake occurrence information receiving unit K1 that receives an emergency earthquake bulletin transmitted from the Japan Meteorological Agency via the communication network NT, as shown in FIG. The earthquake arrival time and seismic intensity at the target location are estimated based on the storage unit K3 that acquires and stores each data set in the notification control terminal 2 via the communication network NT, and the emergency earthquake warning and the target location setting data. An earthquake estimation unit K4, a notification unit K5 that transmits the estimation result of the earthquake estimation unit K4 to the notification control terminal 2 and the notification destination, and a control request and supervision of the electrical device X based on the estimation result of the earthquake estimation unit K4 And a device control unit K6 for transmitting a request.

  Each data set in the notification control terminal 2 is stored in the storage unit K3 via the communication network NT. As in the second embodiment, the target position (the earthquake estimation unit K4 estimates the earthquake arrival time and seismic intensity ( Data of home H1, grandfather's house H2, uncle's house H3), area registration table TB1 (see FIG. 6), notification destination registration table TB2 (see FIG. 3), and linked operation registration table TB3 (see FIG. 7) are stored. Yes.

  When the earthquake occurrence information receiving unit K1 of the center server 10 receives the earthquake early warning, the earthquake estimating unit K4 includes information on the location, depth, seismic intensity at the epicenter, etc. included in the emergency earthquake early warning, and a storage unit Based on the setting data of the target position of K3, the earthquake arrival time and the seismic intensity at home H1, grandfather's house H2, and uncle's house H3 are estimated.

  Of the estimated earthquake arrival time and seismic intensity at each target position, the earthquake arrival time and seismic intensity at home H1 are transmitted from the notification unit K5 of the center server 10 to the notification control terminal 2 in the home H1 and displayed on the notification unit 2c. The text is displayed on the part M1, and is also notified by voice from the voice output part SP1. Furthermore, the notification unit K5 refers to the item of the notification destination user ID in the area registration table TB1 and sends the earthquake arrival time and seismic intensity at this home H1 to the mail addresses assigned to the user IDs 1 to 4 by e-mail. Send. In this case, the mail addresses assigned to the user ID1 to ID4 are the mail addresses of the mobile terminals PT of the families A to D, and the family who is out can also receive the earthquake information.

  Further, the notification unit K5 refers to the notification destination user ID item in the area registration table TB1 and transmits the earthquake arrival time and the seismic intensity at the grandfather's house H2 by e-mail to the e-mail address assigned to the user ID 5. . In this case, the mail address assigned to the user ID 5 is the mail address of the personal computer PC in the grandfather's house H2, and the earthquake information can be notified to the grandfather E who lives away from home. Further, the earthquake information of the grandfather's house H2 can be notified to the mobile terminals PT of the families A and B.

  In addition, the notification unit K5 refers to the notification destination user ID item in the area registration table TB1 and transmits the earthquake arrival time and the seismic intensity at the uncle's house H3 by e-mail to the e-mail address assigned to the user ID 6. . In this case, the mail address assigned to the user ID 6 is the mail address of the personal computer PC in the uncle's house H3, and the earthquake information can be notified to the uncle F who lives away from home.

  In this way, not only can the earthquake arrival time and seismic intensity at home H1 be notified, but it can also notify family members who are out, and also the earthquake arrival time and seismic intensity at homes of family members, relatives, acquaintances, etc. Notification can be made and earthquake information can be used in a wide range.

  In addition, the voice notification of the estimation results by the notification control terminal 2 at the home H1, the mobile terminals PT of the notification destination families A to D, the personal computer PC at the grandfather's house H2, and the personal computer PC at the uncle's house H3 is the same as in the first and second embodiments. When the estimated seismic intensity is small, it is reported in a calm tone with less urgency and tightness, and when the estimated seismic intensity is large, it is reported in a warning tone with urgency and tightness. You can instantly recognize the urgency and sense of urgency of an earthquake by simply listening to, and if the seismic intensity is high, you can immediately evacuate. In this way, by setting the notification operation (voice notification tone) according to the estimated magnitude of the seismic intensity, it is possible to perform the notification operation according to the magnitude of the seismic intensity, the urgency of the occurrence of the earthquake, and the urgency Can be transmitted.

  Further, as in the first and second embodiments, a seismic intensity threshold for determining whether or not the notification operation of the notification unit K5 is possible is set by the threshold setting unit K23, and the seismic intensity estimated for each target position must be greater than or equal to the seismic intensity threshold. For example, the notification operation of the estimation result is not performed, and the notification operation according to the estimated magnitude of the seismic intensity (whether the estimation result can be transmitted to each notification destination) is set. Notification operation can be performed.

  Further, as in the second embodiment, the device control unit K6 of the center server 10 refers to the item of the interlocking pattern ID in the area registration table TB1, and based on the estimated earthquake arrival time and the seismic intensity at each target position. Before the earthquake arrives, the electrical equipment X in the home H1 and the family, relatives, and acquaintances living away from home is controlled or stopped in a safe state to minimize damage in the event of an earthquake. ing. Moreover, the control operation | movement of the electric equipment X according to the magnitude | size of the estimated seismic intensity is set, and the control operation according to the magnitude of a seismic intensity can be performed.

  In the present invention, based on the seismic intensity at each target position estimated by the earthquake estimation unit K4, the contents of the notification operation, the notification operation, and the control operation according to the magnitude of the seismic intensity are set, but the emergency earthquake from the Japan Meteorological Agency Based on the seismic intensity information of the epicenter included in the breaking news, each operation content according to the magnitude of the seismic intensity may be set.

  Further, the earthquake notification system of the present embodiment includes the earthquake occurrence information reception unit K1, the storage unit K3, the earthquake estimation unit K4, the notification unit K5, and the device control unit K6 of the notification control terminal 2 of the second embodiment in the center server 10. The other operations are performed in the same manner as in the second embodiment via the communication network NT, and the description thereof is omitted.

It is a figure which shows the structure of the earthquake alert system of Embodiment 1. It is a figure which shows an area registration table same as the above. It is a figure which shows a notification destination registration table same as the above. It is a figure which shows the structure of a speech synthesizing part same as the above. It is a figure which shows the structure of the earthquake alert system of Embodiment 2. It is a figure which shows an area registration table same as the above. It is a figure which shows the interlocking operation registration table same as the above. It is a figure which shows the structure of the alerting | reporting control terminal of Embodiment 3. It is a figure which shows the structure of the center server same as the above.

DESCRIPTION OF SYMBOLS 1 Integrated management board 2 Information control terminal 2b Control part 2c Information part K1 Earthquake occurrence information receiving part K21 Target position setting part K22 Notification destination setting part K4 Earthquake estimation part K5 Notification part NT Communication network

Claims (3)

In the earthquake notification system where the notification control terminal installed in the house performs earthquake notification,
The notification control terminal includes an earthquake occurrence information receiving unit that receives an emergency earthquake warning, a target position setting unit that sets a plurality of position data including an installation location of the notification control terminal as a target position for estimating an earthquake arrival time and a seismic intensity, Storage means for storing the data of the set target position, earthquake estimation means for estimating the earthquake arrival time and seismic intensity at the target position based on the earthquake early warning and the data of the target position, and the location of the notification control terminal An informing means for informing an earthquake arrival time and an estimation result of seismic intensity, an out-of-home notification destination data for making an earthquake occurrence notification corresponding to each target position, and a notification destination setting means for storing in the storage means, Estimated earthquake arrival time and seismic intensity at each target location, based on seismic intensity estimated results at each target location, to the notification destination set according to the magnitude of the seismic intensity And a notification means to trust,
The notifying means provides an audio notification of the estimation result in a tone format based on the magnitude of the seismic intensity at the estimated installation location of the notification control terminal. The notification destination is a terminal device provided with a notification unit that notifies the estimation result of the estimation unit, and the notification result is voice-notified in a tone format based on the magnitude of the seismic intensity at each estimated target position. The earthquake notification system according to claim 1. The notification control terminal includes a control unit that controls electrical equipment in the house, and the control operation of the control unit is based on the seismic intensity estimation result at the location where the notification control terminal is installed, and the operation content according to the magnitude of the seismic intensity Is set, the earthquake notification system according to claim 1 or 2.

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