JP2008217392A - Multiple dwelling house management system coping with emergency earthquake flash - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a resident at a remote place to browse images of a multiple dwelling house before and after an earthquake and know the degree of damage in a multiple dwelling house management system coping with an emergency earthquake flash, including a warning monitoring panel and a dwelling house information panel, and having a function of outputting an earthquake warning from the respective dwelling house information panels on receiving earthquake emergency information through a network. <P>SOLUTION: The warning monitoring panel 10 includes: a camera control means 62 for photographing images of the respective places of the multiple dwelling house; a network communicating means 60 for transmitting the photographed images to a previously registered center server 90; and a system control means 10a for transmitting a photographing instruction signal to the camera control means 62 to take photograph images before and after the earthquake on receiving an earthquake emergency information, and transmitting the images to the center server 90 through the network communicating means 60. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention comprises an alarm monitoring panel installed in a management room of an apartment house, etc., and a housing information panel installed in each dwelling unit of the apartment house. When an earthquake occurs, an earthquake alarm is issued from each of the house information panels. The present invention relates to an emergency earthquake warning type apartment house management system with a function to output.

As a prior art related to the present invention, for example, in Patent Document 1 below, when an earthquake is detected, it is detected by an earthquake detection means provided in a housing information panel, and the number of times of detection is counted by an alarm monitoring panel. A system is described in which, when the number of times reaches a predetermined number, a countermeasure guidance is transmitted from an alarm monitoring board to a housing information board and notified. In addition, a mail notification function can be added to the conventional system to easily notify a resident who is out of the office that an earthquake has occurred.
Japanese Patent Laid-Open No. 2003-67866

  However, even if the above-mentioned e-mail notification system is added to the conventional system, if you receive a notification e-mail while you are out, you will know that an earthquake has occurred, but you will not know whether there is any damage to the house. There was a problem that it was not possible to determine whether to deal with it. The present invention aims to solve such problems.

In order to solve the above problem, as a first invention, an emergency earthquake bulletin responsive collective housing management system according to claim 1 is provided in an alarm monitoring panel installed in a management room of a collective housing and each dwelling unit of the collective housing. It has a function to output an earthquake alarm from each of the housing information panels when earthquake emergency information is received through the network, and the alarm monitoring panel takes images of various places of the apartment house Camera control means, network communication means for sending the image to a pre-registered center server, and when the earthquake emergency information is received, a shooting command signal is sent to the camera control means to pre-earthquake image and post-earthquake System control means for capturing images and transmitting the images to the center server through the network communication means.
Here, the pre-earthquake image is an image of each part of the apartment house taken at the initial tremor stage of the earthquake, and the post-earthquake image is an image of each part of the apartment house taken after a predetermined time has passed.

  According to a second aspect of the present invention, there is provided an emergency earthquake bulletin responsive collective housing management system according to claim 2, in which an alarm monitoring panel installed in a management room of the collective housing and housing information installed in each dwelling unit of the collective housing. And having a function of outputting an earthquake warning from each of the housing information panels when receiving earthquake emergency information through a network, and network communication means for transmitting the image to a pre-registered center server, The alarm monitoring board includes system control means for notifying each of the housing information boards when the earthquake emergency information is received, each of the housing information boards, camera control means for taking images of various parts of the house, When connected and receiving a notification from the alarm monitoring panel, it sends a shooting command signal to the camera control means to take a pre-earthquake image and a post-earthquake image, The image, and a control means for transmitting to said center server through the network communication means.

  An emergency earthquake warning corresponding apartment house management system according to claim 3, wherein the network communication means attaches the pre-earthquake image and the post-earthquake image to an e-mail in a predetermined format. Send to the center server.

In the first and second aspects of the invention, when the system receives earthquake emergency information, the system transmits a shooting command signal to the camera control means to take a pre-earthquake image and a post-earthquake image, and the images are centered. Because it is transmitted to the server, the residents living in remote locations can access the center server, view the pre-earthquake image and the post-earthquake image, and compare them to find out the degree of damage caused by the earthquake in the housing complex. be able to.
Particularly in claim 3, since the pre-earthquake image and the post-earthquake image are attached to the e-mail and transmitted, there is no possibility that anyone other than the mail recipient views the images, and privacy is protected.

  Hereinafter, an emergency earthquake warning corresponding apartment house management system of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram illustrating a schematic configuration of the embodiment.
This apartment house management system S1 has a basic configuration in which an alarm monitoring panel 10, a housing information panel 20 installed in each dwelling unit, and a lobby intercom 30 are connected to each other by multiple transmission lines, audio signal lines, and the like. It has the same basic functions as an apartment housing management system.
That is, the alarm monitoring panel 10, the house information panel 20, and the lobby intercom 30 each have a communication means (not shown) and can communicate with each other. Furthermore, a door phone sub-unit 21 is connected to the home information board 20, and mutual communication between the home information board 20 and the door phone sub-unit 21 is also possible.
Also, the housing information panel 20 is connected to security sensors SS such as fire sensors and gas leak sensors arranged at various locations in the house, and has a function of notifying the alarm monitoring panel 10 when they detect an abnormality. Have.
Upon receiving the notification, the alarm monitoring panel 10 has a function of outputting an alarm from the housing information panel 20 of the house and the surrounding houses, or notifying a center device (not shown) of the occurrence of a fire or gas leak accident. Have. Note that the alarm monitoring board 10 may be constituted by a call control device that controls the above-described mutual call and a management room information board.

Furthermore, the apartment house management system S1 has the following features in relation to the present invention. That is, the alarm monitoring panel 10 includes an earthquake information receiving terminal 50 for receiving and analyzing earthquake emergency information from the earthquake information collection server 40 having jurisdiction over the area where the housing complex exists or the locality, and the network communication means 60. It is connected. The earthquake information receiving terminal 50 and the network communication means 60 may be independent of the alarm monitoring panel 10 or may be integrated.
When the alarm monitoring panel 10 receives the earthquake detection signal output from the earthquake information receiving terminal 50, the alarm monitoring panel 10 drives the camera control means 62 provided in the network communication means 60 to obtain the pre-earthquake image and the post-earthquake image of the apartment house. The system control unit 10a having a function of capturing images and transmitting the images to the center server 90 through the network communication unit 60 is provided. The system control means 10a also has a function of notifying each of the house information boards 20 by an earthquake warning signal when receiving the earthquake detection signal. The house information board 20 receives a predetermined voice, The earthquake warning composed of images is output.
The earthquake information receiving terminal 50 is connected to the earthquake information collection server 40 via a network N1 that communicates with, for example, the IPV6 protocol. The earthquake information collection server 40 has a plurality of earthquake sensors QS and continuously monitors the occurrence of local or regional earthquakes. When an earthquake occurs, it is immediately detected at the initial tremor (P wave detection) stage. Earthquake emergency information including information such as the location of the earthquake, the predicted magnitude, and the depth of the earthquake is delivered to the earthquake information receiving terminal 50 as a digital signal. When receiving the information, the earthquake information receiving terminal 50 analyzes the information based on the distance from the epicenter, and as a result, when a seismic intensity exceeding a predetermined value is predicted at the location of the housing complex, for example, as a contact signal or a digital signal Outputs an earthquake detection signal. Therefore, for example, information such as the location of the apartment house is registered in the earthquake information receiving terminal 50 in advance.
The network communication unit 60 includes a camera control unit 62 that captures images of various places in the apartment house and a storage unit (not shown). Through the switching hub 70, each part of the apartment house, for example, a common part of a lobby or an elevator hall, It is connected to a plurality of cameras 80 disposed in each house or the like and a network N such as the Internet. The storage unit stores an address of the center server 90, image information captured by the camera 80, and the like in a predetermined format (for example, JPEG). In this embodiment, the camera control means 62 connects the camera 80 to the network, but other connection forms such as a connection using a video signal line may be used. The network communication means 60 may be configured by an information processing device such as a personal computer. In this case, necessary information such as the address of the center server 90 can be easily set using a monitor device, a keyboard, or the like. Moreover, you may comprise the earthquake information receiving terminal 50 and the network communication means 60 by one information processing apparatus.
The network N is connected to, for example, a center server 90 configured as a Web server, a communication terminal 91 configured with a personal computer or a mobile phone for browsing images stored in the center server 90, and the like.

Next, a basic operation related to photographing and transmission of the pre-earthquake image and the post-earthquake image of the apartment house management system S1 will be described.
FIG. 2 is a flowchart illustrating the operations related to each other and the terminals at that time in time series.
According to this flowchart, when the earthquake information collection server 40 detects the occurrence of an earthquake by the earthquake sensor QS, the earthquake information collection server 40 distributes earthquake emergency information to the earthquake information receiving terminal 50 registered in advance. The earthquake information receiving terminal 50 analyzes that the earthquake emergency information is received, calculates an expected seismic intensity at the location of the apartment house, and outputs an earthquake detection signal if it exceeds a predetermined value (101 to 103).
Upon receiving the earthquake detection signal, the alarm monitoring panel 10 transmits an earthquake warning signal to each of the housing information panels 20 to output an earthquake warning with a predetermined sound or image, and to give the resident's attention and warning. On the other hand, the network communication means 60 transmits a photographing command signal to cause the pre-earthquake image and the post-earthquake image to be photographed (104 to 106).
Here, the pre-earthquake image is an image taken immediately after the alarm monitoring panel 10 receives the earthquake detection signal, that is, various places of the apartment house taken at the initial tremor stage, that is, the common part of the apartment house or the entrance of each house. The post-earthquake image includes images of various places of the apartment house taken after a predetermined time (for example, 30 seconds) has passed.
The camera control means 62 provided in the network communication means 60 starts a timer for measuring the passage of a predetermined time immediately after receiving the shooting command signal. Then, when the camera 80 is sequentially selected and a control signal is transmitted and the returned image information is received, date and time information is added and stored as a pre-earthquake image corresponding to the common part or room number. In this way, when the image acquisition from each of the cameras 80 is completed, the network communication unit 60 transmits all the stored pre-earthquake images to the center server 90 (107 to 113).
After that, when the elapse of the predetermined time is judged by the timer, as in the case of the pre-earthquake image, the camera 80 is sequentially selected and the control signal is transmitted, and when the returned image information is received, the common part or the room number is displayed. Store the corresponding post-earthquake image. Thus, when the image acquisition from each of the cameras 80 is completed, the network communication means 60 transmits all the stored post-earthquake images to the center server 90 (114 to 117).
Here, the center server 90 is configured as a Web server, accumulates the transmitted pre-earthquake image and post-earthquake image, automatically generates a homepage for browsing these images, and the communication registered in advance. A predetermined notification mail is transmitted to the terminal 91. Therefore, the center server 90 also has a mail transmission function. Here, as the communication terminal 91, a mobile phone or a personal computer possessed by each inhabitant or a remote family member is used, and the notification mail is sent to the destination communication terminal 91 via the mail server of the mobile phone carrier. (118).
The homepage for browsing is prepared for each destination of the notification mail or each house, but on that page, you can browse only the images of the shared part of the apartment house and the images of the house corresponding to the destination, etc. It is desirable to restrict browsing so as to protect privacy. Such a restriction can be easily realized because the pre-earthquake image and post-earthquake image are stored in correspondence with the installation location and the room number.

Here, the configuration of the notification mail and the browsing home page will be described.
FIG. 3A is a specific example of the notification mail, and FIGS. 3B and 3C are specific examples of the browsing home page. The notification mail is automatically generated according to a predetermined template, describes the date and time of the earthquake and the name of the housing complex, and further includes a link (URL) for opening a corresponding browsing home page. When this link is clicked, a browsing home page including pre-earthquake images and post-earthquake images as shown in FIGS. 3B and 3C is displayed on the browser screen. On this screen, not only pre-earthquake images and post-earthquake images but also information such as the date and time of occurrence are written.
As another configuration, the network communication unit 60 may transmit the pre-earthquake image and the post-earthquake image attached to an e-mail in a predetermined format. In this configuration, the center server 90 may be configured as a mail server, and the storage unit of the network communication means 60 has a mobile phone or a personal computer e-mail address owned by a resident of each house or a remote family member. Must be registered in advance.

FIG. 4 is a more specific circuit block diagram of the above embodiment.
The apartment house management system S1 has a basic configuration in which the alarm monitoring panel 10 and the house information panel 20 installed in each dwelling unit are connected to each other by multiple transmission lines L1, L2, audio signal lines L3, L4, and the like. Here, the description of the door intercom unit connected to the lobby intercom 30 and the house information panel 20 and the security sensor SS is omitted.

Hereafter, each circuit structure of a component is demonstrated in order.
The alarm monitoring panel 10 includes a multiplex transmission unit 11 that communicates with the housing information panel 20 via the multiplex transmission lines L1 and L2, and a transmission unit 12 that communicates with the earthquake information receiving terminal 50 and the gateway device 60 using 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. Interphone circuit unit 15, flash memory 16 storing a control program and the like, S-RAM 17 storing setting data and the like, a message output unit 18 for transferring information to a center device (not shown), and a CPU 19 for executing the control program It has. Here, the CPU 19 constitutes the system control means 10a.
The housing information panel 20 includes a multiplex transmission unit 21 that communicates with the alarm monitoring panel 10 through the multiplex 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 that has a key input unit 24 composed of a plurality of operation buttons, a handset 25a and a speaker 25b, transmits and receives audio signals through audio signal lines L3 and L4, and stores a control program and the like 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 SS, and a CPU 29 that executes a control program.
The earthquake information receiving terminal 50 includes a transmission unit 51 that communicates with the earthquake information collection server 40 using a protocol such as IPV6, and a CPU 52 that analyzes when earthquake emergency information is received and outputs an earthquake detection signal if necessary. It is connected to the earthquake information collection server 40 via the network N1.
The network communication unit 60 includes a network transmission unit 61 that performs network communication, a transmission CPU 62 that communicates with the alarm monitoring panel 10, and a CPU 63 that constitutes the camera control unit 62. These are connected to a plurality of cameras 80 arranged in various places of the housing complex and a network N. The network N includes a center server 90 and a communication terminal 91 composed of a mobile phone or a personal computer. The camera 80 may be a Web camera having a Web server function, for example, and an image captured by the camera 80 may be color or monochrome.

FIG. 5 is a block diagram illustrating a schematic configuration of another embodiment.
The apartment house management system S2 of this embodiment is different from the configuration shown in FIG. 1 in that the network communication means 60 is provided in each of the house information panels 20. The network communication unit 60 includes a camera control unit 62, and the camera control unit 62 controls the camera 80 installed in each room of the corresponding house via the switching hub 70. The network communication means 60 may be configured independently of the housing information board 20 or may be integrated. Elements that are common to the configuration shown in FIG. 1 are given the same reference numerals, and redundant descriptions are omitted. In this configuration, the system control means 10a provided in the alarm monitoring panel 10 has a function of notifying each of the housing information panels 20 of an earthquake warning signal when receiving earthquake emergency information, while controlling the housing information panel 20 Upon receipt of the notification from the alarm monitoring panel 10, the means 20 a sends a photographing command signal to the camera control means 62 to photograph the pre-earthquake image and the post-earthquake image, and these images are transmitted to the center through the network communication means 60. The server 90 has a function of transmitting.

  Next, the operation according to the present invention will be described. When the alarm monitoring panel 10 receives the earthquake detection signal output from the earthquake information receiving terminal 50, the alarm monitoring panel 10 notifies each of the house information panels 20 by an earthquake warning signal. Upon receipt of the notification, the house information board 20 outputs an earthquake warning by a predetermined sound or image, and transmits a shooting command signal to the network communication means 60. When the camera control unit 62 provided in the network communication unit 60 receives the shooting command signal, the camera 80 arranged in each room of the house takes a picture at that time and an image after a predetermined time has elapsed. These images are stored together with the date / time information as pre-earthquake images and post-earthquake images corresponding to the room numbers, and the network communication means 60 transmits these images to the center server 90. Here, the address of the center server 90 is registered in advance in a storage unit (not shown) of the network communication means 60.

  In the same manner as described above, the pre-earthquake image and the post-earthquake image may be transmitted by attaching them to an e-mail in a predetermined format. In this configuration, it is necessary to register in advance in the storage unit of the network communication means 60 the cellular phone, the mail address of the personal computer, etc. possessed by the resident of each house or the family in the remote place.

It is a block diagram explaining the schematic structure of the Example of invention. It is a flowchart explaining the operation | movement relevant to each apparatus and terminal in invention Example in time series. (A) is a specific example of the notification mail, and (b) and (c) are two specific examples of the browsing home page. It is a more specific circuit block diagram of the embodiment of the invention. It is a block diagram explaining schematic structure of another invention Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Alarm monitoring panel 10a System control means 20 Housing information panel 20a Control means 60 Network communication means 62 Camera control means 90 Center server

Claims (3)

It consists of an alarm monitoring panel installed in the management room of the apartment house, etc., and a housing information panel installed in each dwelling unit of the apartment house. When earthquake emergency information is received through the network, an earthquake alarm is issued from each of the house information panels. An emergency earthquake bulletin responsive apartment house management system with a function to output,
The alarm monitoring panel is:
Camera control means for taking images of various places in the apartment,
Network communication means for transmitting the image to a pre-registered center server;
A system that, when receiving the earthquake emergency information, transmits a shooting command signal to the camera control means to take a pre-earthquake image and a post-earthquake image, and transmits these images to the center server through the network communication means. And an emergency earthquake warning corresponding apartment house management system characterized by comprising control means. It consists of an alarm monitoring panel installed in the management room of the apartment house, etc., and a housing information panel installed in each dwelling unit of the apartment house. When earthquake emergency information is received through the network, an earthquake alarm is issued from each of the house information panels. An emergency earthquake bulletin responsive apartment house management system with a function to output,
Network communication means for transmitting the image to a pre-registered center server,
The alarm monitoring panel is:
When the earthquake emergency information is received, it comprises system control means for notifying each of the housing information panels,
Each of the housing information panels is connected to camera control means for capturing images of various parts of the house, and when receiving a notification from the alarm monitoring panel, transmits a shooting command signal to the camera control means to pre-earthquake image And a post-earthquake image, and a control unit that transmits the image to the center server through the network communication unit. In claim 1 or 2,
The network communication means attaches the pre-earthquake image and the post-earthquake image to an e-mail in a predetermined format and transmits it to the center server.

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