JP2017226502A - Remote monitoring system and information monitoring center of elevator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the execution of useless communication while an earthquake does not take place.SOLUTION: A remote monitoring system for elevators prevents site information collection means (36) from transmitting a request signal to collect information on the operation of an elevator 211 to a remote monitoring terminal (213) having transmitted an earthquake control warning signal in the case that earthquake information collation means (312) determines that a received earthquake control warning signal is not transmitted from a remote monitoring terminal installed in a region where an earthquake takes place.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an elevator remote monitoring system and an information monitoring center.

  In order to prevent unexpected accidents at the time of an earthquake, an elevator installed an earthquake detector as an additional equipment of the elevator. When this earthquake detector detects vibration exceeding the specified seismic intensity, the elevator control device The car enters the controlled operation state, and the car is driven to the nearest floor and stopped on the floor with the door open.

  As background art of a remote monitoring system for monitoring this type of elevator, for example, Patent Document 1 is known. Patent Document 1 states that “a remote monitoring terminal having an earthquake notification function for notifying an information monitoring center when an elevator stops in a controlled operation state due to an earthquake; Two types of monitoring terminals are prepared, and a remote monitoring terminal having an earthquake alarm function is installed only in a specific elevator among elevators grouped in a predetermined area range.

  In this patent document 1, when an earthquake occurs, based on the earthquake report information from an elevator equipped with an earthquake report function, a remote monitoring terminal that does not have an earthquake report function in the same group (region). The information monitoring center sends the information and collects the elevator operation status. As a result, abnormal information generated due to the occurrence of an earthquake does not concentrate and the receiving line does not go down, collecting information on elevators that have stopped due to seismic control operation. Abnormal alerts due to accidents can also be received.

JP 2006-315793 A

  It is stipulated that the seismic detectors installed in elevators should be checked for operation by annual legal inspection. For this reason, at the time of statutory inspection, when an inspection is performed by a maintenance company professional engineer to operate the seismic detector, the elevator is in control operation regardless of the earthquake, and the remote monitoring terminal connected to the elevator is The earthquake will be reported to the information monitoring center. The information monitoring center starts collecting elevator control operation information for a large number of remote monitoring terminals that do not have an earthquake notification function, triggered by an earthquake notification. There is a problem of carrying out simple communication. However, Patent Document 1 does not mention this problem, and there is room for improvement.

  The present invention has been made in view of solving the above-described problems. The purpose of the present invention is to perform useless communication in a state where an earthquake has not occurred, for example, during periodic inspection of an earthquake detector. It is to provide an elevator remote monitoring system and an information monitoring center that can be prevented.

  In order to achieve the above object, a representative present invention includes a plurality of remote monitoring terminals that respectively monitor the states of a plurality of elevators installed in a plurality of areas, the plurality of remote monitoring terminals, and a communication line. In an elevator remote monitoring system comprising a connected information monitoring center, each elevator is controlled so that seismic control operation is performed by the operation of a seismic sensor provided in each elevator, and installed in each area Of the plurality of remote monitoring terminals, at least one remote monitoring terminal receives the seismic control notification signal based on the fact that the seismic sensor is activated or the seismic control operation is performed. Information on the operation state of the elevator based on the seismic control reporting means to be transmitted to the monitoring center and the request signal received from the outside Operating status answering means for transmitting to the visual center, the information monitoring center receiving earthquake information for each area from the outside, and earthquakes for each area received by the earthquake information receiving means. Seismic information verification means for referring to the information to determine whether the received seismic control signal is from the remote monitoring terminal installed in the area where the earthquake occurred, and the seismic control Field information collecting means for transmitting the request signal to collect information related to the operation state of the elevator to the remote monitoring terminal that has transmitted a report signal, and the received seismic control report signal is received When the seismic information collating means determines that the information is not from the remote monitoring terminal installed in the area where the earthquake occurred, the on-site information collecting means To the remote monitoring terminal that originated the, characterized in that so as not to transmit the request signal.

  ADVANTAGE OF THE INVENTION According to this invention, implementation of useless communication can be prevented in the state which has not generate | occur | produced the earthquake. Problems, configurations, and effects other than those described above will be clarified by the following description of the embodiments.

It is a block diagram showing the whole elevator remote monitoring system composition concerning an embodiment of the present invention. It is a figure which shows the example of a display of the display means of the information monitoring center shown in FIG.

  Embodiments of an elevator remote monitoring system according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the overall configuration of an elevator remote monitoring system according to an embodiment of the present invention, and FIG. 2 is a diagram showing a display example of the display means of the information monitoring center shown in FIG.

  In FIG. 1, areas 1 to n (n is an integer of 3 or more) are obtained by grouping service areas of elevator maintenance companies in advance within a specific range and registering them in the customer information management database 34. Accordingly, in the customer information management database 34, all sites are registered so as to belong to a specific area number. For example, “site 11 and site 12 belong to area 1, and site 21 and 22 belong to area 2. Is managed.

  Each site is equipped with an elevator, seismic detector, and remote monitoring terminal. Here, different numbers are assigned for convenience in order to distinguish between multiple regions and multiple site elevators and seismic detectors. To explain. For example, the earthquake detector 112 and the remote monitoring terminal 113 are connected to the elevator 111 of the site 11 subordinate to the region 1, and the earthquake detector 222 and the remote monitoring terminal 223 are connected to the elevator 221 of the site 22 of the region 2, respectively. It is connected. The elevators 111 to 2n1 are normal elevators having a car, a suspension weight, a control device, and the like (not shown).

  The earthquake detectors 112 to 2n2 are connected to the elevators 111 to 2n1, and have means for detecting a vibration of a predetermined value or more when an earthquake occurs and outputting an earthquake detection signal to the elevators 111 to 2n1. When the elevators 111 to 2n1 receive the earthquake detection signals from the earthquake detectors 112 to 2n2, the elevators 111 to 2n1 are switched to control operation, the car is guided to the nearest floor, stopped on the floor, and the door is opened. Set to standby state.

  Next, the remote monitoring terminal will be described. The remote monitoring terminal 113 installed at the site 11 belonging to the region 1 is composed of an abnormality monitoring reporting unit 1131, an operation state answering unit 1132, and a seismic control reporting unit 1133, and monitors the operation state of the elevator 111. .

  Similarly, the remote monitoring terminal 213 installed at the site 21 belonging to the area 2 is composed of an abnormality monitoring reporting means 2131, an operation state answering means 2132, and a seismic control reporting means 2133, and the operation of the elevator 211. Monitor status.

  The seismic control reporting means 1133 and 2133 are connected via the general public line (communication line) 2 based on the fact that the seismic detectors 112 and 212 are operated or the seismic control operation of the elevators 111 and 211 is performed. The information monitoring center 3 is subjected to seismic control alert processing (processing for transmitting seismic control alert signals).

  On the other hand, the remote monitoring terminals 123-1 n 3 installed at the sites 12-1 n are composed of abnormality monitoring / reporting means 1231-1 n 31 and driving state answering means 1232-1 n 32, and the operation states (driving) of the elevators 121-1 n 1. Status).

  Similarly, the remote monitoring terminals 223 to 2n3 installed at the sites 22 to 2n are composed of abnormality monitoring and reporting means 2231 to 2n31 and operation state answering means 2232 to 2n32, and the operation states of the elevators 221 to 2n1 ( Monitor the operating status.

  That is, among the remote monitoring terminals 113 to 1n3 installed in the region 1, only the remote monitoring terminal 113 at the site 11 is provided with the seismic control reporting means, and the remote monitoring terminals installed at the sites 12 to 1n. 1233-1n3 has no seismic control reporting means. Therefore, only the remote monitoring terminal 113 at the site 11 performs seismic control notification when an earthquake occurs in the region 1. Thereby, the communication load is reduced.

  The same applies to region 2 and thereafter. Of the remote monitoring terminals 213 to 2n3 installed in region 2, only the remote monitoring terminal 213 at the site 21 is equipped with the seismic control reporting means, and installed at the sites 22 to 2n. The remote monitoring terminals 223 to 2n3 thus provided are not provided with seismic control reporting means. Therefore, only the remote monitoring terminal 213 at the site 21 performs seismic control notification when an earthquake occurs in the region 2.

  All the abnormality monitoring and reporting means 1131 to 2n31 read out the operation information of the elevators 111 to 2n1 and constantly monitor it. When an abnormality other than an earthquake (normal abnormality) occurs, information is monitored via the general public line 2. Anomaly is reported to Center 3. In addition, when an earthquake of a predetermined magnitude or larger occurs and seismic control operation is performed, the seismic control reporting means 1133 and 2133 sends normal abnormality reporting signals transmitted from the abnormality monitoring reporting means 1131 and 2131. The seismic control alert signal is transmitted to the information monitoring center 3 in preference to.

  The operation state answering means 1132 to 2n32 are operated when the operation state reading request (request signal) of the elevators 111 to 2n1 is transmitted from the information monitoring center 3 via the general public line 2. The operation state data of the elevators 111 to 2n1 are read out through the information, and information regarding the operation state of the elevators 111 to 2n1 as an answer is transmitted to the information monitoring center 3.

  On the other hand, the information monitoring center 3 includes an information control means 31, an earthquake information receiving means 311, an earthquake information collating means 312, an alarm receiving means 32, a display means 33, a customer information management database (DB) 34, an information collection control means 35, The site information collecting means 36, the disaster information management database (DB) 37, and the intranet server 38 are provided, and each means is connected as shown in FIG.

  The information control means 31 mainly controls the flow of notification information. The two types of notification information received by the notification receiving means 32 (that is, abnormal alarm signals other than earthquakes and seismic control alarm information). Identification, collation of this report information with the customer information management database 34, and display of the received report information on the display means 33.

  Furthermore, the information control means 31 requests | requires collation of an earthquake occurrence area with respect to the earthquake information collation means 312 when a seismic control alert signal is received. As a result of verification, if it is determined that the collection of on-site information is necessary due to an earthquake, that is, if it is determined that a seismic control signal is being transmitted from a remote monitoring terminal installed in the earthquake occurrence area, information control means 31 extracts the site list of the area where the earthquake occurred from the customer information management database 34, expands the data in the disaster information management database 37, assigns an “information collection required” code to the extracted site list, The collection of on-site information is urged through the collection control means 35.

  The information collection control unit 35 collects site information via the site information collection unit 36 based on the site list labeled “information collection required” in the disaster information management database 37, and also manages the disaster information management. Information on the reading results of each site stored in the database 37 is transmitted to the service base 4 via the intranet server 38.

  The earthquake information receiving means 311 receives earthquake information distributed by the Japan Meteorological Agency 7 via the network 6. The earthquake information verification unit 312 determines whether or not there is an earthquake in the area by comparing the earthquake information of the Japan Meteorological Agency 7 with the area to which the remote monitoring terminal that has transmitted the seismic control notification signal belongs.

  The notification receiving means 32 receives the notification data from the remote monitoring terminals 113 to 2n3 via the general public line 2 and transmits it to the information control means 31.

  The display means 33 is comprised, for example with a large sized display, and displays the result processed by the information control means 31 or the information collection control means 35 based on the alert information in the information monitoring center 3. A specific example of display will be described later.

  The customer information management database 34 is a database for managing all customer information contracted by the elevator maintenance company. Various information necessary for operating the information monitoring center 3 from basic information such as customer names and addresses is used. Information is stored.

  The information collection control means 35 controls the process of collecting information on the affected area when an earthquake occurs, and the information control means 31 provides the “information collection required” code in the disaster information management database 37. When the list is expanded, while acquiring customer information by accessing the customer information management database 34 and the disaster information management database 37, the site information collecting means 36 is controlled to collect information on the site elevator earthquake control operation, Stored in the disaster information management database 37.

  The on-site information collecting unit 36 transmits a request signal for collecting information on the operation state of the elevator to each remote monitoring terminal based on a command from the information collecting control unit 35 and obtained from each remote monitoring terminal. The response data is transmitted to the information collection control means 35. The field information collecting means 36 communicates with each remote monitoring terminal in a specific area via the general public line 2, but uses a communication line independent of the general public line 2 connected to the notification receiving means 32. Is done.

  The disaster information management database 37 is a database for managing the site information of the area where the earthquake occurred, and stores at least information for determining the presence or absence of the control operation state of each site.

  The intranet server 38 is a network for sharing information between a plurality of service bases 4 and the information monitoring center 3 arranged in the whole country.

  The service base 4 is a plurality of service bases arranged by the elevator maintenance company throughout the country. In addition to the abnormal report information associated with the occurrence of an earthquake sent from the information monitoring center 3 through the intranet server 38 and other abnormal report information. In addition, customer information, site information and the like are displayed on the information display means 41. That is, the service base 4 is a base for sharing information with the information monitoring center 3 and for the field engineer 5 working at this base to maintain and inspect the elevator in the corresponding area.

  The Japan Meteorological Agency 7 aggregates and analyzes vibration information detected by a plurality of seismometers (not shown) to generate earthquake information such as the area where the earthquake occurred and the seismic intensity, and distributes it to the receiving device on each user side via the network 6 Do.

  Next, the operation of the elevator remote monitoring system according to the present embodiment will be specifically described. Now, if a relatively large earthquake occurs and the area 1 is damaged, the earthquake detectors 112 to 1n2 installed at the sites 11 to 1n in the area 1 detect the earthquakes almost simultaneously to the elevators 111 to 1n1. Output an earthquake detection signal. When the elevators 111 to 1n1 receive the earthquake detection signals from the earthquake detectors 112 to 1n2, the elevators 111 to 1n1 are switched to control operation, the car is guided to the nearest floor, stopped on the floor, and the door is opened. Set to standby state.

  Among the remote monitoring terminals 113 to 1n3, the remote monitoring terminal 113 provided with the seismic control reporting means 1133 detects that the elevator 111 is in the seismic control operation state, and the information monitoring center via the general public line 2 3. Send seismic control signal to 3 Alternatively, the remote monitoring terminal 113 may transmit a seismic control notification signal to the information monitoring center 3 based on the operation of the earthquake detector 112.

  The notification receiving means 32 of the information monitoring center 3 receives the seismic control notification signal via the general public line 2 and transmits the received data to the information control means 31.

  The information control means 31 automatically collates with the customer information management database 34 on the basis of the received data of the seismic control alert signal transmitted by the alert receiving means 32, and indicates that the seismic control alert is received. The information is displayed on the display means 33 in the information monitoring center 3 together with customer information such as the customer name. Further, the information control means 31 confirms the earthquake occurrence status of the area 1 with the earthquake information matching means 312 in order to confirm whether or not an earthquake has occurred in the area 1.

  The earthquake information collating unit 312 collates the earthquake information of the Meteorological Agency 7 obtained through the earthquake information receiving unit 311 and the region 1 received from the information control unit 31. Here, since an earthquake has actually occurred in the region 1, the earthquake information verification unit 312 answers the information control unit 31 that “earthquake exists”.

  The information control means 31 determines that the seismic control alert has been issued due to the earthquake upon receipt of the “earthquake present” response from the earthquake information matching means 312. Then, the information control means 31 extracts a site list listing all sites in the region 1, expands the data in the disaster information management database 37, and assigns an “information collection required” code to the extracted site list By doing so, the information collection control means 35 prompts the collection of on-site information.

  When the information collection control unit 35 is prompted to collect the site information from the information control unit 31, first, all the sites in the region 1, for example, based on the information of the site list developed in the disaster information management database 37, Information on the site 12 is acquired, and the operating state answering unit 1232 incorporated in the remote monitoring terminal 123 of the site 12 is accessed via the site information collecting unit 36 and the general public line 2 to prompt a reply.

  The operation state answering unit 1232 at the site 12 reads out the operation state data of the elevator 121 via the abnormality monitoring and reporting unit 1231 in order to answer the access from the information collection control unit 35, and the elevator 121 is in the seismic control operation state. Is returned to the information monitoring center 3 through the general public line 2.

  The information collection control unit 35 stores the response data from the operation state response unit 1232 of the site 12 as the operation state data of the elevator 121 in a storage area corresponding to the site 12 in the disaster information management database 37.

  When the processing of the site 12 is completed, the information collection control unit 35 acquires the information of the next site based on the information of the site list developed in the disaster information management database 37, and the elevator is in the seismic control operation state. Response data that represents whether or not.

  By repeating the above operation, the information collection control means 35 sequentially collects response data indicating whether or not the elevator is in the seismic control operation state for all sites belonging to the region 1, and the results are damaged. The information is stored in the information management database 37.

  In addition, as shown in FIG. 2, the earthquake information distributed from the Japan Meteorological Agency 7 (earthquake occurrence of seismic intensity △ in the region) and various information acquired based on the seismic control alert signal from the remote monitoring terminal 113 (region “ 1 ”, customer name“ aaa ”, earthquake notification signal“ reception ”), information based on the earthquake information for each region received by the earthquake information receiving means 311 (earthquake information“ present ”), and the earthquake information matching means 312 Information (remarks “abnormal”) based on the determination result is displayed on the display of the display means 33.

  From these various information, the manager of the information monitoring center 3 grasps that an earthquake has occurred in the region 1 and the elevator of the customer aaa has performed the earthquake control operation, and dispatches the field engineer 5 to the customer aaa. Etc. can be performed.

  At this time, as described above, since the communication line independent of the information collecting unit 36 and the notification receiving unit 32 is used, when the information collecting unit 36 collects on-site information, the notification receiving unit 32. There is no dedicated communication line. For this reason, for example, even if an important accident such as confinement occurs at a site in an area n that is not affected by an earthquake, the notification receiving means 32 can receive the notification promptly. There is no longer a problem with delay.

  On the other hand, the information collection control means 35 can share the readout results of each site stored in the disaster information management database 37 with the service base 4 via the intranet server 38. It is possible to check information on the control operation at each site in real time.

  In addition, the information display means 41 installed at the service base 4 can display only the area in charge of each base by filtering according to the area and scale of each service base.

  At the service base 4, in order to encourage the field engineer 5 to be dispatched based on the information on the disaster site transmitted via the intranet server 38, restoration work is preferentially performed from the property that has stopped due to the earthquake. It becomes possible.

  Next, the operation of the remote monitoring system for an elevator according to this embodiment when a seismic detector is regularly inspected at a certain site will be described. As an example, the operation when the seismic detector 212 is operated by inspection at the site 21 in the area 2 will be described.

  When a maintenance worker operates the seismic detector 212 in a regular periodic inspection, the elevator 211 is in a controlled operation state regardless of the earthquake, and the seismic control issuing means 2133 of the remote monitoring terminal 213 connected to the elevator 211 A seismic control alert signal is transmitted to the information monitoring center 3 via the public line 2.

  When the information control means 31 of the information monitoring center 3 receives the seismic control notification via the notification receiving means 32, the information control means 31 automatically collates with the customer information management database 34 to generate the seismic control notification signal. The fact that it has been received is displayed on the display means 33 in the information monitoring center 3 together with the customer information such as the customer name, and the earthquake information matching means 312 generates an earthquake in the area 2 in order to confirm whether or not an earthquake has occurred in the area 2 Check the situation.

  The earthquake information collating unit 312 collates the earthquake information of the Meteorological Agency 7 obtained through the earthquake information receiving unit 311 and the area 2 received from the information control unit 31. Here, since the periodical inspection is being performed and no earthquake has occurred in the area 2, the earthquake information verification unit 312 answers “no earthquake” to the information control unit 31.

  The information control means 31 receives the “no earthquake” response from the earthquake information collating means 312 and determines that the seismic control signal is sent due to a factor other than the earthquake. Extraction is not performed, and a message to that effect (for example, “inspection”, see FIG. 2) is additionally displayed.

  The information collection control unit 35 does not extract the site list by the information control unit 31 or give the “information collection required” code, so that the data for the remote monitoring terminals 213 to 2n3 in the region 2 via the site information collection unit 36 Do not collect.

  In addition, as shown in FIG. 2, the earthquake information distributed from the Japan Meteorological Agency 7 (earthquake occurrence of seismic intensity △ in the region) and various information acquired based on the seismic control alert signal from the remote monitoring terminal 213 (region “ 2 ”, customer name“ bbb ”, earthquake notification signal“ reception ”), information based on the earthquake information for each region received by the earthquake information receiving means 311 (earthquake information“ none ”), and the earthquake information matching means 312 Information based on the determination result (remarks “under inspection”) is displayed on the display of the display means 33. From the various information, the manager of the information monitoring center 3 can understand that the customer “bbb” in the region 2 is currently in regular inspection of the earthquake detectors 212 to 2n2.

  As described above, according to the present embodiment, the earthquake information collating unit 312 is provided in the information monitoring center 3, and the information control unit 31 collates with the earthquake information before performing the data collection operation, and performs inspection, etc. If a seismic control alert signal due to a factor other than that of the earthquake is sent, it is judged that no earthquake has occurred in the area, and data collection for the area is not performed. Costs can be suppressed.

  Further, since the information collection control means 35 and the field information collection means 36 of the information monitoring center 3 are connected to each field via a communication line different from the report reception means 32, the reception of abnormal reports and the earthquake It is possible to function separately from the acquisition of damage information. Therefore, the information monitoring center 3 can reliably acquire important notification information in other regions without being affected by communication congestion due to the earthquake.

  It is assumed that the earthquake information receiving means 311 receives earthquake information distributed by the Japan Meteorological Agency 7 via the network 6, for example, an emergency earthquake bulletin or a seismic intensity early warning from the Japan Meteorological Agency 7. Not only the Meteorological Agency 7, but you can refer to real-time earthquake information such as strong motion monitors provided by the National Research Institute for Earth Science and Disaster Prevention, for example. And can. Further, it may be determined that “there is an earthquake” by collating earthquake information from a plurality of sources of the earthquake information.

  Further, the earthquake information collating means 312 does not use the earthquake information acquired by the earthquake information receiving means 311 as it is, but performs analysis based on other information and refers to the analysis result, and the received seismic control alert signal is obtained. It may be determined whether the remote monitoring terminal is installed in the area where the earthquake occurred. In this way, a more suitable system can be constructed by remote monitoring of the elevator.

  In addition, this invention is not limited to embodiment mentioned above, Various modifications are included. For example, the above-described embodiment has been described in detail for easy understanding of the present invention, and is not necessarily limited to the one having all the configurations described. For example, the present invention can be applied to any facility that monitors the operation of a machine installed at each site while performing periodic inspection of an earthquake detector.

1 to n area 2 public line (communication line)
3 ... Information Monitoring Center 7 ... Japan Meteorological Agency (Earthquake information by region)
DESCRIPTION OF SYMBOLS 31 ... Information control means 32 ... Notification receiving means 33 ... Display means 34 ... Customer information management database 35 ... Information collection control means 36 ... Site information collection means 37 ... Damaged information management database 38 ... Intranet server 111-2n1 ... Elevator 112- 2n2 ... Earthquake detector 113 to 2n3 ... Remote monitoring terminal 311 ... Earthquake information receiving means 312 ... Earthquake information collating means 1131 to 2n31 ... Abnormality monitoring issuing means 1132 to 2n32 ... Operating state answering means 1133, 2133 ... Earthquake control reporting means

Claims (4)

Remote monitoring of an elevator comprising a plurality of remote monitoring terminals that respectively monitor the status of a plurality of elevators installed in a plurality of areas, and an information monitoring center connected to the plurality of remote monitoring terminals via a communication line In the system,
Each of the elevators is controlled so that a seismic control operation is performed by the operation of an earthquake sensor provided in each elevator,
Among the plurality of remote monitoring terminals installed in each region, at least one remote monitoring terminal is:
A seismic control notification means for transmitting a seismic control notification signal to the information monitoring center based on the fact that the seismic detector is activated or the seismic control operation is performed;
An operation state answering means for transmitting information related to the operation state of the elevator to the information monitoring center based on a request signal received from the outside,
The information monitoring center
Earthquake information receiving means for receiving earthquake information by region from outside,
Whether the received seismic control alarm signal is from the remote monitoring terminal installed in the area where the earthquake occurred with reference to the earthquake information by area received by the earthquake information receiving means An earthquake information matching means for judging
On-site information collection means for transmitting the request signal to collect information on the operation state of the elevator to the remote monitoring terminal that has transmitted the seismic control alert signal,
When the seismic information collating means determines that the received seismic control alert signal is not from the remote monitoring terminal installed in the area where the earthquake occurred, the field information collecting means, The elevator remote monitoring system, wherein the request signal is not transmitted to the remote monitoring terminal that has transmitted the seismic control signal. In claim 1,
Only some remote monitoring terminals of the plurality of remote monitoring terminals provided in each area have the seismic control reporting means,
When the seismic information collating means determines that the received seismic control alert signal is not from the remote monitoring terminal installed in the area where the earthquake occurred, the field information collecting means, The request signal is not transmitted to other remote monitoring terminals installed in the same area as the area where the remote monitoring terminal that has transmitted the seismic control signal is installed. Elevator remote monitoring system. In claim 1 or 2,
The information monitoring center includes information based on the seismic control notification signal from the seismic control notification means, information based on the earthquake information for each region received by the earthquake information receiving means, and the earthquake information collating means. An elevator remote monitoring system comprising display means for displaying at least information based on a determination result. Monitors the status of multiple elevators installed in multiple areas, and sends an earthquake control signal to the outside based on the fact that the seismic detector has been activated or the elevator has been seismically controlled. An information monitoring center connected to a plurality of remote monitoring terminals via a communication line and transmitting / receiving information to / from the plurality of remote monitoring terminals,
Earthquake information receiving means for receiving earthquake information by region from outside,
Whether the received seismic control alarm signal is from the remote monitoring terminal installed in the area where the earthquake occurred with reference to the earthquake information by area received by the earthquake information receiving means An earthquake information matching means for judging
On-site information collection means for transmitting the request signal to collect information on the operation information of the elevator to the remote monitoring terminal that has transmitted the seismic control alert signal,
When the seismic information collating means determines that the received seismic control alert signal is not from the remote monitoring terminal installed in the area where the earthquake occurred, the field information collecting means, An information monitoring center characterized in that the request signal is not transmitted to the remote monitoring terminal that has transmitted a seismic control alert signal.