JP6647972B2 - Elevator remote monitoring system and information monitoring center - Google Patents

Description

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

  In the elevator, an earthquake sensor is installed as an additional equipment of the elevator to prevent an unexpected accident from occurring in the event of an earthquake, and when this earthquake sensor detects vibration exceeding a predetermined seismic intensity, the elevator control device The vehicle enters the traffic control operation state, and the car is driven to the nearest floor, and stops at the floor with the door open.

  As a background art of a remote monitoring system for monitoring an elevator of this type, for example, Patent Document 1 is known. Patent Literature 1 discloses a "remote monitoring terminal having an earthquake alert function for notifying an information monitoring center when an elevator stops in a traffic control operation state due to an earthquake, and a remote monitor terminal having no earthquake alert function. 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. "

  According to this Patent Document 1, when an earthquake occurs, a remote monitoring terminal in the same group (area) that does not have an earthquake alert function is set based on earthquake alert information from an elevator having an earthquake alert function. The information is sent from the information monitoring center, and the control operation status of the elevator is collected. As a result, abnormal alerts caused by the occurrence of an earthquake are concentrated and the receiving line does not go down, information on elevators stopped by earthquake control operation is collected, and sudden incidents occurring in areas other than the area where the earthquake occurred Abnormal alerts due to accidents can also be received.

JP 2006-315793 A

  It is stipulated that the seismic detectors installed in the elevators be checked for operation at annual legal inspections. For this reason, at the time of legal inspection, if the maintenance engineer's expert technician performs an inspection to operate the earthquake detector, the elevator will be in the control operation state regardless of the earthquake, and the remote monitoring terminal connected to the elevator will be An earthquake alert will be issued 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 alert function using the earthquake alert as a trigger. There is a problem of performing complicated 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, and has an object of, for example, performing useless communication in a state where an earthquake does not occur, such as during a regular inspection of an earthquake sensor. It is an object of the present invention to provide an elevator remote monitoring system and an information monitoring center that can prevent such a situation.

In order to achieve the above object, a typical present invention provides a plurality of remote monitoring terminals respectively monitoring the states of a plurality of elevators installed in a plurality of regions, and a communication line with the plurality of remote monitoring terminals. Connected to an information monitoring center, wherein the elevators are controlled so that an earthquake control operation is performed by the operation of a seismic sensor provided in each elevator, and installed in each of the areas. The plurality of remote monitoring terminals that are provided include a first remote monitoring terminal and a second remote monitoring terminal, wherein the first remote monitoring terminal has the seismic detector operated or the seismic control operation has been performed. Means for transmitting a seismic control alert signal to the information monitoring center, and operating the elevator based on a request signal received from the outside. Has a driving state answer means for transmitting information about the state in the Information monitoring center, said second remote monitoring terminal is not provided with the seismic control onset report unit comprises the operating state answer means, the information monitoring The center includes: an information control means; an earthquake information receiving means for externally receiving regional earthquake information; and the seismic control alert received by referring to the regional earthquake information received by the earthquake information receiving means. Earthquake information matching means for determining whether or not the signal is from the first remote monitoring terminal installed in the area where the earthquake occurred, and according to an instruction from the information control means, the remote monitoring terminal Te, anda site information collection unit configured to transmit the request signal to collect information about the operating state of the elevator, the information control means to receive said seismic control onset report signal And causing the earthquake information matching means to determine whether the earthquake control alert signal is from the first remote monitoring terminal installed in the area where the earthquake occurred, and receiving the received earthquake control alert signal. When the information signal is determined by the earthquake information collating means as being from the remote monitoring terminal installed in the area where the earthquake has occurred, the on-site information collecting means transmits the earthquake control alert signal. For all the remote monitoring terminals installed in the same area where the first remote monitoring terminal is installed, the request signal was transmitted to collect information on the operating state of the elevator, and the received request signal was received. when the earthquake control onset report signal is determined not to be from the remote monitoring terminal which is installed to the generated region of the earthquake in the earthquake information collation means, before Symbol site information collection means, before For all the remote monitoring terminal, wherein said first remote monitoring terminal that has transmitted the serial seismic control onset report signal is installed in the same area as the region which is installed, to lest controlled to transmit the request signal It is characterized by.

  According to the present invention, useless communication can be prevented in a state where no earthquake occurs. In addition, 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. FIG. 2 is a diagram illustrating a display example of a display unit of the information monitoring center illustrated in FIG. 1.

  Hereinafter, an embodiment of an elevator remote monitoring system according to the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an 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 a 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 dividing the service areas of the elevator maintenance company into groups in a specific range in advance and registering them in the customer information management database 34. Therefore, in the customer information management database 34, all sites are registered so as to belong to a specific region number. For example, "site 11 and site 12 belong to region 1, and site 21 and site 22 belong to region 2. Is managed.

  Elevators, seismic detectors, and remote monitoring terminals are installed at each site, and here, different numbers are assigned for convenience to distinguish elevators and seismic detectors from multiple regions and multiple sites. I will explain. For example, an earthquake sensor 112 and a remote monitoring terminal 113 are connected to the elevator 111 at the site 11 subordinate to the region 1, and an earthquake sensor 222 and a remote monitoring terminal 223 are connected to the elevator 221 at the site 22 in the region 2 respectively. It is connected. The elevators 111 to 2n1 are ordinary elevators having a car, a hanging 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 equal to or greater than a predetermined set value and outputting an earthquake detection signal to the elevators 111 to 2n1 when an earthquake occurs. When the elevators 111 to 2n1 receive the earthquake detection signals from the earthquake sensors 112 to 2n2, they switch the elevators 111 to 2n1 to the control operation, guide the car to the nearest floor, stop at the floor, open the door, Put it on standby.

  Next, the remote monitoring terminal will be described. The remote monitoring terminal 113 installed at the site 11 belonging to the region 1 is configured by an abnormality monitoring alarming unit 1131, an operating state answering unit 1132, and an earthquake control alarming 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 includes an abnormality monitoring and alerting means 2131, an operating state answering means 2132, and an earthquake control alerting means 2133. Monitor the status.

  The seismic control alerting means 1133, 2133 is connected via the general public line (communication line) 2 based on the fact that the seismic detectors 112, 212 have been activated or the elevators 111, 211 have been operated for seismic control. The information monitoring center 3 performs an earthquake control alerting process (a process of transmitting an earthquake control alerting signal).

  On the other hand, the remote monitoring terminals 123 to 1n3 installed at the sites 12 to 1n include abnormality monitoring alerting means 1231 to 1n31 and operating state answering means 1232 to 1n32, and operate the elevators 121 to 1n1 in the operating state (operating state). Status).

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

  That is, of the remote monitoring terminals 113 to 1n3 installed in the area 1, only the remote monitoring terminal 113 at the site 11 is provided with the seismic control alerting means, and the remote monitoring terminal 113 installed at the sites 12 to 1n. 123 to 1n3 are not provided with an earthquake control reporting means. Therefore, only the remote monitoring terminal 113 at the site 11 issues an earthquake control alert when an earthquake occurs in the area 1. Thereby, the communication load is reduced.

  The same applies to the area 2 and subsequent areas. Of the remote monitoring terminals 213 to 2n3 installed in the area 2, only the remote monitoring terminal 213 at the site 21 is provided at the sites 22 to 2n provided with the seismic control alerting means. The remote monitoring terminals 223 to 2n3 provided with no earthquake control alarm means. Therefore, only the remote monitoring terminal 213 at the site 21 issues an earthquake control alert when an earthquake occurs in the area 2.

  All the abnormality monitoring and issuing means 1131 to 2n31 read the operation information of the elevators 111 to 2n1 and constantly monitor the information, and when an abnormality other than an earthquake (normal abnormality) occurs, monitor the information via the general public line 2. An alarm is issued to the center 3. Further, when an earthquake of a predetermined magnitude or more occurs and the earthquake control operation is performed, the earthquake control reporting means 1133 and 2133 send a normal abnormality reporting signal transmitted by the abnormality monitoring reporting means 1131 and 2131. , And transmits an earthquake control alert signal to the information monitoring center 3.

  The operating state answering means 1132 to 2n32 are provided when the information monitoring center 3 transmits a request to read the operating state of the elevators 111 to 2n1 via the general public line 2 (request signal). The operation status data of the elevators 111 to 2n1 is read out via the PC, and information on the operation status of the elevators 111 to 2n1 is transmitted to the information monitoring center 3 as a response.

  On the other hand, the information monitoring center 3 includes an information control unit 31, an earthquake information reception unit 311, an earthquake information collation unit 312, a report reception unit 32, a display unit 33, a customer information management database (DB) 34, an information collection control unit 35, It is provided with a site information collection unit 36, a disaster information management database (DB) 37, and an intranet server 38, and each unit is connected as shown in FIG.

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

  Further, upon receiving the earthquake control alert signal, the information control means 31 requests the earthquake information matching means 312 to check the earthquake occurrence area. As a result of the verification, if it is determined that the collection of site information is necessary due to the earthquake, that is, if it is determined that the remote control terminal installed in the earthquake occurrence area is transmitting an earthquake control alert signal, the information control means 31 extracts a 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 the site information is urged through the collection control means 35.

  The information collection control means 35 collects site information via the site information collection means 36 based on the site list to which "information collection is required" in the disaster information management database 37, and manages the disaster information. The information read from 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 the earthquake information distributed by the Meteorological Agency 7 via the network 6. The earthquake information matching means 312 determines whether there is an earthquake in the area by comparing the earthquake information of the Meteorological Agency 7 with the area to which the remote monitoring terminal that transmitted the earthquake control alert signal belongs.

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

  The display unit 33 is configured by, for example, a large-sized display, and displays a result processed by the information control unit 31 and the information collection control unit 35 based on alarm information in the information monitoring center 3. A specific example of the display will be described later.

  The customer information management database 34 is a database that manages all customer information contracted by the elevator maintenance company, and includes various information necessary for operating the information monitoring center 3 from basic information such as customer names and addresses. 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 assigns a “information collection required” code to the disaster information management database 37 in the site. When the list is developed, the site information collection means 36 is controlled to collect information on the elevator earthquake control operation at the site while acquiring the customer information by accessing the customer information management database 34 and the disaster information management database 37, It is stored in the disaster information management database 37.

  The on-site information collecting unit 36 transmits a request signal for collecting information on the operating state of the elevator to the remote monitoring terminals at each site based on the command of the information collection control unit 35, and obtains the request signal from each remote monitoring terminal. The response data is transmitted to the information collection control means 35. The site 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 alarm receiving means 32. Is done.

  The disaster information management database 37 is a database that manages site information of an area where an earthquake has occurred, and stores at least information that can determine whether or not each site has a control operation state.

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

  The service base 4 is a plurality of service bases located nationwide by the elevator maintenance company. The service base 4 is provided with anomaly alert information related to the occurrence of an earthquake and other anomaly alert information sent from the information monitoring center 3 through the intranet server 38. Next, the customer information and the site information 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 perform maintenance and inspection of the elevator in the corresponding area.

  The Meteorological Agency 7 collects 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 the information to the receiving device on each user side via the network 6. Do.

  Next, the operation of the remote monitoring system for an elevator according to the present embodiment will be specifically described. Now, if a relatively large earthquake occurs and the area 1 is damaged, the earthquake sensors 112 to 1n2 installed at the sites 11 to 1n in the area 1 detect the earthquake almost at the same time, and respond to the elevators 111 to 1n1. And output an earthquake detection signal. When the elevators 111 to 1n1 receive the earthquake detection signals from the earthquake sensors 112 to 1n2, the elevators 111 to 1n1 switch to the control operation, guide the car to the nearest floor, stop at the floor, open the door, Put it on standby.

  Among the remote monitoring terminals 113 to 1n3, the remote monitoring terminal 113 including the earthquake control alerting means 1133 detects that the elevator 111 has entered the earthquake control operation state, and sends the information to the information monitoring center via the general public line 2. 3 Send an earthquake control alert signal. Alternatively, the remote monitoring terminal 113 may transmit an earthquake control alert signal to the information monitoring center 3 based on the operation of the earthquake sensor 112.

  When the alarm receiving means 32 of the information monitoring center 3 receives the earthquake control alarm signal via the general public line 2, the alarm receiving means 32 transmits the received data to the information control means 31.

  The information control means 31 automatically performs the collation work with the customer information management database 34 based on the received data of the seismic control alert signal transmitted by the alert receiving means 32, and informs the reception of the earthquake control alert. The information is displayed on the display means 33 in the information monitoring center 3 together with the customer information such as the customer name. In addition, the information control unit 31 checks the earthquake occurrence state in the area 1 with the earthquake information matching unit 312 to check whether an earthquake has occurred in the area 1.

  The earthquake information matching means 312 checks the earthquake information of the Meteorological Agency 7 obtained through the earthquake information receiving means 311 and the area 1 received from the information control means 31. Here, since an earthquake has actually occurred in the area 1, the earthquake information matching means 312 replies to the information control means 31 with “earthquake present”.

  The information control unit 31 determines that the earthquake control alert has been issued due to the earthquake by receiving the response of “earthquake present” from the earthquake information matching unit 312. Then, the information control means 31 extracts a site list listing all the sites in the area 1, expands the data in the disaster information management database 37, and assigns an “information collection required” code to the extracted site list. Then, the collection of the site information by the information collection control unit 35 is prompted.

  When the information collection control unit 35 is prompted to collect the site information from the information control unit 31, first, based on the information of the site list developed in the disaster information management database 37, all the sites in the area 1, for example, The information of the site 12 is acquired, and the operation status response unit 1232 built in the remote monitoring terminal 123 of the site 12 is accessed via the site information collection unit 36 and the general public line 2 to urge an answer.

  The operation state response means 1232 of the site 12 reads the operation state data of the elevator 121 via the abnormality monitoring and alerting means 1231 in order to respond to the access from the information collection control means 35, and the elevator 121 is in the earthquake control operation state. Reply data indicating whether or not the information is sent back to the information monitoring center 3 via the general public line 2.

  The information collection control unit 35 stores the response data from the operation status response unit 1232 of the site 12 as the operation status data of the elevator 121 in the 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 means 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 earthquake control operation state. Answer data indicating whether or not is collected.

  By repeating the above operation, the information collection control means 35 sequentially collects answer data indicating whether or not the elevator is in the seismic control operation state for all the sites belonging to the area 1, and returns the result to the disaster. It is stored in the information management database 37.

  Also, as shown in FIG. 2, various information (area “area”) obtained based on the earthquake information distributed from the Meteorological Agency 7 (earthquake with seismic intensity of { 1), customer name “aaa”, earthquake alert signal “reception”), information based on the regional earthquake information received by the earthquake information receiving means 311 (earthquake information “yes”), and the earthquake information matching means 312 Information (remarks “abnormal”) based on the determination result is displayed on the display of the display unit 33.

  The administrator of the information monitoring center 3 grasps from the various information that an earthquake has occurred in the area 1 and the elevator of the customer aaa has performed an 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 information collecting means 36 and the alert receiving means 32 use separate and independent communication lines, when the information collecting means 36 collects information on the site, the alert receiving means 32 No communication line is occupied. Therefore, for example, even if an important accident such as confinement occurs at a site in an area n not affected by the earthquake, the alarm can be promptly received by the alarm receiving means 32. There is no longer a problem with delays.

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

  Also, by filtering the information display means 41 installed at the service base 4 according to the area and scale of each service base, it is also possible to display only the area in charge of each base.

  At the service site 4, based on the information on the disaster site transmitted via the intranet server 38, the recovery work is preferentially performed from the property stopped by the earthquake in order to prompt the dispatch of the field engineer 5. It becomes possible.

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

  When the maintenance worker operates the earthquake detector 212 during the regular periodic inspection, the elevator 211 enters the control operation state regardless of the earthquake, and the earthquake control alarm means 2133 of the remote monitoring terminal 213 connected to the elevator 211 outputs An earthquake 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 earthquake control alert via the alert receiving means 32, the information control means 31 automatically performs collation work with the customer information management database 34, and outputs the earthquake control alert signal. The received information 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 like. Check the situation.

  The earthquake information matching means 312 checks the earthquake information of the Meteorological Agency 7 obtained via the earthquake information receiving means 311 against the area 2 received from the information control means 31. Here, since the periodic inspection is being performed and no earthquake has occurred in the area 2, the earthquake information matching means 312 replies “no earthquake” to the information control means 31.

  The information control means 31 receives the answer of "no earthquake" from the earthquake information matching means 312, and determines that the earthquake control alert signal has been transmitted due to a factor other than the earthquake. The extraction is not performed, and the display means 33 additionally displays the effect (for example, “under inspection”, see FIG. 2).

  The information collection control unit 35 does not extract the site list or add the “information collection required” code by the information control unit 31, so the data to the remote monitoring terminals 213 to 2n3 in the area 2 via the site information collection unit 36 Do not perform collection operation.

  Also, as shown in FIG. 2, various pieces of information (area “area”) acquired based on the earthquake information (the seismic intensity of { 2), customer name “bbb”, earthquake alert signal “reception”), information based on the regional earthquake information received by the earthquake information receiving unit 311 (earthquake information “none”), and the earthquake information matching unit 312 Information based on the determination result (remarks “under inspection”) is displayed on the display of the display unit 33. The administrator of the information monitoring center 3 knows from these various information that the customer “bbb” in the area 2 is currently performing a periodic inspection of the earthquake sensors 212 to 2n2.

  As described above, according to the present embodiment, the earthquake information collation unit 312 is provided in the information monitoring center 3, and the information control unit 31 performs collation with the earthquake information before performing the data collection operation, and performs inspection and the like. If an earthquake control alert signal was transmitted due to a factor other than the earthquake in the above, it was determined that no earthquake had occurred in the area, and no data was collected in the area. Costs can be suppressed.

  Further, since the information collection control means 35 and the site information collection means 36 of the information monitoring center 3 are connected to each site via a different communication line from the alarm reception means 32, the reception of abnormal alarms and the And the acquisition of the disaster information can be operated separately. Therefore, the information monitoring center 3 can reliably acquire important alarm information in other areas without being affected by the congestion of communication due to the earthquake.

  The earthquake information receiving means 311 is assumed to receive earthquake information distributed by the Meteorological Agency 7 via the network 6, for example, an emergency earthquake alert or a seismic intensity alert from the Meteorological Agency 7, but the source of the earthquake information is Not only the Japan Meteorological Agency 7, but also real-time earthquake information such as a strong earthquake monitor provided by the National Research Institute for Earth Science and Disaster Prevention may be referred to. And can be. Further, it may be determined that “earthquake exists” by collating the earthquake information from the plurality of sources of the earthquake information.

  Also, the earthquake information matching means 312 does not use the earthquake information acquired by the earthquake information receiving means 311 as it is, but performs an analysis based on other information, and refers to the analysis result to generate the received earthquake control alert signal. It may be determined whether or not it is from a remote monitoring terminal installed in the area where the earthquake has occurred. By doing so, a system more suitable for remote monitoring of the elevator can be constructed.

  Note that the present invention is not limited to the above-described embodiment, and includes various modifications. For example, the above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the described configurations. For example, the present invention is applicable to any equipment that monitors the operation of machines installed at each site while performing periodic inspections of earthquake sensors.

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

Claims (4)

Remote monitoring of an elevator comprising: a plurality of remote monitoring terminals for respectively monitoring states of a plurality of elevators installed in a plurality of regions; 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 an earthquake control operation is performed by the operation of an earthquake sensor provided in each elevator,
The plurality of remote monitoring terminals installed in each region include a first remote monitoring terminal and a second remote monitoring terminal,
The first remote monitoring terminal,
Earthquake control alerting means for transmitting an earthquake alert signal to the information monitoring center based on the fact that the earthquake sensor has been activated or the earthquake control operation has been performed,
Operating state response means for transmitting information on the operating state of the elevator to the information monitoring center based on a request signal received from the outside,
The second remote monitoring terminal does not include the earthquake control alerting means, but includes the operating state answering means,
The information monitoring center,
Information control means;
Earthquake information receiving means for receiving regional earthquake information from the outside,
With reference to the area-specific earthquake information received by the earthquake information receiving means, whether the received earthquake control alert signal is from the first remote monitoring terminal installed in the area where the earthquake occurred An earthquake information matching means for determining whether or not
According to an instruction from the information control means, the remote monitoring terminal, the site information collection means for transmitting the request signal to collect information on the operating state of the elevator,
The information control means,
Upon receiving the earthquake control alert signal, the earthquake information matching means determines whether the earthquake control alert signal is from the first remote monitoring terminal installed in the area where the earthquake occurred. Let
When the received earthquake control alert signal is determined by the earthquake information collating means to be from the remote monitoring terminal installed in the area where the earthquake has occurred, the on-site information collecting means transmits The request signal for collecting information on the operating state of the elevator for all the remote monitoring terminals installed in the same area as the area where the first remote monitoring terminal that sent the notification signal is installed. And send
When the earthquake control onset report signal received is determined not to be from the remote monitoring terminal which is installed to the generated region of the earthquake in the earthquake information collation means, before Symbol site information collection means, said for all the remote monitoring terminal installed in the same area as the region where the first remote monitoring terminal that has transmitted the seismic control onset report signal is provided, that lest controlled to transmit the request signal Features a remote monitoring system for elevators. In claim 1,
The communication line on which the on-site information collecting means transmits the request signal to the first remote monitoring terminal and the second remote monitoring terminal is provided by the information monitoring center from the first remote monitoring terminal to the earthquake control alert signal. A remote monitoring system for an elevator, wherein the remote monitoring system is different from a communication line for receiving an elevator. In claim 1 or 2,
The information monitoring center includes: information based on the earthquake control alert signal from the earthquake control alert means; information based on the regional earthquake information received by the earthquake information receiving means; A remote monitoring system for an elevator, comprising: display means for displaying at least information based on a determination result. An information monitoring center that is connected via a communication line to a plurality of remote monitoring terminals that respectively monitor states of a plurality of elevators installed in a plurality of areas and that transmits and receives information to and from the plurality of remote monitoring terminals. hand,
The plurality of remote monitoring terminals installed in each of the areas are configured to transmit a seismic control alert signal to the outside based on the activation of the seismic sensor or the operation of the elevator for seismic control. A first remote monitoring terminal having a reporting means and a second remote monitoring terminal not having the earthquake control reporting means,
The information monitoring center,
Information control means;
Earthquake information receiving means for receiving regional earthquake information from the outside,
With reference to the area-specific earthquake information received by the earthquake information receiving means, whether the received earthquake control alert signal is from the first remote monitoring terminal installed in the area where the earthquake occurred An earthquake information matching means for determining whether or not
According to an instruction from the information control means, the remote monitoring terminal, the site information collection means for transmitting a request signal to collect information on the operating state of the elevator,
The information control means,
Upon receiving the earthquake control alert signal, the earthquake information matching means determines whether the earthquake control alert signal is from the first remote monitoring terminal installed in the area where the earthquake occurred. Let
When the received earthquake control alert signal is determined by the earthquake information collating means to be from the remote monitoring terminal installed in the area where the earthquake has occurred, the on-site information collecting means transmits The request signal for collecting information on the operation state of the elevator for all the remote monitoring terminals installed in the same area as the area where the first remote monitoring terminal that transmitted the notification signal is installed. And send
When the earthquake control onset report signal received is determined not to be from the remote monitoring terminal which is installed to the generated region of the earthquake in the earthquake information collation means, before Symbol site information collection means, said for all the remote monitoring terminal installed in the same area as the region where the first remote monitoring terminal that has transmitted the seismic control onset report signal is provided, that lest controlled to transmit the request signal An information surveillance center that is unique.