JP4659607B2 - System for restoration of control operation during earthquake for elevators - Google Patents

Description

  The present invention relates to a recovery handling system for control operation during an earthquake for an elevator.

  Generally, in an elevator, in order to prevent the occurrence of a secondary disaster at the time of an earthquake, an earthquake detector is installed, and when the earthquake detector detects a vibration exceeding a predetermined seismic intensity, the control operation at the time of earthquake is executed. I am doing so. When the earthquake control operation is executed, the elevator car moves to the nearest floor and then stops on the nearest floor in an open state, that is, enters a standby state. The standby state is not released until the maintenance engineer of the elevator maintenance company is dispatched to the elevator installation site where the earthquake detector that has detected the earthquake is installed, and the safety is confirmed. It is.

  And in the conventional system for restoration of control operation during an earthquake for an elevator, when the seismic detector detects vibration exceeding a predetermined seismic intensity, when the control operation of the elevator during an earthquake is executed, the remote monitoring terminal of the elevator A control operation notification signal is transmitted from the device to the information monitoring center via a communication line such as a general public line, and when the information monitoring center receives the control operation notification signal, the information monitoring center sends an elevator maintenance company. Dispatch orders are issued to maintenance technicians who work at service bases.

  For this reason, when a large earthquake occurs, at the same time as the earthquake occurs, a number of remote monitoring terminal devices installed in the area where the earthquake occurred will be sent to the information monitoring center via communication lines. There is a concern that the information signal is transmitted in a concentrated manner in a short time, the processing capacity of the communication line is over, and the communication line is punctured.

Therefore, in order to prevent the control operation alert signal from being sent to the information monitoring center in a short period of time, an earthquake is monitored for each remote monitoring terminal device of the elevator installed in the area where the earthquake occurred. The time it takes for the information monitoring center to send a control operation notification signal after the sensor operates is changed, and the control operation is issued to the information monitoring center sequentially from the remote monitoring terminal device of the elevator with the highest priority. An elevator response control system has been developed that transmits an alarm signal (for example, see Patent Document 1).
Japanese Patent Application Laid-Open No. 3-106776 (the column of “Means for Solving Problems” and the column of “Action” on the left side of page 2 and FIG. 1)

  However, in the restoration control system for control operation during an earthquake for elevators described in the above-mentioned Japanese Patent Application Laid-Open No. 3-106776, the remote monitoring terminal devices for all elevators installed in areas where a large earthquake has occurred Since the control operation notification signal is transmitted to the information monitoring center via the communication line, the communication line is occupied for a long time and is occupied for the recovery process of the control operation at the time of earthquake. Even if an emergency call signal from a remote monitoring terminal device of an elevator in an area where there was no earthquake is sent to the information monitoring center during the time period, it cannot be received by the information monitoring center. There was a problem that the response of the elevator in the area where there was no earthquake would be delayed.

  The present invention was made from the actual situation in the above-described prior art, and its purpose is for an elevator that can prevent a communication line from being occupied for a long period of time for a recovery handling process of control operation during an earthquake. The purpose is to provide a recovery control system for control operation during an earthquake.

  In order to achieve the above object, the present invention divides a wide area into a plurality of narrow areas, and a plurality of elevator installation sites installed for each of the plurality of narrow areas, an earthquake detector, Installed an elevator that performs seismic control operation by inputting an earthquake detection signal from this earthquake detector, and a remote monitoring terminal device that monitors the operation state of this elevator, and information from this remote monitoring terminal device In an elevator earthquake control operation recovery system that transmits at least an elevator control operation notification signal to a monitoring center via a communication line, at least one of the seismic detectors most easily operates in each of the narrow areas. Select at least one elevator where the elevator and the earthquake detector are most difficult to operate, and the elevator where the earthquake detector is most likely to operate When both the control operation notification signal from the remote monitoring terminal device and the control operation notification signal from the remote monitoring terminal device of the elevator where the seismic detector is most difficult to operate are transmitted to the information monitoring center, and Both the control operation notification signal from the remote monitoring terminal device of the elevator where the seismic detector is most likely to operate and the control operation notification signal from the remote monitoring terminal device of the elevator where the seismic sensor is most difficult to operate are the information. When not transmitted to the monitoring center, the control operation notification signal from the remote monitoring terminal device of all elevators other than the elevator in which the earthquake detector is most likely to operate and the elevator in which the earthquake detector is most difficult to operate is the information. It is characterized by prohibiting transmission to the monitoring center.

  Further, according to the present invention, both the control operation notification signal from the elevator in which the earthquake detector is most likely to operate and the control operation notification signal from the elevator in which the earthquake detector is least likely to operate are provided to the information monitoring center. When it is transmitted, the earthquake operation area is restored in the predetermined order in the seismic control operation, and the control operation notification signal from the elevator where the seismic detector is most likely to operate and the seismic detector is the most When both signals of the control operation notification signal from the elevator which is difficult to operate are not transmitted to the information monitoring center, work corresponding to the telephone call from the customer and the emergency call from the remote monitoring terminal device, and The control operation notification signal from the elevator where the seismic detector is most likely to operate and the control operation notification signal from the elevator where the seismic detector is most difficult to operate When only one of the control operation notification signals is sent to the information monitoring center, the restoration operation of the control operation during the earthquake is performed while grasping the operation control operation during the earthquake of the elevator in the earthquake occurrence area. It is a feature.

  Furthermore, the present invention is characterized in that the control operation notification signal is transmitted to the information monitoring center via the communication line in preference to an emergency notification signal associated with an emergency abnormality other than an earthquake. .

  According to the present invention, even if a strong earthquake occurs in some areas, the communication line between the remote monitoring terminal device and the information monitoring center can be used for a long time for the recovery handling process of the control operation during an earthquake. By preventing the occupation, the elevator can handle emergency call signals such as cage confinement from areas where the rest of the earthquake does not occur, enabling improved serviceability to customers. A recovery response system for control operation during earthquakes can be obtained.

  DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment of a recovery response system for an elevator earthquake control operation according to the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating a configuration of a main part of a recovery response system for an elevator earthquake control operation according to an embodiment of the present invention. FIG. 2 is a flowchart for explaining an operation procedure of the system for restoring a control operation during an earthquake for an elevator according to an embodiment of the present invention.

  The elevator response control system 1 for an emergency operation of an elevator shown in FIG. 1 divides a wide area into a plurality of narrow areas 2 and 2A to 2N as surrounded by a two-dot chain line. A plurality of elevator installation sites 3, 3A to 3N (portions enclosed by dotted lines) installed in each of a plurality of narrow areas 2, 2A to 2N, and the elevator installation sites 3, 3A to 3N are transmitted. It is configured to include an information monitoring center 5 that receives various data and signals (operation information data, control operation notification signal, etc.) coming through a communication line 4 such as a general public line. The plurality of narrow areas 2, 2A to 2N are divided in consideration of the service area of the elevator maintenance company. All of the elevator installation sites installed in these narrow areas 2, 2A to 2N are registered in the customer information management database 16 to be described later of the information monitoring center 5 so that it can be understood which elevator installation site is in which narrow area. ing. For example, the information data is registered in the customer information management database 16 as information data “Elevator installation sites 3, 3A to 3N belong to narrow area 2”. Here, the wide area includes not only the prefecture area, the Tokyo area, and the city area, but also a large factory site and a wide building site. Further, in FIG. 1, illustration of a plurality of elevator installation sites for the narrow areas 2A to 2N is omitted.

  In each elevator installation site 3, 3A-3N, there are elevators 6, 6A-6N, earthquake detectors 7, 7A-7N that operate when vibrations of a predetermined level or more are detected when an earthquake occurs, and elevators 6, 6A- Remote monitoring terminal devices 8 and 8A to 8N for monitoring 6N are installed. In the elevators 6, 6A to 6N, when the earthquake detectors 7 and 7A to 7N are operated and the earthquake detection signals from the earthquake detectors 7 and 7A to 7N are input, the operation is switched from the normal operation to the control operation during the earthquake. Then, the control operation at the time of the earthquake is executed, and the car (not shown) stops on the nearest floor in an open state.

  For each of a plurality of narrow areas 2, 2A to 2N, one elevator is installed with the seismic detector that is most operable and the other is installed with the seismic sensor that is most difficult to operate. The selected contents are registered in the customer information management database 16 of the information monitoring center 5. In the narrow area 2 of the embodiment shown in FIG. 1, the elevator 6 that is installed at the elevator installation site 3 is selected as the most operable earthquake detector 7 and is installed at the elevator installation site 3A. The seismic detector 7A that is most difficult to operate is selected in the elevator 6A, and the selected content is registered in the customer information management database 16 of the information monitoring center 5.

  As shown in FIG. 1, the remote monitoring terminal devices 8 and 8A to 8N installed in the elevator installation sites 3 and 3A to 3N in the narrow area 2 are connected to the abnormality monitoring and reporting means 9 and 9A to 9N, respectively. Means 10, 10 </ b> A to 10 </ b> N, seismic control operation recording units (control operation operation frequency recording means) 11, 11 </ b> A to 11 </ b> N, and control operation notification means 12, 12 </ b> A to 12 </ b> N, and an elevator 6, It has a function of monitoring the operating state of 6A to 6N. In addition, although illustration is abbreviate | omitted in FIG. 1, the remote monitoring terminal device of the same structure as the remote monitoring terminal devices 8 and 8A-8N is installed also in the elevator installation site in the narrow areas 2A-2N.

  In the emergency response control system 1 for elevators in the embodiment shown in FIG. 1, the number of control operation operations in the elevator installation site 3 and the narrow region 2 that are the sites where the number of control operation operations in the narrow region 2 is the smallest. Only the elevator installation site 3A, which is the most frequent site, is permitted to transmit control operation notification signals to the information monitoring center 5 and the remaining elevator installation sites 3B to 3N to the information monitoring center 5 Transmission of the control operation notification signal is prohibited. Therefore, the elevators 6B to 6N installed in the elevator installation sites 3B to 3N other than the elevator installation site 3 and the elevator installation site 3A are switched from the normal operation to the control operation during the earthquake, and the control operation during the earthquake is executed. However, the control operation notification signals from the remote monitoring terminal devices 8B to 8N that monitor the operation states of the elevators 6B to 6N are not transmitted to the information monitoring center 5 via the communication line 4. As for the narrow areas 2A to 2N, the illustration is omitted, but in the same manner as in the narrow area 2, the site where the number of times of the control operation is the highest and the site where the number of the operation of the control operation is the highest. Only one elevator installation site is permitted to transmit control operation reporting signals to the information monitoring center 5, and the remaining elevator installation sites transmit control operation reporting signals to the information monitoring center 5. Is forbidden. Here, the number of times of the control operation means the number of times that the control operation during the earthquake has been executed in the past, and the control operation notification signal means that the elevators 6 and 6A to 6N are switched from the normal operation to the control operation during the earthquake. This means a signal transmitted from the remote monitoring terminal devices 8 and 8A to 8N to the information monitoring center 5 through the communication line 4 when the earthquake control operation is executed.

  The remote monitoring terminal devices 8 and 8A to 8N have abnormality monitoring and reporting means 9 and 9A to 9N that read out the operation information (operating state data) of the elevators 6 and 6A to 6N and constantly monitor them, thereby making emergency abnormalities other than earthquakes In the event of occurrence, an emergency call signal is transmitted to the information monitoring center 5 through the communication line 4, and the seismic detectors 7, 7A-7N are operated to control the control operation reporting means 12, 12A-12N. When the driving notification signal is transmitted, the control driving notification signal is transmitted to the information monitoring center 5 through the communication line 4 in preference to the emergency notification signal associated with the emergency abnormality other than the earthquake. It is configured. However, in the embodiment shown in FIG. 1, since the control operation notification signal is prohibited from being transmitted from the control operation notification means 12B to 12N of the remote monitoring terminal devices 8B to 8N, there is an emergency associated with an emergency abnormality other than an earthquake. The notification signal is transmitted from the abnormality monitoring and reporting means 9B to 9N to the information monitoring center 5 through the communication line 4, but the control operation reporting signal from the control operation reporting means 12 and 12A to 12N is transmitted through the communication line 4. Thus, it is not transmitted to the information monitoring center 5.

  The operation status answering means 10, 10A to 10N of the remote monitoring terminal devices 8 and 8A to 8N read the operation status of the elevators 6 and 6A to 6N via the communication line 4 from the information collection control means 17 described later of the information monitoring center 5. When a request (access) is transmitted, the operation state data of the elevators 6 and 6A to 6N are read out via the abnormality monitoring and reporting means 9 and 9A to 9N, and the operation state data is transmitted via the communication line 4. The function of transmitting to the information monitoring center 5 is provided.

  The remote control terminal devices 8, 8A to 8N seismic control operation recording units (control operation operation frequency recording means) 11, 11A to 11N store earthquake history data such as the operation frequency and operation date and time of control operations during earthquakes that occurred in the past. Temporarily stored, and the earthquake history data is transmitted to the information monitoring center 5 via the communication line 4 by an access from a later-described alerting permission control means 20 of the information monitoring center 5. .

  The control operation reporting means 12, 12A to 12N of the remote monitoring terminal devices 8 and 8A to 8N are operated such that the elevators 6 and 6A to 6N “switched from the normal operation to the control operation at the time of the earthquake and executed the control operation at the time of the earthquake”. When the status data is input from the abnormality monitoring and reporting means 9B to 9N via the earthquake control operation recording units 11 and 11A to 11N, the control operation notification signal is transmitted to the information monitoring center 5 through the communication line 4. It has a function to do. In the seismic control operation recording unit 11, 11A to 11N, when operation state data “switched from normal operation to seismic control operation and executed seismic control operation” is input from the abnormality monitoring and reporting means 9B to 9N, The number of times of control operation during an earthquake is added once and stored.

  As shown in FIG. 1, the information monitoring center 5 includes an information control unit 13, a notification receiving unit 14, a display unit 15, a customer information management database 16, an information collection control unit 17, and an on-site information collection unit 18. And at least a disaster information management base 19 and a report permission control means 20.

  The information control means 13 of the information monitoring center 5 mainly controls the flow of notification information, and identifies the notifications from the remote monitoring terminal devices 8 and 8A to 8N received by the notification receiving means 14. It has a function of collating with the customer information management database 16 and transmitting information to the display means 15. Here, the identification of the notification is an emergency notification signal associated with an abnormality other than an earthquake, or is transmitted from the control operation notification means 12, 12A-12N by the operation of the earthquake detectors 7, 7A-7N. This is to identify the control operation alert signal.

  The notification receiving means 14 of the information monitoring center 5 sends various data and signals (operation information data, emergency notification signal, control operation notification signal, etc.) from the remote monitoring terminal devices 8 and 8A to 8N to the communication line 4. And transmitting various data and signals (operation information data, emergency notification signal, control operation notification signal, etc.) to the information control means 13. The display means 15 comprises a large display and displays the results processed by the information control means 13 and the information collection control means 17.

  The customer information management database 16 of the information monitoring center 5 is a database for managing all customer information contracted by the elevator maintenance company. The information monitoring center 5 is obtained from basic information such as the customer name and address. Various information necessary for operation, elevators that are most easily operated by selected seismic detectors and elevators that are most difficult to operate seismic detectors, and elevator installations belonging to narrow areas 2, 2A to 2N It is stored so that the contents of the site can be identified.

  The information collection control unit 17 of the information monitoring center 5 uses the operation state data of the elevators 6 and 6A to 6N from the operation state answering units 10 and 10A to 10N as the elevator installation sites 3 and 3A to 3N in the disaster information management base 19. And a function for storing information in the narrow areas 2 and 2A to 2N that have been damaged when an earthquake occurs. When the processing result for the earthquake information is input, the customer information management database 16 and the disaster information management base 19 are accessed to control the site information collecting means 18 while acquiring the customer information, and the elevator installation site 3, It also has a function of storing information related to the control operation during an earthquake in 3A to 3N in the disaster information management base 19.

  The on-site information collecting means 18 of the information monitoring center 5 accesses the remote monitoring terminal devices 8 and 8A to 8N in each of the narrow areas 2 and 2A to 2N based on a command from the information collection control means 17, thereby It has a function of transmitting earthquake history data (answer data) from the devices 8 and 8A to 8N to the information collection control means 17. In this case, the field information collecting means 18 is configured to communicate with the remote monitoring terminal devices 8 and 8A in the specific narrow areas 2 and 2A via the communication line 4.

  The disaster information management base 19 of the information monitoring center 5 is a management database for storing site information (earthquake history data) of the area where the earthquake occurred, and whether or not each elevator installation site 3, 3A-3N is in control operation status. It stores information that can be discriminated and the history of the number of past control operation operations.

  The reporting permission control means 20 of the information monitoring center 5 is stored in the control operation operation history of each elevator installation site 3, 3 </ b> A to 3 </ b> N stored in the disaster information management base 19 and in the customer information management database 16. For each narrow area 2, 2A to 2N with reference to regional information, etc., for the elevator installation site that is the site with the least number of control operation operations and the elevator installation site that is the site with the highest number of control operation operations And a function for transmitting a notification permission signal to each of the remote monitoring terminal devices 8 and 8A to 8N via the communication line 4. Further, the issue permission control means 20 is based on the information on the field list registered in the customer information management database 16 and the earthquakes of the remote monitoring terminal devices 8, 8A to 8N via the field information collection means 18 and the communication line 4. While prompting transmission of response data (earthquake history data) stored in the control operation recording units 11, 11A to 11N, collecting field information from the earthquake control operation recording units 11, 11A to 11N of the remote monitoring terminal devices 8, 8A to 8N The response data (earthquake history data) transmitted via the means 18 and the communication line 4 is stored in the disaster information management base 19 as control operation history data of the elevators 6 and 6A to 6N. Yes.

A plurality of service bases 21 located throughout the country by the elevator maintenance company include an information monitoring center 5, abnormal reporting information associated with the occurrence of an earthquake, and abnormal reporting information related to abnormal reporting other than the abnormal reporting information associated with the occurrence of the earthquake. And share customer information and site information. Each service base 21 has a maintenance engineer (field engineer) 22 who maintains and inspects an elevator installed in the area of the service base 21.
According to the restoration response control system 1 for an elevator earthquake control operation configured as described above, when a strong earthquake occurs in a narrow area 2, the earthquake detectors 7 installed in the elevator installation sites 3, 3A to 3N in the narrow area 2 are provided. 7A to 7N are operated substantially simultaneously, and an earthquake detection signal is output to the elevators 6 and 6A to 6N. Then, in the elevators 6 and 6A to 6N, when the earthquake detection signal is received, the control operation at the time of the earthquake is performed, and after the car (not shown) is moved to the nearest floor, the car is moved to the nearest floor. It is made to stand by by stopping in an open state. At this time, in the narrow area 2, the remote monitoring terminal device 8 of the elevator installation site 3 which is the site having the least number of control operation operations and the remote monitoring terminal device 8A of the elevator installation site 3A which is the site having the largest number of control operation operations. Thus, the control operation notification signal is transmitted to the information monitoring center 5 through the communication line 4, but the transmission of the control operation notification signal is prohibited from all the remaining remote monitoring terminal devices 8B to 8N. Therefore, the control operation notification signal is not transmitted to the information monitoring center 5. In the information monitoring center 5, when the notification receiving means 14 receives the control operation notification signal, the control operation notification signal (the remote control terminal apparatus 8 and the remote monitoring terminal apparatus 8A transmitted to the notification receiving means 14). Received data) is transmitted to the information control means 13. When the control operation notification signal (received data) is transmitted from the notification receiving unit 14, the information control unit 13 communicates with the customer information management database 16 based on the control operation notification signal (received data). Collation work is automatically performed, and customer information and the like are automatically displayed on the display means 15 of the information monitoring center 5.

  Next, the operation procedure of the restoration response system 1 for an elevator earthquake control operation according to an embodiment of the present invention is divided into the magnitudes of earthquakes occurring in the narrow areas 2, 2A to 2N, that is, strong earthquake, medium We will explain in detail based on Fig. 2 by dividing into earthquake and weak earthquake.

  First, if a strong earthquake occurs in the narrow area 2 at step S1 in FIG. 2, the process proceeds to step S2 in FIG. 2, and the remote monitoring terminal device for the elevator installation site 3A, which is the site where the number of control operation operations is the highest. It is determined whether there is a control operation notification signal from 8A.

  Next, in step S2 of FIG. 2, if it is determined that there is a control operation notification signal from the remote monitoring terminal device 8A of the elevator installation site 3A, which is the site having the highest number of control operation operations, step S3 of FIG. Then, the information control means 13 of the information monitoring center 5 determines whether or not there is a control operation notification signal from the remote monitoring terminal device 8 at the elevator installation site 3 which is the site where the number of control operation operations is the smallest.

  Next, in step S3 of FIG. 2, if it is determined that there is a control operation notification signal from the remote monitoring terminal device 8 at the elevator installation site 3 which is the site where the number of control operation operations is the smallest, the step of FIG. Proceed to S4.

  In step S4 of FIG. 2, the information control means 13 of the information monitoring center 5 determines that all the elevators 6 and 6A to 6N in the narrow area 2 have been stopped by the control operation at the time of the earthquake. After the site list information listing all the elevator installation sites 3, 3A to 3N in the region 2 is transmitted to the disaster information management base 19, the site list information in the disaster information management base 19 is labeled In addition, by sending the site list information with the “call required” sign to the service base 21 using an in-house network or the like, the maintenance engineer (field engineer) 22 is encouraged to be dispatched and information is collected. By operating the control means 17 and the site information collecting means 18, the site information of all elevator installation sites 3, 3A to 3N in the narrow area 2 Collection so as not to. In this case, the maintenance engineer (field engineer) 22 performs an earthquake-controlled operation restoration operation in a predetermined order for the elevators 6 and 6A to 6N in the narrow area 2.

  As described above, when a strong earthquake occurs in the narrow area 2, since the site information is not collected from all the elevator installation sites 3, 3A to 3N in the narrow area 2, the communication line 4 is punctured. Therefore, it is possible to smoothly receive the emergency call signals from the narrow areas 2A to 2N other than the narrow area 2 at the information monitoring center 5, and the emergency call signals from the narrow areas 2A to 2N can be received. It is possible to cope with it and improve serviceability to customers.

  Further, if a weak earthquake has occurred in the narrow area 2 in step S1 in FIG. 2, the remote monitoring terminal 8A in the elevator installation site 3A, which is the site having the highest number of control operation operations in step S2 in FIG. 2, the process proceeds to step S 5 in FIG. 2, and the control operation notification signal from the remote monitoring terminal device 8 at the elevator installation site 3, which is the site where the number of control operation operations is the smallest, is obtained. It is determined by the information control means 13 of the information monitoring center 5 whether or not there has been. Then, in step S5 of FIG. 2, it is determined that there is no control operation notification signal from the remote monitoring terminal device 8 at the elevator installation site 3, which is the site where the number of control operation operations is the smallest, and the process proceeds to step S6 of FIG. .

  In step S6 of FIG. 2, the information control means 13 of the information monitoring center 5 determines that all the elevators 6 and 6A to 6N in the narrow area 2 are operating normally, and the customer information management database 16 determines all the narrow areas 2 After transmitting the site list information listing the elevator installation sites 3, 3A to 3N to the disaster information management base 19, the site information is marked with “no dispatch required” in the disaster information management base 19. The site list information with the sign “no need for dispatch” is transmitted to the service base 21 using an in-house network or the like, so that the maintenance engineer (field engineer) 22 is stopped and the information collection control means 17 To collect the site information of all elevator installation sites 3, 3A-3N in the narrow area 2 by the site information collection means 18 To strange. In this case, work corresponding to telephone communication from customers and emergency calls from all remote monitoring terminal devices in the narrow areas 2, 2A to 2N is performed.

  As described above, when a weak earthquake occurs in the narrow area 2, the site information is not collected from all the elevator installation sites 3, 3A to 3N in the narrow area 2, so that the communication line 4 is punctured. Therefore, the information monitoring center 5 can smoothly receive the abnormality report of the narrow areas 2A to 2N other than the narrow area 2, and cope with the abnormal reports from the narrow areas 2A to 2N. Can improve serviceability to customers. If a small earthquake occurs in the narrow area 2, it is necessary to confirm whether or not the maintenance engineer (field engineer) 22 is dispatched at a later date by creating a site list of “no dispatch”. Confirmation can be easily performed.

  Furthermore, when a middle earthquake occurs in the narrow area 2, the control operation notification signal from the remote monitoring terminal device 8A at the elevator installation site 3A, which is the site where the number of control operation operations is the highest, in step S2 of FIG. The process proceeds to step S3 in FIG. 2, and it is determined that there is no control operation notification signal from the remote monitoring terminal device 8 at the elevator installation site 3, which is the site having the least number of control operation operations. Proceed to S7.

  And in step S7 of FIG. 2, in the narrow area 2 where the middle earthquake occurred, the elevators 6 and 6A to 6N are mixed with those that are operating normally and those that are stopped due to the control operation during the earthquake. The information control means 13 of the information monitoring center 5 determines that the site information is listed on the elevator information sites 3 and 3A to 3N in the narrow area 2 from the customer information management database 16 as the disaster information management base 19. After the transmission, the site information is added to the site list information in the disaster information management base 19, and the site list information with the “information collection required” code is used for services using the company network. By transmitting to the base 21, the maintenance engineer (field engineer) 22 is urged to move, and the information collection control means 17 is activated to collect the field information. By the means 18, it is so as to collect the site information of all of the elevator installation site 3,3A~3N of the narrow region 2. In this case, the maintenance operation by the maintenance engineer (field engineer) 22 is performed to restore the control operation during the earthquake while grasping the control operation during the earthquake in the narrow area 2.

  As described above, when a middle earthquake occurs in the narrow area 2, by collecting the field information from all the elevator installation sites 3, 3A to 3N in the narrow area 2, the elevators 6 and 6A to 6N The information monitoring center 5 can accurately grasp which one is operating normally and one that has been stopped due to the control operation during an earthquake. The dispatch command of the maintenance engineer (field engineer) 22 to 21 can be performed appropriately.

  Further, since a strong earthquake occurred in the narrow area 2 at step S1 in FIG. 2, the control from the remote monitoring terminal device 8A at the elevator installation site 3A, which is the site having the highest number of control operation operations, at step S2 in FIG. Control operation notification from the remote monitoring terminal device 8 at the elevator installation site 3, which is the site where the number of control operation operations is the smallest, despite the fact that it has been determined that there has been an operation report signal and the process has proceeded to step S3 in FIG. If there is no signal and the information control means 13 of the information monitoring center 5 makes an inconsistent determination, the process proceeds to step S7 in FIG. In this case, as in the case of the occurrence of the middle earthquake, the site information that lists all the elevator installation sites 3, 3A to 3N in the narrow area 2 from the customer information management database 16 is stored in the disaster information management base 19. After the transmission, the site information is added to the site list information in the disaster information management base 19, and the site list information with the “information collection required” code is used for services using the company network. By transmitting to the base 21, the maintenance engineer (field engineer) 22 is urged to be dispatched, and the information collection control means 17 is activated and the on-site information collection means 18 allows all the elevator installation sites 3, 3 A in the narrow area 2. ~ 3N field information is collected.

  As described above, according to the restoration support system 1, the communication line 4 between the remote monitoring terminal devices 8, 8 </ b> A to 8 </ b> N and the information monitoring center 5 can be used even if a strong earthquake occurs in some areas 2. Emergency response signals such as cage confinement from areas 2A to 2N where the remaining earthquakes have not occurred by preventing the occupation for a long time in order to deal with restoration of control operations during earthquakes To improve customer serviceability.

  In the above-described embodiment, the elevator and the earthquake detector 7 in which the seismic sensor that is most likely to operate among the seismic detectors 7 and 7A to 7N is installed for each of the plurality of narrow areas 2, 2A to 2N. Although one elevator is installed in each of which the earthquake detector that is most difficult to operate among 7A to 7N is installed, it is not limited to this. Elevators and earthquakes that have the most operable seismic detectors among seismic detectors 7 and 7A to 7N depending on the situation of narrow areas 2, 2A to 2N, such as high-rise buildings equipped with a large number of elevators It is also possible to select a plurality of elevators in which the seismic sensor that is most difficult to operate among the sensors 7 and 7A to 7N is installed.

It is a block diagram which shows the principal part structure of the recovery corresponding | compatible system of the control operation for an earthquake at the time of an elevator concerning one embodiment of this invention. It is a flowchart explaining the operation | movement procedure of the recovery corresponding | compatible system of the control operation for earthquakes for elevators concerning one Embodiment of this invention.

Explanation of symbols

1 Evacuation control operation system for elevators 2, 2A to 2N Narrow area 3, 3A to 3N Elevator installation site 4 Communication line 5 Information monitoring center 6, 6A to 6N Elevator 7, 7A to 7N Earthquake detector 8, 8A ˜8N Remote monitoring terminal device 9, 9A˜9N Abnormality monitoring reporting means 10, 10A˜10N Operation status answering means 11, 11A˜11N Earthquake control operation recording unit 12, 12A˜12N Control operation reporting means 13 Information control means 14 Notification receiving means 15 Display means 16 Customer information management database 17 Information collection control means 18 On-site information collection means 19 Disaster information management base 20 Reporting permission control means 21 Service base 22 Maintenance engineer

Claims (3)

  A wide area is divided into a plurality of narrow areas, and an earthquake detector and an earthquake detection signal from this earthquake detector are input to a plurality of elevator installation sites installed in each of the plurality of narrow areas. By installing an elevator that is controlled during an earthquake and a remote monitoring terminal device that monitors the operating state of the elevator, the elevator monitoring operation is performed from the remote monitoring terminal device to the information monitoring center via a communication line. In an elevator earthquake control operation restoration system that transmits at least an alarm signal, at least one elevator and an earthquake detector that are most likely to operate in each narrow area are least likely to operate. Select at least one elevator and start the control operation from the remote monitoring terminal of the elevator where the seismic detector is most likely to operate. The signal and the control operation notification signal from the remote monitoring terminal device of the elevator where the seismic detector is most difficult to operate are transmitted to the information monitoring center, and the elevator remote where the seismic sensor is most likely to operate The seismic detection signal is sent when both the control operation notification signal from the monitoring terminal device and the control operation notification signal from the remote monitoring terminal device of the elevator where the seismic detector is most difficult to operate are not transmitted to the information monitoring center. The control operation alert signal from the remote monitoring terminal device of all elevators other than the elevator that is most likely to operate and the elevator that is most difficult to operate the earthquake detector is prohibited from being transmitted to the information monitoring center. A system that supports the restoration of control operations during an earthquake for elevators.   When both the control operation notification signal from the elevator in which the seismic detector is most likely to operate and the control operation notification signal from the elevator in which the seismic detector is least likely to operate are transmitted to the information monitoring center, The earthquake operation area is restored in the prescribed order, and the control operation notification signal from the elevator in which the seismic detector is most likely to operate and the elevator from which the seismic sensor is most difficult to operate When both signals of the control operation notification signal are not sent to the information monitoring center, work corresponding to the telephone call from the customer and the emergency call from the remote monitoring terminal device, and the earthquake detector operates most The control operation notification signal from the elevator that is easy to operate and the control operation notification signal from the elevator that the earthquake detector is most difficult to operate The recovery operation of the control operation during an earthquake is performed while grasping the operation control operation during an earthquake of an elevator in an earthquake occurrence area when a turn signal is transmitted to the information monitoring center. The elevator response control system for earthquake elevator operation as described in 1. 3. The control operation notification signal is transmitted to the information monitoring center via the communication line in preference to an emergency notification signal associated with an emergency abnormality other than an earthquake. System for emergency control operation for elevators.

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