JP2017114645A - Elevator Maintenance Management System - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow restoration work for an elevator using a maintenance terminal device to be appropriately performed when trouble such as occurrence of an earthquake, in a case that a monitoring center manages a maintenance program.SOLUTION: During usual maintenance, a monitoring device in a building in which an elevator is installed acquires a maintenance program through communicating with an external monitoring center, and the monitoring device is made to memorize a restoration program for restoring the elevator. When the elevator is stopped due to occurence of an earthquake or the like, the maintenance terminal device directly acquires the restoration program from the monitoring device in the building without communicating with the monitoring center; and executes the acquired restoration program to perform restoration work for the elevator stopped by a maintenance personnel. This allows the restoration work to be appropriately and surely performed even if a monitoring device in each building is in a situation where the device cannot communicate with the monitoring center due to an earthquake or the like.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an elevator maintenance management system.

  Conventionally, as an elevator maintenance management system, an elevator maintenance program is installed in the maintenance terminal device, and maintenance work is performed while sending and receiving data to and from the maintenance target device (elevator) and the host computer for maintenance. There is something to implement.

  In recent years, with the diversification of elevator models, the increase in inspection items, and the improvement of the measurement system, many types of maintenance programs tend to be prepared, and the processing speed due to the increase in maintenance program data capacity and display details There is concern about the decline. Therefore, instead of installing all maintenance programs on the maintenance terminal device, the maintenance program is stored in the monitoring center that monitors the elevator, and the maintenance terminal device downloads the maintenance program from the management center. There is. Patent Document 1 describes an example in which a maintenance program is distributed from a monitoring center to a maintenance terminal device.

  In a system that distributes a maintenance program from the management center to the maintenance terminal device, the maintenance terminal device does not hold the maintenance program except during maintenance work, so even if the maintenance terminal device is stolen, it prevents misuse of the maintenance program be able to.

JP-A-2005-41674

  However, in a system in which the maintenance terminal device communicates with the management center to acquire a maintenance program, an environment in which the maintenance terminal device can communicate with the management center is required, and therefore, maintenance of the elevator cannot be performed in a situation where the communication line is faulty. There is a problem.

For example, in a situation where communication via a communication line is not possible due to congestion control due to the occurrence of an earthquake, even if a maintenance worker arrives at a building where the elevator is stopped, the maintenance program cannot be acquired until the communication line is restored, and the elevator It is assumed that recovery work cannot be performed.
Also, when an earthquake occurs, it is assumed that many elevators are stopped at the same time in the area, and even if communication with a monitoring center via a communication line is possible, a large number of maintenance terminal devices can be There is a high possibility of access. Therefore, in the monitoring center, there are accesses exceeding the capacity that can be processed at one time, and there may be a problem that it takes time to distribute the maintenance program from the monitoring center to each maintenance terminal device.
Here, the problem at the time of earthquake occurrence was explained, but there is a similar problem at the time of failure due to other factors such as power failure and fire.

  An object of the present invention is to enable an elevator restoration work using a maintenance terminal device to be appropriately performed when a failure occurs such as an earthquake when a monitoring center manages a maintenance program.

In order to solve the above problems, for example, the configuration described in the claims is adopted.
The present application includes a plurality of means for solving the above problems. To give an example, an elevator maintenance management system includes a control device that controls the operation of an elevator provided in a building, and an abnormality in the elevator or the control device. If the earthquake is detected by the seismometer or information from outside, the monitoring device that stops the elevator and the maintenance program that is connected to the monitoring device and received via the connected monitoring device A maintenance terminal device that performs maintenance of the control device and a monitoring device connected to the monitoring device via a communication line, remotely monitors the state of the elevator, stores a maintenance program executed by the maintenance terminal device, and monitors or maintenance terminal device At the request of the monitoring center that sends the stored maintenance program to the maintenance terminal device via the monitoring device. And an over.
And the monitoring apparatus memorize | stores the restoration program for performing the restoration of the stopped elevator, and when the elevator stops due to the detection of an earthquake, the stored restoration program is transmitted to the maintenance terminal apparatus in the connected state. .
Furthermore, the maintenance terminal device executes the restoration work for the stopped elevator by the restoration program received from the monitoring device.

According to the elevator maintenance management system of the present invention, it is possible to efficiently restore the elevator in the event of an earthquake, and even if the maintenance terminal device is stolen, unauthorized operation of the elevator due to misuse of the maintenance program can be performed. Can be prevented.
Problems, configurations, and effects other than those described above will be clarified by the following description of embodiments.

It is a block diagram which shows the outline | summary of the whole structure of the elevator maintenance management system by the example of 1 embodiment of this invention. It is a block diagram which shows the internal structural example of each part of the elevator maintenance management system by one embodiment of this invention. It is a flowchart which shows the example of the restoration work procedure by the elevator maintenance management system by one embodiment of this invention. It is explanatory drawing which shows the example of an item of the menu screen by the example of 1 embodiment of this invention.

Hereinafter, an embodiment of the present invention (hereinafter referred to as “this example”) will be described with reference to the accompanying drawings.
[1. Example of overall system configuration]
FIG. 1 shows an overview of the overall configuration of the elevator maintenance management system of this example.
The elevator 1 installed in the building is operated by the control of the control device 2, and the car provided in the elevator 1 moves between a plurality of floors.
A monitoring device 3 is installed in the building, and the monitoring device 3 monitors the status of the elevator 1 and the control device 2. The monitoring device 3 is installed in a disaster prevention center of a building, for example, but can be installed in a machine room of the elevator 1 or the like.

  Further, a seismometer 4 is installed in the building, and when the seismometer 4 detects an earthquake wave of a predetermined level or higher, the monitoring device 3 sends a command to the control device 2 to stop the elevator 1. In the configuration shown in FIG. 1, the seismometer 4 is provided in the control device 2, but the monitoring device 3 may be provided with a seismometer. When the monitoring device 3 detects an abnormality and stops the elevator 1, the operation of the elevator 1 cannot be recovered unless a recovery operation described later is performed.

The monitoring device 3 can communicate with the monitoring center 7 via the general line network 6. As the general line network 6, for example, a telephone line or a line for various data communication is used.
The monitoring center 7 is operated by a company that performs maintenance management of the elevator 1, for example. Although FIG. 1 shows an example in which the monitoring center 7 is connected to one monitoring device 3 by the general line network 6, the monitoring center 7 is actually connected to the monitoring devices 3 of many elevators 1 by the general line network 6. Has been.
When an abnormality occurs in the elevator 1 to be monitored, the monitoring center 7 collects information regarding the abnormal state from the monitoring device 3 and sends an appropriate instruction to the monitoring device 3. The monitoring center 7 manages maintenance of the elevator 1 and the control device 2.

  When maintaining the elevator 1 or the control device 2, the maintenance person 8 connects the maintenance terminal device 5 to the monitoring device 3. The monitoring device 3 and the maintenance terminal device 5 may be connected to each other so as to be able to transfer data by wireless communication in addition to the case of direct connection by wire. As the maintenance terminal device 5, for example, a notebook computer device or a tablet terminal is used, and is usually carried by a maintenance person 8. Although FIG. 1 shows a state in which the maintenance terminal device 5 is connected to the monitoring device 3, the maintenance terminal device 5 is removed from the monitoring device 3 when maintenance work and recovery work are not performed.

The maintenance staff 8 uses the maintenance terminal device 5 to perform maintenance work on the elevator 1 and the control device 2, and also uses the maintenance terminal device 5 for recovery work in the event of an earthquake.
The maintenance program executed by the maintenance terminal device 5 of this example is not prepared in the maintenance terminal device 5, and is received by the maintenance terminal device 5 from the monitoring center 7 via the monitoring device 3. That is, when the maintenance terminal device 5 is connected to the monitoring device 3 and the maintenance person 8 logs in correctly, the maintenance center device 7 can be accessed, and the maintenance program prepared in the monitoring center 7 is stored in the maintenance terminal device 5. to download.

Then, the maintenance program downloaded by the maintenance staff 8 is executed by the maintenance terminal device 5, whereby a maintenance work execution procedure and the like are displayed on the display unit 503 of the maintenance terminal device 5. The maintenance staff 8 can perform maintenance work on the elevator 1 and the control device 2 in accordance with the instructions displayed on the display unit 503.
As described above, the normal maintenance program is received by the maintenance terminal device 5 from the monitoring center 7 via the monitoring device 3. On the other hand, when the maintenance staff 8 restores the elevator 1 that has stopped at the time of an abnormality such as an earthquake, the maintenance terminal device 5 receives the restoration program stored in the monitoring device 3 and the maintenance terminal device 5 By executing the recovery program, the maintenance staff 8 performs the recovery work. Details of a procedure when the maintenance terminal device 5 receives these maintenance programs and recovery programs will be described later.

[2. Detailed configuration example of each part]
FIG. 2 shows a detailed configuration example of each unit constituting the elevator maintenance management system of this example.
The control device 2 of the elevator 1 includes a control unit 201 that executes control of the elevator 1 and a storage unit 202 that stores a control program for the elevator 1. The control unit 201 is connected to the seismometer 4 and is supplied with information such as the shaking of the earthquake detected by the seismometer 4.
The control unit 201 of the control device 2 controls the operation of the elevator 1 as a whole, including the elevator speed and door opening / closing operation. In this case, the control unit 201 moves the car to an appropriate floor on the basis of operation states such as a call button installed at the landing of the elevator 1 and a destination floor button installed in the car.

The control unit 201 includes a CPU (Central Processing Unit) that executes control calculations. The storage unit 202 includes a ROM (Read Only Memory) and a HDD (Hard Disk Drive) that store a program for executing the calculation by the control unit 201, and a RAM (work area when the control unit 201 executes the program). Random Access Memory).
Note that the control units 301, 501, 701 and storage units 302, 502, and 702 included in the monitoring device 3, the maintenance terminal device 5, and the monitoring center 7, which will be described later, are similar to the control unit 201 and the storage unit 201. It is composed of control means and storage means such as ROM, HDD and RAM.

  The monitoring device 3 in the building where the elevator 1 is installed includes a control unit 301 that executes monitoring work, a storage unit 302, a maintenance staff determination unit 303, a menu creation unit 304, and an emergency earthquake warning reception unit 305. The control unit 301 is connected to the control unit 701 of the monitoring center 7 via the general line network 6.

The storage unit 302 includes storage areas for the monitoring information 302A of the elevator 1, the certified maintenance worker information 302B, and the recovery program 302C.
In the storage area of the monitoring information 302A, monitoring information such as an operation history, an operation history, and a failure history that are periodically acquired from the control device 2 is stored. The monitoring information stored in the monitoring information 302A is transmitted to the monitoring center 7 as needed.
In the storage area of the certified maintenance staff information 302B, maintenance staff authentication information such as the ID and password of the maintenance staff who maintains the elevator 1 and the control device 2 is stored. This maintenance staff authentication information is transmitted from the monitoring center 7.
In the storage area of the recovery program 302C, a recovery program for instructing a procedure for recovering when the elevator 1 or the control device 2 stops due to an abnormality such as an earthquake, and the name, starting condition, menu, and the like of the recovery program are stored. Is done. The program stored in the storage area of the recovery program 302C is prepared in advance in the monitoring device 3, but may be updated at any time according to an instruction from the monitoring center 7.

When there is an access from the maintenance terminal device 5, the maintenance worker determination unit 303 stores the login information such as the ID and password of the maintenance worker 8 transmitted from the maintenance terminal device 5 that has received the access, and the stored authentication An authentication process for recognizing that the correct maintenance staff 8 is using the maintenance staff information 302B is performed.
The menu creation unit 304 creates a recovery program menu based on the information stored in the area of the recovery program 302C. The menu created by the menu creation unit 304 is transmitted to the maintenance terminal device 5 by the control unit 301. In the maintenance terminal device 5, the transmitted recovery program menu is stored in the storage unit 502 and displayed on the display unit 503, and the maintenance person 8 executes the recovery operation in accordance with the menu procedure displayed on the display unit 503. can do.

  The emergency earthquake bulletin receiving unit 305 receives an emergency earthquake bulletin transmitted by the Japan Meteorological Agency when it detects the occurrence of a large earthquake of a predetermined level or higher. This earthquake early warning is transmitted via a wireless telephone network, for example. The control unit 301 instructs the control device 2 to stop the elevator 1 when the earthquake early warning reception unit 305 receives the earthquake early warning or when the seismometer 4 detects an earthquake of a predetermined level or higher. Depending on the level of the earthquake, the elevator 1 may be stopped depending on the level of the earthquake, either by stopping the car to the nearest floor and opening the door, or by immediately stopping the car.

  In a situation where the elevator 1 is stopped due to the occurrence of an earthquake, the maintenance terminal device 5 is connected to the monitoring device 3, and an authentication process in the maintenance staff determination unit 303 and a menu creation unit 304 are performed by a login operation from the maintenance terminal device 5. The menu creation process is performed.

The monitoring center 7 includes a control unit 701, a storage unit 702, a maintenance worker determination unit 703, and a menu creation unit 704. The storage unit 702 stores maintenance staff information 702A, work schedule information 702B, and a program 702C.
Information such as the ID and login password of the registered maintenance worker 8 of the elevator 1 is stored in the storage area of the maintenance worker information 702A. In the storage area of the work schedule information 702B, a maintenance work schedule (maintenance items, date, etc.) of the elevator 1 monitored by the monitoring center 7 is stored. In the storage area of the program 702C, a maintenance program for instructing a procedure for maintaining the elevator 1 and the control device 2 is stored. The maintenance program stored as the program 702C includes a recovery program stored in the storage unit 302 of the monitoring device 3.

The control unit 701 collects monitoring status information from each monitoring device 3 and performs authentication processing using information stored in the maintenance personnel information 702A when login information of the maintenance personnel 8 is sent from the monitoring device 3. Do. First, when the logged-in information is a correct maintenance person 8 login, the control unit 701 refers to the work schedule information 702B and stores a maintenance program that matches the work content at that time in the program 702C of the storage unit 702. Read from area. The menu creation unit 704 creates a menu for maintenance based on the maintenance program read from the storage unit 702.
The control unit 701 sends a maintenance program including the menu created by the menu creation unit 704 to the maintenance terminal device 5 via the monitoring device 3. The maintenance terminal device 5 stores the received maintenance program in the maintenance program 502B area of the storage unit 502.

  The maintenance terminal device 5 includes a control unit 501, a storage unit 502, and a display unit 503. The storage unit 502 includes a storage area for login maintenance staff information 502A and a storage area for the maintenance program 502B. The storage area of the login maintenance staff information 502A stores maintenance staff information that is login information of a maintenance staff who uses the maintenance terminal device 5. In the storage area of the maintenance program 502B, a maintenance program or a recovery program received from the outside (the monitoring center 7 or the monitoring device 3) is stored.

  The control unit 501 executes the maintenance program stored in the area of the maintenance program 502B, and instructs the maintenance worker 8 to perform maintenance work (or recovery work). After the maintenance work is completed, the control unit 501 deletes the maintenance program (or recovery program) stored in the maintenance program 502B area. Instead of erasing the maintenance program after the work is completed, an effective time of the received maintenance program may be set so that the maintenance program cannot be used after the effective time has elapsed.

[3. Example of elevator restoration procedure]
Next, an example of a recovery procedure when the elevator stops due to an abnormality occurring using the elevator maintenance management system of this example will be described. Here, it is assumed that the elevator has stopped due to the occurrence of an earthquake. Further, it is assumed that the general line network 6 (telephone line) is congested due to the occurrence of an earthquake, and a situation in which communication between the monitoring device 3 and the monitoring center 7 cannot be performed occurs. When the maintenance terminal device 5 performs the maintenance work using the maintenance program transmitted from the monitoring center 7, if a situation occurs in which communication between the monitoring device 3 and the monitoring center 7 cannot be performed, a maintenance program for performing the restoration work as it is is provided. Since it cannot be obtained, it will not be possible to perform recovery work. Therefore, when such a situation occurs, in the case of this example, the maintenance terminal device 5 communicates with the monitoring center 7 using the recovery program stored in the storage area of the recovery program 302C of the monitoring device 3. So that the recovery work can be done without any problems.

The flowchart of FIG. 3 shows a procedure when the maintenance terminal device 5 performs the recovery work using the recovery program stored in the storage area of the recovery program 302C of the monitoring device 3.
In FIG. 3, the process performed by the maintenance terminal device 5 (step with the reference sign S) is shown on the left side, and the process performed by the monitoring apparatus 3 (step with the reference sign T) is shown on the right side.

  First, the maintenance person 8 uses the maintenance terminal device 5 to perform a login operation for inputting his / her ID and login password (step S1). When this login operation is performed, the maintenance terminal device 5 performs a connection operation with the monitoring device 3 (step S2), and transmits login maintenance personnel information such as the maintenance personnel ID and password input at step S1 to the monitoring device 3. (Step S3).

  When the monitoring device 3 receives the login maintenance personnel information from the maintenance terminal device 5 (step T1), the control unit 301 of the monitoring device 3 is input into the login maintenance personnel information stored in the certified maintenance personnel information 302B. It is determined whether there is a match with the login maintenance staff information (step T2). Here, in the case where the stored login maintenance staff information does not match the input login maintenance staff information (No in step T2), it is determined that the login is an unauthorized login or an unregistered maintenance staff login. Then, the process is terminated without executing the subsequent processes.

  When the login maintenance worker information input in step T2 matches the stored certified maintenance worker information 302B (Yes in step T2), the control unit 301 of the monitoring device 3 sends monitoring information to the monitoring center 7. Login maintenance worker information is transmitted (step T3). Here, the control unit 301 of the monitoring device 3 determines whether or not communication with the monitoring center 7 is possible (step T4). If it is determined in step T4 that communication with the monitoring center 7 is possible (No in step T4), the monitoring center 7 side maintains the recovery program stored in the program 702C area of the storage unit 702. The data is transmitted to the terminal device 5 and the recovery work is executed. Description of the recovery work using the monitoring center 7 is omitted.

When it is determined in step T4 that communication with the monitoring center 7 is not possible (No in step T4), the control unit 301 determines whether the seismometer 4 connected to the control device 2 has detected an earthquake of a predetermined level or higher. Is determined (step T5). Here, when an earthquake of a predetermined level or higher is not detected, the control unit 301 determines whether or not an emergency earthquake warning has been received by the emergency earthquake warning reception unit 305 (step T6).
If the seismometer 4 detects an earthquake of a predetermined level or higher in step T5 (Yes in step T5), or if an earthquake early warning is received in step T6 (Yes in step T6), the process of step T7 is performed. Move. If the seismometer 4 does not detect an earthquake of a predetermined level or higher at Step T5 (No at Step T5) and has not received an emergency earthquake bulletin at Step T6 (No at Step T6), the earthquake will stop. If not, the process is terminated.
If it is determined in steps T5 and T6 that the stop of the elevator 1 is a factor other than an earthquake (power failure, fire, etc.), the process may be shifted to a process suitable for each factor. An example of a recovery program for factors other than this earthquake will be described later.

  In step T7, the control unit 301 of the monitoring device 3 uses the recovery program stored in the recovery program 302C area of the storage unit 302 to create a menu for the menu creation unit 304 to perform recovery work. And the control part 301 transmits the recovery program made into the menu to the maintenance terminal device 5 (step T8).

The maintenance terminal device 5 receives the recovery program transmitted from the monitoring device 3 (step S4). At this time, the control unit 501 of the maintenance terminal device 5 stores the received restoration program in the maintenance program 502B area of the storage unit 502, executes the restoration program, and displays a menu based on the restoration program (step S5). .
The maintenance staff 8 who has confirmed the menu displayed by the displayed restoration program executes the restoration work for the elevator 1 according to the displayed procedure.

[4. Example of recovery menu]
FIG. 4 is an example of a menu displayed on the maintenance terminal device 5 by executing the recovery program. As already explained, the cause of the elevator 1 stopping at the time of an abnormality is assumed to be a power failure and a fire in addition to an earthquake.
In the case of this example, the recovery program stored in the area of the recovery program 302C of the storage unit 302 of the monitoring device 3 is prepared for each case, and the corresponding recovery program is used for each situation. Make recovery work.

For example, in the event of an earthquake, as shown in FIG. 4, as a recovery menu instructed by the maintenance terminal device 5, an instruction to confirm whether or not the seismometer is operating is instructed. To restore. Next, an instruction to confirm whether or not there are any abnormalities in the movable parts (rope, pulley, governor, etc.) of the elevator 1 is instructed.
When these confirmation operations are completed, the maintenance staff 8 performs an operation for completing the earthquake recovery operation using the maintenance terminal device 5 and instructs the monitoring device 3 to restart the elevator 1.

Further, at the time of a power failure, as shown in FIG. 4, a confirmation work for the power supply system of the elevator 1 is instructed as a recovery menu instructed by the maintenance terminal device 5. More specifically, the main power supply primary side voltage is confirmed.
When the maintenance staff 8 confirms that the power supply system confirmation work has been completed and the power failure has been restored based on these instructions, the maintenance terminal 8 performs a power failure restoration operation completion operation on the maintenance terminal device 5, and The elevator 1 is instructed to restart.

Further, in the event of a fire, as shown in FIG. 4, as a recovery menu instructed by the maintenance terminal device 5, first, a confirmation operation for inspecting whether there is a strange odor in the tower of the elevator 1 is instructed. Next, the confirmation work of the state of the fire alarm in the tower is instructed, and finally the confirmation work of whether water has accumulated in the pit is instructed.
The maintenance staff 8 finishes the confirmation work in the event of a fire based on these instructions, and when it is determined that there is no abnormality in any of the items, the maintenance terminal device 5 performs a fire recovery work completion operation, An instruction to restart the elevator 1 is given to the monitoring device 3.

  As described above, according to the elevator maintenance management system of this example, the maintenance terminal device 5 can normally receive the maintenance program transmitted from the monitoring center 7 and perform maintenance work according to the maintenance program. The maintenance program can be appropriately managed. In addition, in the case of this example, the maintenance terminal device 5 can perform maintenance work using a recovery program stored in the monitoring device 3 installed in each building in the event of an abnormality such as an earthquake. Therefore, even when communication with the monitoring center 7 is not possible, the recovery work can be performed.

  And since the program memorize | stored in the monitoring apparatus 3 is a program which performs only a recovery operation | work, it can exclude that the unauthorized maintenance operation | work using the program memorize | stored in the monitoring apparatus 3 is performed. Moreover, since the monitoring device 3 performs authentication processing by maintenance personnel even during recovery work, it also eliminates unauthorized recovery work using the recovery program stored in the monitoring device 3. can do.

[Modification]
In the above-described embodiment, when the monitoring device 3 cannot communicate with the monitoring center 7, the recovery program stored in the monitoring device 3 is used. On the other hand, when the earthquake occurs, the recovery program may be sent from the monitoring device 3 to the maintenance terminal device 5 even if the monitoring device 3 can communicate with the monitoring center 7.
In this way, when there are a large number of elevators stopped due to the occurrence of an earthquake, it is possible to prevent the access from each monitoring device 3 to the monitoring center 7 from being concentrated, and the restoration work of each elevator 1 is appropriately performed. To be able to do that.

  In the embodiment described above, the seismometer 4 and the earthquake early warning receiving unit 305 are used to detect the occurrence of an earthquake in the monitoring device 3. On the other hand, only the seismometer 4 may be provided, and an earthquake may be detected from the output of the seismometer 4. Alternatively, only the earthquake early warning receiving unit 305 may be provided.

  In the above-described embodiment, the maintenance staff 8 inputs the ID and password when performing the login operation using the maintenance terminal device 5, but the authentication process is performed by other methods. Also good. For example, the maintenance person 8 may have an ID card in which authentication information is stored, and the ID card may be read to authenticate the work by the correct maintenance person 8.

  In the above-described embodiment, the monitoring device 3 includes the menu creation unit 304, and the menu creation unit 304 creates a menu for executing the recovery program. On the other hand, the control unit 501 of the maintenance terminal device 5 may create a menu from the received recovery program.

  Note that the recovery procedure at the time of each abnormality shown in FIG. 4 is merely an example, and may be a recovery program that lists other recovery procedures. Also, instead of preparing individual recovery programs in the event of an earthquake, power outage, or fire, prepare a single type of recovery program that includes all recovery procedures, and during the execution of the recovery program, You may make it make a maintenance worker select from which it is recovery.

Furthermore, the present invention is not limited to the above-described embodiments, and includes various modifications. For example, the above-described embodiments have been described in detail in order to easily understand the present invention, and are not necessarily limited to those having all the configurations described.
Each of the above-described configurations, functions, processing units, processing means, and the like may be realized by hardware by designing a part or all of them with, for example, an integrated circuit. Each of the above-described configurations, functions, and the like may be realized by software by interpreting and executing a program that realizes each function by the processor. Information such as programs, tables, and files for realizing each function can be stored in a recording device such as a memory, a hard disk, an SSD (Solid State Drive), or a recording medium such as an IC card, an SD card, or a DVD.
Further, the control lines and information lines indicate what is considered necessary for the explanation, and not all the control lines and information lines on the product are necessarily shown. Actually, it may be considered that almost all the components are connected to each other.

  DESCRIPTION OF SYMBOLS 1 ... Elevator, 2 ... Control apparatus, 3 ... Monitoring apparatus, 4 ... Seismometer, 5 ... Maintenance terminal apparatus, 6 ... General network, 7 ... Monitoring center, 8 ... Maintenance personnel, 201, 301, 501, 701 ... Control , 202, 302, 502, 702 ... storage unit, 302A ... monitoring information, 302B ... authenticated maintenance personnel information, 302C ... recovery program, 303,703 ... maintenance personnel determination unit, 304,704 ... menu creation unit, 305 ... emergency Earthquake early warning receiving unit, 502A ... login maintenance personnel information, 502B ... maintenance program, 503 ... display unit, 702A ... maintenance personnel information, 702B ... work schedule information, 702C ... maintenance program

Claims (4)

A control device for controlling the operation of the elevator provided in the building;
A monitoring device that monitors the presence or absence of an abnormality in the elevator or the control device and stops the elevator when an earthquake is detected by a seismometer or information from outside,
A maintenance terminal device connected to the monitoring device and performing maintenance of the elevator or the control device by a maintenance program received via the connected monitoring device;
Connected to the monitoring device via a communication line, remotely monitor the state of the elevator, store the maintenance program executed by the maintenance terminal device, and store it at a request from the monitoring device or the maintenance terminal device A maintenance center that transmits the maintenance program to the maintenance terminal device via the monitoring device;
The monitoring device stores a restoration program for restoring the stopped elevator. When the elevator is stopped due to an earthquake detection, the stored restoration program is stored in the maintenance terminal device in a connected state. Send
The maintenance terminal device executes the restoration program received from the monitoring device. Elevator maintenance management system. The monitoring device includes a receiving unit that receives an earthquake early warning,
The elevator maintenance management system according to claim 1, wherein when the receiving unit receives the earthquake early warning, the elevator is stopped and the restoration program is transmitted to the connected maintenance terminal device. The monitoring device further transmits the restoration program to the connected maintenance terminal device when the elevator stops due to a factor other than an earthquake and communication with the monitoring center is not possible. Elevator maintenance management system. The monitoring device stores maintenance staff information,
The maintenance program is transmitted to the maintenance terminal when the maintenance staff information transmitted from the maintenance terminal connected to the monitoring device matches the stored maintenance staff information. The elevator maintenance management system according to item 1.

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