WO2019167255A1

WO2019167255A1 - Elevator remote monitoring system

Info

Publication number: WO2019167255A1
Application number: PCT/JP2018/008023
Authority: WO
Inventors: 豊松枝; 井上　淳
Original assignee: 三菱電機ビルテクノサービス株式会社
Priority date: 2018-03-02
Filing date: 2018-03-02
Publication date: 2019-09-06
Also published as: KR102317211B1; JPWO2019167255A1; KR20200060452A; CN111566035A; JP6452905B1

Abstract

This elevator remote monitoring system comprises: a plurality of elevator control systems, each of which controls an elevator apparatus; a plurality of servers, each of which is provided independently; and a plurality of communication devices, provided so as to individually correspond to the plurality of servers, each of the communication devices communicating with each elevator control system over monitoring lines. Each of the plurality of servers is constituted so as to communicate with each elevator control system by means of the corresponding communication device.

Description

Elevator remote monitoring system

The present invention relates to an elevator remote monitoring system configured to realize remote monitoring of an elevator, remote control of an elevator, and the like.

The elevator remote monitoring system (see, for example, Patent Documents 1 to 3) connects the information center side and the elevator side via a telephone line, etc., to perform remote monitoring of the elevator, remote control of the elevator, etc. from the information center side. It is configured to be feasible.

A general information center is provided with a monitoring server that receives data for remotely monitoring the elevator from the elevator side, and a control server that transmits data for remotely controlling the elevator to the elevator side. In such an information center, a communication device is shared between the monitoring server and the control server. That is, each of the monitoring server and the control server communicates with the elevator side using a common communication device.

JP 2017-013936 A JP 2016-190728 A Japanese Unexamined Patent Publication No. 2016-190720

In the above-mentioned elevator remote monitoring system, the communication load on the information center side will increase as the number of elevators subject to remote monitoring increases, the functions of elevators become more sophisticated, and the elevator control program becomes more complex. Can be considered.

Here, the information center is provided with a plurality of servers communicating with the elevator side, specifically the monitoring server and the control server described above.

The monitoring server is configured to periodically receive data from the elevator side, so the traffic of the monitoring server is stable and the traffic can be estimated to some extent. On the other hand, since the control server is configured to transmit data to the elevator side in accordance with a request from a maintenance staff or the like, the communication amount of the control server varies. Therefore, if the communication volume of the control server fluctuates and increases more than expected, the monitoring server and the control server share the communication device, so when the monitoring server communicates with the elevator side, Communication delay may occur. In addition, when access to the above-described communication devices provided in the information center is concentrated, there is a possibility that communication delay occurs between each of the monitoring server and the control server and the elevator side.

As described above, since a plurality of servers provided in the information center share a communication device, there is a possibility that a communication delay occurs between each of the plurality of servers and the elevator side.

The present invention has been made to solve the above-described problems, and provides an elevator remote monitoring system that suppresses communication delay between each of a plurality of servers communicating with the elevator side and the elevator side. For the purpose.

The elevator remote monitoring system according to the present invention is provided with a plurality of elevator control systems that respectively control the elevator device, a plurality of servers that are provided independently, and a plurality of servers that are individually provided, each of which is provided with each elevator. A plurality of communication devices that communicate with the control system via a monitoring line, and each of the plurality of servers communicates with each elevator control system by the corresponding communication device.

According to the present invention, it is possible to obtain an elevator remote monitoring system that suppresses communication delay between each of a plurality of servers communicating with the elevator side and the elevator side.

It is a block diagram which shows the elevator remote monitoring system in Embodiment 1 of this invention. It is a block diagram which shows the elevator remote monitoring system equivalent to a comparative example.

Hereinafter, an elevator remote monitoring system according to the present invention will be described with reference to the drawings according to a preferred embodiment. In the description of the drawings, the same portions or corresponding portions are denoted by the same reference numerals, and redundant description is omitted.

Embodiment 1 FIG.
First, an elevator remote monitoring system corresponding to a comparative example with the elevator remote monitoring system in Embodiment 1 described later will be described with reference to FIG. FIG. 2 is a configuration diagram illustrating an elevator remote monitoring system corresponding to a comparative example.

The elevator remote monitoring system shown in FIG. 2 includes an elevator 2 that is individually provided in a plurality of buildings 1, an information center 3A that is provided remotely and manages the elevator 2 of each building 1, and an elevator 2 and an information center 3A. And a monitoring line 4 for communication connection therebetween. As the monitoring line 4, for example, a telephone line, an IP (Internet Protocol) line, or the like can be used.

The elevator 2 includes an elevator device 21 and an elevator control system 24 having a control device 22 and a monitoring device 23. As described above, the elevator 2 is individually provided in the plurality of buildings 1. Therefore, in the elevator remote monitoring system, there are a plurality of elevator control systems 24 that respectively control the elevator device 21.

Control data for controlling the operation of the elevator device 21 is set in the control device 22. Here, the control data is data used when the control device 22 controls the operation of the elevator device 21, and specifically includes, for example, a control program, a control parameter, and the like.

The control device 22 controls the operation of the elevator device 21 according to the set control data. Specifically, for example, the control device 22 controls the operation of the elevator hoisting machine, the operation of the elevator car door, and the like as the operation of the elevator.

The monitoring device 23 is communicably connected to the control device 22 and is communicably connected to the information center 3A via the monitoring line 4. The monitoring device 23 monitors the state of the elevator device 21 and periodically transmits the monitoring result to the information center 3A as monitoring information. In addition, when an abnormality occurs in the elevator apparatus 21, the monitoring device 23 transmits a notification signal for notifying the abnormality to the information center 3A as monitoring information.

When the monitoring device 23 receives control information described later from the information center 3 </ b> A, the monitoring device 23 transmits the control information to the control device 22.

The information center 3A includes a communication device 31A, a monitoring server 32A, a control server 33A provided independently of the monitoring server 32A, and an operation terminal 34A.

The communication device 31 </ b> A has a function of transmitting and receiving data, and communicates with the monitoring device 23 of the elevator control system 24 via the monitoring line 4.

The monitoring server 32A receives the monitoring information transmitted from the monitoring device 23 by the communication device 31A.

The control server 33A transmits control information to the monitoring device 23 by the communication device 31A according to a request from the operation terminal 34A described later or a specified schedule. Here, the control information is information related to the control of the control device 22. Specifically, for example, the control data for setting in the control device 22 and the old control data already set in the control device 22 are updated. Control data for updating, a command signal for instructing the control device 22 to perform a diagnostic operation for diagnosing whether or not the elevator device 21 is abnormal.

The operation terminal 34A is configured to be operable by maintenance personnel and the like, and requests the control server 33A to transmit control information to the monitoring device 23 in accordance with the operation of the maintenance personnel.

Thus, in the configuration of the elevator remote monitoring system shown in FIG. 2, the communication device 31A is shared by the monitoring server 32A and the control server 33A. Therefore, as described above, there may be a communication delay between each of the monitoring server 32A and the control server 33A provided in the information center 3A and the elevator side.

Therefore, in the first embodiment, in order to solve the above-mentioned newly focused problem, an elevator remote that can suppress communication delay between the monitoring server and the control server provided in the information center and the elevator side. Provide a monitoring system.

Next, the elevator remote monitoring system according to the first embodiment will be described with reference to FIG. FIG. 1 is a configuration diagram illustrating an elevator remote monitoring system according to Embodiment 1 of the present invention. Hereinafter, description of points that are the same as those of the comparative example described above will be omitted, and differences from the comparative example will be mainly described.

The elevator remote monitoring system shown in FIG. 1 includes an elevator 2 that is individually provided in a plurality of buildings 1, an information center 3 that is provided remotely and manages the elevator 2 of each building, and between the elevator 2 and the information center 3. And a monitoring line 4 for communication connection.

The information center 3 includes a center side monitoring system 37 having a communication device 35 and a monitoring server 32, and a center side control system 38 having a communication device 36, a control server 33 and an operation terminal 34. The center side monitoring system 37 and the center side control system 38 are provided independently.

The communication device 35 has a function of transmitting and receiving data, and communicates with the monitoring device 23 of the elevator control system 24 via the monitoring line 4. The monitoring server 32 receives the monitoring information transmitted from the monitoring device 23 by the communication device 35.

The communication device 36 has a function of transmitting and receiving data, and communicates with the monitoring device 23 of the elevator control system 24 via the monitoring line 4. The control server 33 transmits control information to the monitoring device 23 by the communication device 36 in accordance with a request from the operation terminal 34 described later or a specified schedule.

Thus, in the information center 3, two communication devices (that is, the communication device 35 and the communication device 36) are provided corresponding to two servers (that is, the monitoring server 32 and the control server 33) individually.

That is, in the center side monitoring system 37, the communication device 35 is provided corresponding to the monitoring server 32 and communicates with the elevator control system 24 of each building 1 via the monitoring line 4. As a result, the monitoring server 32 communicates with the elevator control system 24 of each building 1 through the corresponding communication device 35.

In the center side control system 38, the communication device 36 is provided corresponding to the control server 33, and communicates with the elevator control system 24 of each building 1 via the monitoring line 4. As a result, the control server 33 communicates with the elevator control system 24 of each building 1 through the corresponding communication device 36.

The operation terminal 34 is configured to be operable by maintenance personnel and the like, and requests the control server 33 to transmit control information to the monitoring device 23 according to the operation of the maintenance personnel and the like.

As described above, in the configuration of the elevator remote monitoring system shown in FIG. 1, the monitoring server 32 and the control server 33 use individual communication devices without sharing the communication devices. Therefore, even when the communication amount of the control server 33 fluctuates and increases more than expected, the monitoring server 32 is monitored by a communication device 35 different from the communication device 36 provided corresponding to the control server 33. It can communicate with the device 23. As a result, it is possible to suppress communication delay between the monitoring server 32 and the elevator 2 side.

In addition, since the communication device 35 and the communication device 36 are provided corresponding to the monitoring server 32 and the control server 33, the communication load is distributed even when the access to the information center 3 is concentrated. Can be made.

In the first embodiment, as an example of a plurality of servers provided independently in the information center 3, the plurality of servers includes a monitoring server 32 and a control server 33 provided independently of the monitoring server 32. The case where it comprises is illustrated. However, it is not limited to the example mentioned above, and each server of a some server may be what kind of server, as long as it communicates with each elevator control system 24 by a corresponding communication apparatus.

Further, the number of each of the monitoring server 32 and the control server 33 may be one or plural. When there are a plurality of monitoring servers 32, a communication device is provided corresponding to each of the plurality of monitoring servers 32, and each monitoring server 32 is configured to communicate with each elevator control system 24 by the corresponding communication device. Is done. The same applies when there are a plurality of control servers 33.

In the first embodiment, the configuration in which both the monitoring server 32 and the control server 33 provided independently of the monitoring server 32 are provided in the information center 3 is illustrated, but the present invention is not limited to this. That is, the control server 33 is not necessarily provided in the information center 3, and may be provided in a facility in a region different from the information center 3, for example. Further, the number of information centers 3 may be one or plural. When the number of the information centers 3 is plural, the plural information centers 3 are provided in a plurality of regions.

As described above, according to the first embodiment, the elevator remote monitoring system individually corresponds to a plurality of elevator control systems that respectively control the elevator apparatus, a plurality of servers that are independently provided, and a plurality of servers. Provided with a plurality of communication devices each communicating with each elevator control system via a monitoring line. Further, each of the plurality of servers is configured to communicate with each elevator control system by a corresponding communication device.

Thus, each server of the plurality of servers communicating with the elevator side can use the corresponding communication device without sharing the communication device. Therefore, it is possible to suppress communication delay between each of the plurality of servers communicating with the elevator side and the elevator side.

1 building, 2 elevator, 3A, 3 information center, 4 monitoring line, 21 elevator device, 22 control device, 23 monitoring device, 24 elevator control system, 31A communication device, 32A, 32 monitoring server, 33A, 33 control server, 34A , 34 operation terminal, 35 communication device (first communication device), 36 communication device (second communication device), 37 center side monitoring system, 38 center side control system.

Claims

A plurality of elevator control systems each controlling an elevator device;
A plurality of servers each provided independently,
A plurality of communication devices provided individually corresponding to the plurality of servers, each communicating with each elevator control system via a monitoring line;
With
Each of the plurality of servers communicates with each elevator control system through the corresponding communication device.
The plurality of servers includes a monitoring server and a control server provided independently of the monitoring server,
The plurality of communication devices are configured by a first communication device corresponding to the monitoring server and a second communication device corresponding to the control server,
The monitoring server receives monitoring information from each elevator control system by the corresponding first communication device;
The elevator remote monitoring system according to claim 1, wherein the control server transmits control information to each elevator control system through the corresponding second communication device.