JP2020070131A - Safety management system - Google Patents

Abstract

To provide a safety management system capable of checking the safety of an operator quickly and accurately.SOLUTION: A safety management system 10 includes a safety management server 20 executing predetermined abnormality processing when abnormality occurs in an operator, a maintenance server 26 storing work schedule data of the operator, and a work monitoring device 30 connected to a facility to monitor an operation pattern of the facility. When the operation pattern of an elevator 50 at the work is different from a scheduled operation pattern based on the operation schedule data, the work monitoring device 30 determines that the abnormality occurs in the operator and transmits information notifying the safety management server 20 of the abnormality.SELECTED DRAWING: Figure 1

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a safety management system, and more particularly to a system for remotely managing the safety of workers who inspect and maintain building equipment, especially elevators.

  Conventionally, there is known a safety management system for remotely managing the safety of workers who maintain and inspect building facilities such as escalator and elevator (see, for example, Patent Documents 1 and 2). In the conventional system, an operator working on site sends himself / herself an email to the management server using a mobile terminal at a predetermined time zone (for example, from 11:00 am to 11:30 am), and sends it to himself. It is necessary to report that there is no abnormality. Then, when the worker does not contact during the predetermined time period, it is determined that the worker has an abnormality, and a predetermined abnormality response is executed.

JP, 2016-206850, A JP, 2005-084167, A

  By the way, in the conventional system, for example, when the operator forgets the contact time and is overkill, or when the operator cannot operate the mobile terminal due to his / her hands being dirty and the contact is delayed, There is a case where it is erroneously determined that an abnormality has occurred even though the operator has no abnormality. In addition, conventional systems cannot detect abnormalities until a predetermined contact time elapses even when an abnormality occurs in the worker and it is difficult to contact them. From the perspective of, there is room for improvement.

  An object of the present invention is to provide a safety management system capable of confirming the safety of a worker quickly and accurately.

  A safety management system according to the present invention is a system for remotely managing the safety of a worker who performs maintenance and inspection work on equipment, and a safety management server that executes a predetermined abnormal time process when an abnormality occurs in the worker. A maintenance server that stores work schedule data of a worker, and a work monitoring device that is connected to the equipment and monitors an operation pattern of the equipment, wherein the operation pattern during work is based on the work schedule data. When it is different from the planned operation pattern, it is characterized by including a work monitoring device that issues information notifying the abnormality to the safety management server that an abnormality has occurred to the worker.

  According to the safety management system having the above configuration, the safety management of the worker is automatically performed by comparing the operation pattern of the equipment at the time of maintenance and inspection work with the planned operation pattern based on the work schedule data. Therefore, the above-mentioned erroneous determination due to the operator forgetting to contact does not occur, and when an abnormality actually occurs, it is possible to issue information that informs the abnormality in real time, so that the safety of the operator can be notified. It can be confirmed quickly and accurately.

  The safety management system according to the present invention further includes a maintenance computer, wherein the maintenance computer stores the work schedule data of the day acquired from the maintenance server, and is connected to the work monitoring device to store the work schedule data. It may be configured to provide. Generally, an operator connects a maintenance computer to the equipment in order to input necessary information, obtain maintenance inspection data, etc., but by providing the work schedule data to the work monitoring device by using the computer. , It becomes easy to execute safety management.

  In the safety management system according to the present invention, the work monitoring device is configured to send a work end signal to the safety management server when the connected maintenance computer is disconnected, and the safety management server, The work scheduled data including information on the scheduled work end time is acquired from the maintenance server, and the predetermined abnormal time process is executed when the work end signal is not acquired even after a predetermined time passes from the scheduled work end time. May be. By automatically determining the end of the work by disconnecting the maintenance computer, it is possible to prevent the above-mentioned erroneous determination due to, for example, a worker forgetting to contact.

  According to the safety management system of the present invention, the safety of the worker can be confirmed quickly and accurately.

It is a figure showing an outline of a safety management system which is an example of an embodiment. It is a block diagram showing composition of a safety management system which is an example of an embodiment. It is a figure which shows an example of the operation pattern of an elevator at the time of maintenance inspection. It is a flow chart which shows a control procedure of safety management which is an example of an embodiment.

  Hereinafter, an embodiment of a safety management system according to the present invention will be described in detail with reference to the drawings. However, the present invention is not limited to the embodiments described below. Hereinafter, the safety management system 10 that remotely manages the safety of the worker who performs maintenance and inspection of the elevator 50 will be exemplified. However, the safety management system according to the present invention is the safety of the worker who performs maintenance and inspection work of equipment other than the elevator 50. It can also be applied to management. However, the equipment to which the safety management system according to the present invention can be applied is limited to those in which the operation pattern at the time of maintenance and inspection can be determined in advance.

  FIG. 1 is a diagram showing an outline of a safety management system 10 as an example of an embodiment and an elevator 50 to which the system is applied. As illustrated in FIG. 1, the elevator 50 includes an elevating mechanism unit that elevates a car 52 in a hoistway 51 between halls installed on each floor, and a control panel 53 that controls the operation of the elevating mechanism unit. Prepare The hoistway 51 is, for example, a hoistway for a car 52 that is provided in a building so as to pass vertically therethrough. A pit in which a shock absorber is installed is provided at the bottom of the hoistway 51, and an upper machine room is provided above the hoistway 51.

  A hoist 54 for raising and lowering the car 52 and a control panel 53 are installed in the upper machine room. A main rope 56 having one end connected to an upper portion of the car 52 and the other end connected to a counterweight 55 is hung on the sheave of the hoisting machine 54. By driving the hoisting machine 54, the main rope 56 is hoisted or sent out, and the car 52 moves up and down in the hoistway 51. The hoist 54 is provided with an encoder 57 for detecting the position of the car 52 in the hoistway 51.

  The car 52 has an indoor space in which a user can board, and the hoist 54 is driven to move up and down in the hoistway 51. On the wall surface of the car 52, an in-car operation panel 58 connected to the control panel 53 is installed. The operation panel 58 in the car is provided with a destination floor button, a door opening / closing button, an indicator, a maintenance / inspection button, and the like. In addition, the car 52 is provided with a car operation switch 59. The on-car operation switch 59 is a switch for an operator on the car to manually raise and lower the car 52. The on-car operation switch 59 is connected to the control panel 53, like the in-car operation panel 58.

  The control panel 53 is a device that uniformly controls the operation of each element that constitutes the lifting mechanism. The control panel 53 gives a command to the hoisting machine 54 based on, for example, the operation of the operation panel 58 in the car to control the lifting operation of the car 52. In addition, the control panel 53 operates the car operation switch 59 for maintenance and inspection and the control panel operation switch 60 installed in the control panel 53 to operate the elevator car 52 for maintenance and inspection. Control.

  FIG. 2 is a block diagram showing the configuration of the safety management system 10. As illustrated in FIGS. 1 and 2, the safety management system 10 includes a safety management server 20, a maintenance server 26, and a work monitoring device 30. The safety management system 10 is a system for remotely managing the safety of an operator who maintains and inspects the elevator 50. The work monitoring device 30 is connected to the control panel 53 of the elevator 50 that controls the lifting operation and the like of the car 52, and monitors the operation pattern of the elevator 50 (car 52) during maintenance and inspection work. The safety management system 10 also includes a maintenance computer 40.

  As will be described later in detail, the work monitoring device 30 causes an abnormality in the worker when the operation pattern of the elevator 50 during maintenance and inspection work is different from the planned operation pattern based on the work schedule data stored in the maintenance server 26. As a result, the safety management server 20 is notified of the information indicating the abnormality. Then, the safety management server 20 executes a predetermined abnormal time process when an abnormality occurs in the worker, that is, when the information notifying the abnormality of the worker is received from the work monitoring device 30.

  The safety management system 10 is configured to individually manage the safety of each worker when there are a plurality of workers whose safety should be managed. That is, according to the safety management system 10, it is possible to independently manage the safety of the workers A and B who work at different sites. When the workers A and B are close to the work site, the workers A and B can cooperate with each other in dealing with an abnormality described later.

  The safety management server 20 is installed, for example, in an information center that remotely manages building equipment including the elevator 50. Communication between the safety management server 20 and the work monitoring device 30 is performed using a wide area communication network (Internet) connected via a router 27. A computer 25 such as a person in charge of management (boss) of the worker is connected to the safety management server 20, so that the safety management system 10 can make an emergency contact as described later to the person in charge of management. It is configured.

  The worker generally comes to the office and then goes to the site with the maintenance computer 40 and the mobile terminal 41 according to the work schedule of the day. The mobile terminal 41 has a function of communicating with the safety management server 20 via the wide area communication network and the router 27, and a function of showing position information (GPS function). An example of the mobile terminal 41 is a smartphone.

  The safety management server 20 is a management device that executes a predetermined abnormality process when receiving information (hereinafter, may be referred to as “abnormality occurrence information”) notifying an abnormality of a worker from the work monitoring device 30. Abnormal time processing means that when an abnormality occurs in a worker, the worker in charge of management, the other workers working in the vicinity of the worker, etc. are dealt with in the event of an abnormality. This is a process to be executed. As a specific example, it is possible to make an emergency contact to the manager or the like to inform the worker that an abnormality may have occurred.

  When the safety management server 20 receives the abnormality occurrence information, the safety management server 20 transmits, for example, an emergency contact message or the like to the computer 25 of the person in charge of management, which informs the operator that an abnormality may have occurred. The safety management server 20 may send an emergency contact message or the like to the mobile terminals 41 of other workers who work near the worker. As a response to the abnormality, the manager in charge of the emergency contact, for example, immediately contacts the mobile terminal 41 of the worker, and when there is no response, goes to confirm the safety of the worker.

  It is preferable that the emergency contact includes information useful for worker safety confirmation and rescue, such as position information of the mobile terminal 41 carried by the worker, maintenance inspection data performed by the worker immediately before the occurrence of an abnormality, and the like. .. If necessary, the safety management server 20 may make an emergency contact with an outside organization such as a fire station in addition to the manager in charge and the neighboring workers. Note that the same method as the conventional method can be applied to the case of abnormality.

  The safety management server 20 includes a work schedule acquisition unit 21 that acquires work schedule data for the day, and an abnormal time processing unit 22. When the abnormality processing means 22 receives the abnormality occurrence information from the work monitoring device 30, the abnormality processing means 22 executes a predetermined abnormality processing such as the above-mentioned emergency notification to the manager. The safety management server 20 is composed of, for example, a computer including a storage unit 23 in which a CPU, a memory, an input / output port, a control program and the like are stored. The function of each of the above means can be realized, for example, by executing a control program stored in the storage unit 23. The safety management server 20 may be composed of a plurality of servers (computers). The maintenance server 26 and the work monitoring device 30 are also configured by computers like the safety management server 20.

  The work schedule acquisition means 21 acquires the work schedule data of the worker on the day from the maintenance server 26, and uses it for managing the safety of the worker. A computer 28 for inputting a work schedule is connected to the maintenance server 26, and the work schedule data of a plurality of workers is stored therein. The work schedule acquisition means 21 acquires the signal indicating that the safety management of the worker based on the operation pattern of the elevator 50 is started, or at a fixed time every day, from the maintenance server 26, the work of the worker on the day. Scheduled data may be acquired. The work schedule data generally includes information such as worker name, work site, work content, work start time, and work end scheduled time.

  The maintenance server 26 may be configured to send the work schedule data of the day to the safety management server 20. When the maintenance server 26 downloads the work schedule data to the maintenance computer 40 carried on site, the maintenance server 26 may send the downloaded data to the safety management server 20. The safety management server 20 may be configured to transmit the work schedule data acquired from the maintenance server 26 to the work monitoring device 30 via the wide area communication network.

  The work monitoring device 30 is a device that is connected to the control panel 53 of the elevator 50 and monitors the operation pattern of the elevator 50. The work monitoring device 30 particularly monitors the operation pattern of the car 52. The work monitoring device 30 informs the safety management server 20 of an abnormality, assuming that an abnormality has occurred to the worker, when the operation pattern of the cage 52 at the time of maintenance and inspection work is different from the planned operation pattern based on the work schedule data. Is issued.

  In the present embodiment, the maintenance computer 40 is connected to the work monitoring device 30 to provide work schedule data used for safety management. The maintenance computer 40 stores the work schedule data of the day acquired from the maintenance server 26 by the download operation of the worker. The maintenance computer 40 may be connected to the control panel 53 of the elevator 50 and used as the work monitoring device 30.

  The work monitoring device 30 includes a work schedule acquisition unit 31, an abnormality reporting unit 32, and a work end signal transmission unit 33. The work schedule acquisition means 31, for example, automatically starts downloading work schedule data when the maintenance computer 40 is connected. The work monitoring device 30 that has acquired the work schedule data sends a signal that notifies the start of safety management based on the operation pattern of the elevator 50 (hereinafter, may be referred to as “field safety management” in distinction from the safety management in the safety management server 20). It may be transmitted to the safety management server 20. The work monitoring device 30, like the safety management server 20, is configured by a computer including a storage unit 34 in which, for example, a CPU, a memory, an input / output port, a control program, and the like are stored.

  The abnormality reporting means 32 monitors the driving pattern of the car 52 and compares the actual driving pattern with the planned driving pattern based on the work schedule. Then, when the actual operation pattern does not match the planned operation pattern, that is, when the actual operation pattern is different from the planned operation pattern, information that informs the safety management server 20 of the abnormality as an abnormality has occurred Information). On the other hand, when the actual driving pattern matches the planned driving pattern, it is not necessary to output a signal informing the safety management server 20 that there is no abnormality. That is, the abnormality reporting means 32 issues an abnormality only when there is a possibility of an abnormality.

  FIG. 3 shows an example of the operation pattern of the car 52 in the maintenance and inspection work. As illustrated in FIG. 3, the operation pattern of the car 52 is such that the car 52 moves from the top floor hall to the bottom floor hall while stopping at each hall and returns to the top floor again. (Test ride inspection), pattern of moving in the hoistway at low speed manual operation (inspection of hoistway), pattern of long stop at the hall on the top floor (machine room work), pattern of long stop time at each hall (hall) Work), there is a long stop pattern at the bottom floor (work around the car), etc.

  As described above, in the maintenance / inspection work of the elevator 50, since there are predetermined characteristic operation patterns, the planned operation pattern can be grasped from the work schedule. Then, by comparing the actual operation pattern with the planned operation pattern, it can be estimated whether or not the work is normally performed. That is, when the actual operation pattern is different from the planned operation pattern, there is a possibility that the worker has an abnormality. Further, since the type of switch operated varies depending on the operation pattern of the car 52, the switch operation information is useful for determining whether or not an abnormality has occurred.

  The abnormality reporting means 32 acquires various data indicating the operation pattern of the car 52 from the control arithmetic unit of the control panel 53 and grasps the actual operation pattern. The data includes the speed of the car 52, the position information of the car 52, the power switch on / off, the states of switches on the car / in the car / machine room (manual / automatic), and the like.

  The work end signal transmission means 33 transmits a work end signal to the safety management server 20 when the connected maintenance computer 40 is disconnected. The worker disconnects the connected maintenance computer 40 from the work monitoring device 30 when the maintenance and inspection work of the elevator 50 is completed, but a work end signal is automatically transmitted to the safety management server 20 in conjunction with the disconnection. To be done. When the safety management server 20 receives the work end signal, the safety management server 20 ends the safety management based on the scheduled work time.

  On the other hand, the safety management server 20 obtains the work schedule data including the scheduled work end time information from the maintenance server 26, and when the work finish signal is not acquired even after the scheduled work finish time has passed a predetermined time, an abnormality is detected by the vendor. A predetermined abnormal process is executed assuming that the error occurs. The predetermined time is not particularly limited, and is set in the range of 0 to 60 minutes, for example.

  Hereinafter, with reference to FIG. 4, an example of a safety management control procedure relating to maintenance and inspection work of the elevator 50 by the safety management system 10 having the above-described configuration will be described in detail.

  FIG. 4 is a flowchart showing a procedure regarding safety management after the worker comes to the office and ends the maintenance and inspection work of the elevator 50. After coming to the office, the worker obtains the work schedule data of the day from the maintenance server 26 (S10). Specifically, the maintenance server 26 is accessed via the company network to download the work schedule data to the maintenance computer 40 carried on site. At this time, the maintenance server 26 sends the downloaded work scheduled data to the safety management server 20 together with a signal notifying that the worker has downloaded the data (S11). The safety management server 20 can perform safety management on the worker by acquiring the work schedule data of the day.

  The worker who arrives at the site first connects the maintenance computer 40 in which the work schedule data of the day is stored to the work monitoring device 30 (S12), and transmits the work schedule data to the work monitoring device 30 (S13). ). The transmission of the work schedule data may be automatically started by connecting the maintenance computer 40. The procedure of S13 is executed by the work schedule acquisition means 31. The work monitoring device 30 may be permanently installed in the upper machine room of the elevator 50, for example, and is connected to the control panel 53 of the elevator 50 at the time of maintenance and inspection.

  Next, the work monitoring device 30 that has acquired the work schedule data transmits a signal notifying the start of the safety management (site safety management) based on the operation pattern of the elevator 50 to the safety management server 20 (S14) to perform the site safety management. Start. The safety management server 20 monitors the driving pattern of the car 52 and compares the actual driving pattern with the planned driving pattern based on the work schedule (S15, S16). As described above, the abnormality reporting means 32 acquires various data indicating the operation pattern of the car 52 from the control arithmetic unit of the control panel 53 and grasps the actual operation pattern.

  If the driving pattern of the car 52 does not match the planned driving pattern, that is, if the actual driving pattern is different from the planned driving pattern, an abnormality is reported to the safety management server 20 as an abnormality of the worker. (S17). The procedure from S15 to S17 is executed by the abnormality reporting means 32. Upon receiving the abnormality occurrence information, the safety management server 20 executes a predetermined abnormality process such as making an emergency contact with the manager in charge (S18, S19). The procedure of S18 and S19 is executed by the abnormal time processing means 22. The safety management server 20 may output a voice or a buzzer sound from the speaker of the mobile terminal 41 to notify the surroundings of the occurrence of the abnormality.

  The worker disconnects the connected maintenance computer 40 from the work monitoring device 30 when the maintenance and inspection work of the elevator 50 is completed. When the maintenance computer 40 is disconnected, the work monitoring device 30 transmits a work end signal notifying that the work has been completed to the safety management server 20 (S20, S21). The procedure of S20 and S21 is executed by the work end signal transmitting means 33. When the safety management server 20 receives the work end signal, the safety management server 20 ends the safety management based on the scheduled work time (S22). The safety management server 20 executes a predetermined abnormal condition process assuming that an abnormality has occurred in the worker when the work end signal is not acquired within a predetermined time from the scheduled work end time based on the work schedule data (S22). , S19).

  As described above, according to the safety management process described above, the safety management of the worker is automatically performed by comparing the operation pattern of the elevator 50 during maintenance and inspection work with the planned operation pattern based on the work schedule data. It is possible to confirm the safety of workers quickly and accurately. Further, since the burden on the worker does not increase even if the frequency of safety confirmation is increased, the frequency of safety confirmation can be increased and a quick response to an abnormality can be realized without increasing the burden on the worker.

  10 safety management system, 20 safety management server, 21,31 work schedule acquisition means, 22 abnormal time processing means, 23,34 storage unit, 25,28 computer, 26 maintenance server, 27 router, 30 work monitoring device, 32 abnormal occurrence Reporting means, 33 work completion signal transmitting means, 40 maintenance computer, 41 portable terminal, 50 elevator, 51 hoistway, 52 car, 53 control panel, 54 hoisting machine, 55 counterweight, 56 main rope, 57 encoder, 58 car operation panel, 59 car operation switch, 60 control panel operation switch

Claims (4)

A system for remotely managing the safety of workers who perform maintenance and inspection work on equipment,
A safety management server that executes a predetermined abnormality process when an abnormality occurs in a worker,
A maintenance server that stores work schedule data of workers,
A work monitoring device that is connected to the equipment and monitors an operation pattern of the equipment, wherein an abnormality occurs in a worker when the operation pattern at the time of work is different from a planned operation pattern based on the work schedule data. A work monitoring device that issues information notifying the safety management server of abnormality,
A safety management system comprising: The safety management system according to claim 1,
Further equipped with a maintenance computer,
The safety management system, wherein the maintenance computer stores the work schedule data of the day acquired from the maintenance server, and is connected to the work monitoring device to provide the work schedule data. The safety management system according to claim 2,
The work monitoring device is configured to send a work completion signal to the safety management server when the connected maintenance computer is disconnected.
The safety management server acquires the work schedule data including information on a scheduled work end time from the maintenance server, and when the work end signal is not acquired even after a predetermined time from the scheduled work end time, the predetermined work A safety management system characterized by executing abnormal time processing. The safety management system according to any one of claims 1 to 3,
The safety management system, wherein the facility is an elevator.

Images