JP2021114175A - Data collection system, control method in data collection system, and control program in data collection system - Google Patents

Abstract

To provide a data collection system that allows work management to be performed with a simple configuration by effectively using existing facilities.SOLUTION: A data collection system includes terminal devices 2A, 2B, and 2C, and a main body device 4. The terminal devices 2A, 2B, and 2C acquire measurement results by sensors and notify the main body device 4 of maintenance information by workers' operations. The main body device 4 performs data communication with the plurality of terminal devices 2A, 2B, and 2C by wireless communication to collect the measurement results acquired by the plurality of terminal devices 2A, 2B, and 2C, records and retains the maintenance information notified from the terminal devices 2A, 2B, and 2C, and detects distance traveled by the workers and time required for travel from the recorded and retained maintenance information based on installation information on the plurality of terminal devices 2A, 2B, and 2C registered in advance.SELECTED DRAWING: Figure 1

Description

The present invention relates to a data collection system, a control method in the data collection system, and a control program in the data collection system.

Conventionally, various devices have been proposed for a data collection system in which terminal devices are installed in each part to be monitored such as a plant and various data obtained from these terminal devices are collected.
Regarding such a data collection system, Patent Document 1 discloses a configuration in which a dedicated device for detecting a worker is sequentially arranged in a movement path of the worker to manage the work.

JP-A-2017-68450

By the way, in such a data collection system, it is desired that the existing equipment can be effectively used and the work can be managed by a simple configuration.

The present invention has been made in consideration of the above points, and an object of the present invention is to make effective use of existing equipment so that work can be managed with a simple configuration.

In order to solve the problem, the invention of claim 1 is
In a data collection system including a plurality of terminal devices for acquiring measurement results by sensors and a main body device for collecting the measurement results acquired by the plurality of terminal devices by communicating data with the plurality of terminal devices by wireless communication.
The terminal device is
Notify the main unit of maintenance information by the operation of the worker,
The main body device
The maintenance information notified from the terminal device is recorded and retained, and the maintenance information is recorded and retained.
Based on the installation information of the plurality of terminal devices registered in advance, the movement distance and the time required for the movement of the worker are detected from the maintenance information recorded and held.

According to the configuration of claim 1, it is possible to effectively utilize the terminal device that acquires the measurement result, detect the moving distance of the worker and the time required for the movement, and evaluate, for example, the degree of fatigue of the worker. This makes it possible to effectively utilize existing equipment and manage work with a simple configuration.

The invention of claim 2 has the configuration of claim 1.
The main body device
Further, the degree of fatigue of the worker is determined based on the moving distance of the worker and the time required for the movement.

According to the configuration of claim 2, work management can be performed in more detail and concretely.

The invention of claim 3 is
Control of a data collection system including a plurality of terminal devices for acquiring measurement results by sensors and a main device for collecting the measurement results acquired by the plurality of terminal devices by communicating data with the plurality of terminal devices by wireless communication. In the method
From the terminal device, the maintenance information by the operation of the worker is notified to the main body device, and the maintenance information is notified to the main body device.
In the main body device
The maintenance information notified from the terminal device is recorded and retained, and the maintenance information is recorded and retained.
Based on the installation information of the plurality of terminal devices registered in advance, the movement distance and the time required for the movement of the worker are detected from the maintenance information recorded and held.

According to the configuration of claim 3, it is possible to effectively utilize the terminal device that acquires the measurement result, detect the moving distance of the worker and the time required for the movement, and evaluate, for example, the degree of fatigue of the worker. This makes it possible to effectively utilize existing equipment and manage work with a simple configuration.

The invention of claim 4 is
In a control program in a data collection system that executes a predetermined processing procedure by execution by an arithmetic processing circuit.
The data collection system
It is provided with a plurality of terminal devices for acquiring measurement results by sensors and a main body device for collecting the measurement results acquired by the plurality of terminal devices by performing data communication with the plurality of terminal devices by wireless communication.
The processing procedure is
A step of recording maintenance information for recording and holding maintenance information operated by a worker notified from the terminal device, and a step of recording maintenance information.
Based on the installation information of the plurality of terminal devices registered in advance, the movement distance and the movement time detection step for detecting the movement distance and the time required for the movement of the worker from the maintenance information recorded and held. To be equipped.

According to the configuration of claim 4, it is possible to effectively utilize the terminal device that acquires the measurement result, detect the moving distance of the worker and the time required for the movement, and evaluate, for example, the degree of fatigue of the worker. This makes it possible to effectively utilize existing equipment and manage work with a simple configuration.

According to the present invention, it is possible to effectively utilize existing equipment and manage work with a simple configuration.

It is a figure which shows the data collection system which concerns on 1st Embodiment of this invention. It is a figure which shows the display example of maintenance information. It is a chart which shows the installation information of a terminal device. It is a chart which shows the table which is used for the determination of the fatigue degree level by the movement distance and the movement time. It is a chart which shows the table of the name of the degree of fatigue.

[First Embodiment]
FIG. 1 is a diagram showing a data collection system according to the first embodiment of the present invention. This data collection system 1 is a system for monitoring a monitoring target such as a plant, and data from terminal devices 2A, 2B, and 2C installed in each part of the monitoring target is collected and recorded by the main body device 4. In this data collection system 1, the data from the terminal devices 2A, 2B, and 2C are the data of the measurement results measured by the terminal devices 2A, 2B, and 2C, whereby the data collection system 1 monitors by the measurement results. Monitor the target.

The data collection system 1 includes terminal devices 2A, 2B, 2C, a relay device 3, a main body device 4, a setting device 5, and a control card 6. The main body device 4 includes a network construction device 7, a server 8, and a monitoring device 9.

Here, the terminal devices 2A, 2B, and 2C acquire the measurement results of temperature, vibration, and the like by the sensor, and output the data of the measurement results to the main body device 4 by data communication by wireless communication. Further, by data communication with the main body device 4, various operations are switched by the control of the main body device 4.
The relay device 3 relays data communication between the terminal devices 2A, 2B and 2C and the main body device 4, and similarly to the terminal devices 2A, 2B and 2C, various operations are switched under the control of the main body device 4.
The terminal devices 2A, 2B, and 2C are configured to function as a relay device for relaying data communication between the other terminal devices 2A, 2B, 2C, the relay device 3 and the main body device 4, whereby the data collection system 1 Then, sufficient redundancy is ensured, and even if an abnormality occurs in some communication paths, data communication can be reliably performed using other communication paths.

These terminal devices 2A, 2B, 2C, and the relay device 3 operate by using the setting device 5 on the terminal devices 2A, 2B, 2C, and the relay device 3 side by data communication by short-range wireless communication with the setting device 5. It is configured to be able to switch and perform various maintenance operations. Note that this maintenance operation is, for example, an operation such as battery replacement or operation check.

Here, the setting device 5 is formed in a flat plate shape so that the control card 6 can be held in close proximity, and acquires and holds control command data from the control card 6 held in close proximity. Further, by operating the operator while holding the terminal devices 2A, 2B, 2C and the relay device 3 in close proximity to each other, the control commands held in the terminal devices 2A, 2B, 2C and the relay device 3 are output.
The control card 6 is a recording medium that records control command data used for switching the operations of the terminal devices 2A, 2B, 2C, and the relay device 3. For example, the control command data prepared and held for each control command is stored. It is output to the setting device 5 by data communication by short-range wireless communication.
As a result, the data collection system 1 records the control command in the setting device 5 using the corresponding control card 6, and further holds the setting device 5 in close proximity to the terminal devices 2A, 2B, 2C, and the relay device 3. The maintenance operation of the terminal devices 2A, 2B, 2C, and the relay device 3 can be executed on the side of the terminal devices 2A, 2B, 2C, and the relay device 3 by a simple operation.
The setting device 5 is prepared for each worker, and when the control command data is output to the terminal devices 2A, 2B, 2C, and the relay device 3, the worker identification information for identifying the worker is set and output.
When the terminal devices 2A, 2B, 2C, and the relay device 3 perform maintenance operations on the terminal devices 2A, 2B, 2C, and the relay device 3 side using the setting device 5 in this way, the maintenance information is notified to the main device 4. do. Here, the maintenance information is information that can identify the maintenance operation by the worker, and includes the worker identification information output from the setting device 5.
Since the maintenance operation can be performed by data communication by short-range wireless communication using the setting device 5 in this way, the terminal devices 2A, 2B, 2C, and the relay device 3 do not need to arrange an operator or the like necessary for the maintenance operation. Maintenance operations can be performed, whereby an explosion-proof structure can be obtained with a simple configuration, and the data collection system 1 can safely collect data at various installation locations.
The maintenance operation of the terminal devices 2A, 2B, 2C, and the relay device 3 may be separately executed by connecting an information terminal device or the like to the terminal devices 2A, 2B, 2C, and the relay device 3, and further, the terminal. An operator or the like may be provided in the devices 2A, 2B, 2C, and the relay device 3, and the operation may be performed by the operation of the operator, and various configurations can be widely applied.
Further, the data collection system 1 may omit the relay device 3 when it is practically sufficient.

In the main body device 4, the network construction device 7 constructs a network by wireless communication with the terminal devices 2A, 2B, 2C, and the relay device 3, and directly or via the relay device 3, other terminal devices 2A, 2B, and 2C. The data from the terminal devices 2A, 2B, and 2C is received and output to the main body device 4. On the contrary, the data output from the main body device 4 is transmitted to the terminal devices 2A, 2B, and 2C.

The server 8 records and holds the measurement results acquired by the terminal devices 2A, 2B, and 2C by acquiring and recording the output data from the network construction device 7. Further, the measurement result recorded and held in this way is provided to the monitor device 9 by the access from the monitor device 9, so that the status of the monitoring target can be confirmed by the display of the monitor device 9 in the data collection system 1. It is composed.

Further, the main body device 4 displays various operation acceptance screens on the monitor device 9 upon access from the monitor device 9, and acquires operation inputs on the operation acceptance screen from the monitor device 9. As a result, the main unit 4 receives instructions such as various settings by the person in charge and switching of operations of the terminal devices 2A, 2B, and 2C, and issues the corresponding control commands via the network construction device 7 to the terminal devices 2A, 2B, and 2C. Output to the relay device 3. As a result, in this data collection system 1, the main body device 4 sets the measurement cycle and the like in the terminal devices 2A, 2B, and 2C, and further, the operation of the terminal devices 2A, 2B, 2C, and the relay device 3 is started and operated. Instruct to stop.

Here, the monitoring device 9 is composed of a computer that can access the server 8.
The network construction device 7, the server 8, and the monitoring device 9 may be integrated in whole or in part to form the main body device 4.

[Fatigue judgment process]
The main unit 4 executes a predetermined processing procedure by executing the control program of the data collection system by the arithmetic processing circuit provided in the server 8.
In this processing procedure, the fatigue degree determination processing is executed according to the instruction from the operator who operates the monitoring device 9.
In this fatigue degree determination process, the main body device 4 records and holds the maintenance information output from the terminal devices 2A, 2B, 2C, and the relay device 3 on the server 8 (maintenance information recording step).
Further, by operating the monitor device 9, the recorded and held maintenance information is displayed on the monitor device 9.

FIG. 2 is a chart showing a display example of this maintenance information. In FIG. 2, the maintenance operation is executed by the worker “A” at “0:00” on the terminal device 2A, and then the maintenance operation is executed at “1:00” by the worker “A” on the terminal device 2B. Is displayed.
The main unit 4 searches for and displays the recorded maintenance information by the date and time of the maintenance operation, the terminal device, the relay device, and the worker according to the operation by the monitor device 9.
As a result, the data collection system 1 can confirm the maintenance operation as needed.

When the maintenance information is recorded in this way and the monitoring device 9 instructs the fatigue degree determination process, the main body device 4 records and holds the maintenance information based on the installation information of the terminal device registered in advance. From the maintenance information that has been performed, the movement distance of the worker and the time required for movement are detected (movement distance, movement time detection step).
Here, the installation information is information on the installation of the terminal devices 2A, 2B, 2C, and the relay device 3 that can detect the moving distance of the worker who moves the installation location of the terminal devices 2A, 2B, 2C, and the relay device 3. ..
In this embodiment, a predetermined reference position (for example, the installation location of the main body device 4) is set as the origin, and a two-dimensional coordinate space is set in the installation area of the terminal devices 2A, 2B, 2C, and the relay device 3. In this way, the two-dimensional coordinate space is set, and the distances from the origins in the X and Y directions are normalized to obtain the X and Y coordinates. The X-coordinate and the Y-coordinate are registered and held in advance as installation information so as to specify.
FIG. 3 is a chart showing installation information in this coordinate space, and the unit of the X coordinate and the Y coordinate is, for example, 1000 m.
As a result, in the example of FIG. 3, the installation location of the terminal device 2A is the X coordinate "1 (1000 m from the origin)", the Y coordinate "1 (1000 m from the origin)", and the installation location of the terminal device 2B is the X coordinate "5 ( It can be seen that the coordinates are "5 (5000 m from the origin)" and the Y coordinate "5 (5000 m from the origin)".
The main body device 4 applies the Pythagorean theorem based on the X and Y coordinates to detect the moving distance of the worker. Specifically, as shown in FIG. 2, when a specific worker executes the maintenance operation of the terminal device 2A based on the maintenance information, and then this worker subsequently executes the maintenance operation of the terminal device 2B, this is the case. The square root of the sum of the squares of the differences between the X and Y coordinates of the terminal devices 2A and 2B is obtained, and in this example, the movement distance is 5.6 (((5-1) ² + (5-1)) in the examples of FIGS. 2 and 3. ² ) ^1/2 ) is required.
Instead of such a two-dimensional coordinate space, the installation information may be expressed by a three-dimensional coordinate space including height information, and the installation information may be expressed by the distance information in the movement path between the actual terminal devices. You may try to express it. Further, the weighting coefficient may be added to this installation information to add the difficulty of movement in the movement route. Further, in detecting the moving distance, the function of the information terminal device carried by the worker (for example, a pedometer) may be used as a reference.

Further, the main body device 4 detects the movement time based on the recording time of the maintenance information used for detecting the movement route. As a result, in the example of FIG. 2, the travel time of 1 hour is detected.
The main body device 4 displays the detected movement distance and movement time on the monitoring device 9 according to the operation of the monitoring device 9.

Further, the main body device 4 determines the degree of fatigue of the worker based on the movement distance of the worker and the time required for the movement detected in this way. More specifically, the main body device 4 detects the fatigue level by determining the multiplication value of the moving distance and the time required for moving, thereby determining the degree of fatigue of the worker.
Here, as shown in FIG. 4, the main body device 4 includes a table for determining the fatigue level based on the movement distance and the movement time, and the fatigue level is detected using this table.
Although the table of FIG. 4 does not describe the items corresponding to the examples of FIGS. 2 and 3, in the examples of FIGS. 2 and 3, the degree of fatigue of the movement distance 5 (5.6) and the movement time 1 The level is detected.

In the example of FIG. 4, it is determined that the longer the moving distance and the longer the moving time, the higher the fatigue level, but when the person runs and moves in a short time, It is considered that the degree of fatigue is higher than when moving over time without running. As a result, the moving distance may be divided by the moving time to detect the moving speed, and the fatigue level may be determined based on the moving speed and the moving time. Various methods may be used to determine the fatigue level. Can be applied.

When the fatigue level is detected in this way, the main body device 4 detects the corresponding fatigue level name so that the degree of fatigue due to the fatigue level can be recognized.
Here, FIG. 5 is a chart showing a table used for detecting the fatigue degree name.
The main body device 4 searches this table based on the detected fatigue level, detects the name of the corresponding fatigue level, and displays the degree of fatigue on the monitor device 9 by this name.
As a result, in this data collection system 1, work can be managed with a simple configuration by effectively utilizing the existing equipment.
Further, if necessary, for example, when an abnormality occurs in the equipment or an accident occurs, it is possible to pay attention to the relationship with the degree of fatigue, and it is possible to further improve the safety management of the equipment.

According to the above configuration, the maintenance information notified from the terminal device is recorded and held, and the movement distance of the worker is obtained from the recorded and held maintenance information based on the installation information of the terminal device registered in advance. By detecting the time required for movement, the terminal device that acquires the measurement result is effectively used to detect the movement distance of the worker and the time required for movement, and evaluate, for example, the degree of fatigue of the worker. This makes it possible to effectively utilize existing equipment and manage work with a simple configuration.

Further, by determining the degree of fatigue of the worker based on the moving distance of the worker and the time required for the movement, the work can be managed in more detail and concretely.

[Other Embodiments]
Although the specific configuration suitable for carrying out the present invention has been described in detail above, the present invention can be variously modified in the configuration of the above-described embodiment without departing from the spirit of the present invention.

1 Data collection system 2A, 2B, 2C Terminal equipment 3 Relay device 4 Main unit 5 Setting device 6 Control card 7 Network construction device 8 Server 9 Monitor device

Claims (4)

In a data collection system including a plurality of terminal devices for acquiring measurement results by sensors and a main body device for collecting the measurement results acquired by the plurality of terminal devices by communicating data with the plurality of terminal devices by wireless communication.
The terminal device is
Notify the main unit of maintenance information by the operation of the worker,
The main body device
The maintenance information notified from the terminal device is recorded and retained, and the maintenance information is recorded and retained.
A data collection system that detects the movement distance of the worker and the time required for the movement from the maintenance information recorded and held based on the installation information of the plurality of terminal devices registered in advance. The main body device
Further, the data collection system according to claim 1, wherein the degree of fatigue of the worker is determined based on the moving distance of the worker and the time required for the movement. Control of a data collection system including a plurality of terminal devices for acquiring measurement results by sensors and a main device for collecting the measurement results acquired by the plurality of terminal devices by communicating data with the plurality of terminal devices by wireless communication. In the method
From the terminal device, the maintenance information by the operation of the worker is notified to the main body device, and the maintenance information is notified to the main body device.
In the main body device
The maintenance information notified from the terminal device is recorded and retained, and the maintenance information is recorded and retained.
A control method of a data collection system that detects the movement distance and the time required for the movement of the worker from the maintenance information recorded and held based on the installation information of the plurality of terminal devices registered in advance. In a control program in a data collection system that executes a predetermined processing procedure by execution by an arithmetic processing circuit.
The data collection system
It is provided with a plurality of terminal devices for acquiring measurement results by sensors and a main body device for collecting the measurement results acquired by the plurality of terminal devices by performing data communication with the plurality of terminal devices by wireless communication.
The processing procedure is
A step of recording maintenance information for recording and holding maintenance information operated by a worker notified from the terminal device, and a step of recording maintenance information.
Based on the installation information of the plurality of terminal devices registered in advance, the movement distance and the movement time detection step for detecting the movement distance and the time required for the movement of the worker from the maintenance information recorded and held. A control program in a data collection system that comprises.

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