JP2009003872A - Action history management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress the power consumption of a position information transmission apparatus. <P>SOLUTION: An action history management system 11 is provided with a position information transmission apparatus 12 which is carried by each worker, a position detecting means 21 which detects the position of a worker based on the position information transmitted by the position information transmission apparatus 12 and an action history recording means 22 which records the action history of a worker in a file. The position detecting means 21 is provided with a position judgment means 26 which judges whether a worker is in or outside of a plant 2. When the worker is judged to be outside of the plant 2 by the position judgment means 26, the position information transmission apparatus 12 is switched from a normal mode to a power save mode. The power consumption of the battery in the position information transmission apparatus 12 is suppressed, and the charging frequency of the batteries can be reduced. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an action history management system, and more particularly to an improvement of an action history management system for recording, for example, an action history of an operator in a factory.

Conventionally, in a factory where a plurality of production facilities are arranged, it has been proposed to allow a worker who works in the factory to have a location information transmission device and grasp the worker's action history during working hours. (For example, Patent Document 1).
JP 2003-140728 A

In the above-described conventional behavior history management system, during work hours, each worker has a location information transmission device and records the behavior history, thereby efficiently arranging workers in the factory and Used for work analysis to improve work efficiency.
However, in the conventional action history management system, since the position information transmission device of each worker is turned on during all working hours, the power consumption of the battery of the position information transmission device becomes faster, and therefore However, there is a drawback in that the frequency of charging the battery of each position information transmission device increases.
In addition, when the worker leaves the factory temporarily during the break, there is no need to record the action history information of the worker, and in such a case, the power consumption of the location information transmission device is suppressed. Was requested.

In view of the above-described circumstances, the present invention described in claim 1 is a position information transmitting device that is carried by an operator or attached to the worker and transmits position information, and a position transmitted from the position information transmitting device. An action comprising position detection means for detecting the position of the worker based on the information, and action history recording means for recording the position information of the worker detected by the position detection means as an action history together with the detected time In the history management system,
The position detection means includes an area setting means for setting a target area for obtaining an action history of the worker, and whether the worker is inside or outside the target area based on position information from the position information transmission device. The position information transmitting device includes a normal mode for transmitting position information at a normal frequency, and a power saving mode for transmitting position information at a frequency lower than the normal mode. With
The position information transmitting device transmits position information in a normal mode when the position determining means determines that the worker is within the target area, and when the position determining means determines that the worker is outside the target area. The location information is transmitted in the power saving mode.

  According to the configuration described above, when the worker is outside the target area, the location information transmission device transmits the location information in the power saving mode. Thus, the frequency of charging the battery of the position information transmission device can be reduced.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 1 denotes a bottling line for filling a plastic bottle with a beverage, and the bottling line 1 is disposed in a factory 2 having a required size. . The factory 2 is provided with two entrances 2A, 2B so that an operator enters the factory 2 through these entrances 2A, 2B to perform operations such as operation of the bottling line 1 and inspection / model change. It has become.

The bottling line 1 includes a plurality of facilities 1A to 1F that perform different processes on the PET bottles, and each conveyor 3 that is disposed between the facilities adjacent to each other and conveys the PET bottles to downstream facilities. And a conveyor 4 disposed on the downstream side adjacent to the most downstream facility 1F.
The following processing is performed by the facilities 1A to 1F of the bottling line 1. That is, a large number of empty PET bottles are taken out from the case by the first equipment 1A (bulk depalletizer), and these PET bottles are supplied onto the first transfer conveyor 3, and then the transfer conveyor 3 Is supplied to the second facility 1B (rinser). The inside and outside of the PET bottles are cleaned by the equipment 1B, and the washed PET bottles are transported by the second transport conveyor 3 to the third equipment 1C (filler capper) on the adjacent downstream side.
When the third equipment 1C is filled with beverages and then capping, the PET bottles are then transported by the third transport conveyor 3 to the fourth equipment 1D (labeler). In the fourth facility 1D, labeling on the plastic bottle is performed.
The PET bottles that have been completed up to labeling are transported to the fifth facility 1E (wrap round caser) by the fourth transport conveyor 3, and are collected by the facility 1E for each predetermined number and accommodated in a case (not shown). It is like that.
Each case in which the PET bottle is accommodated by the facility 1E is transported by the fifth transport conveyor 3 to the sixth facility 1F (palletizer) on the downstream side. The facility 1F is configured to place a predetermined number of cases containing PET bottles on the pallet, and the pallet on which the case is placed is discharged by the conveyor 4 toward the downstream side. It has become.
These facilities 1A to 1F are provided with control means 6A to 6F made of PLC, respectively, and their operations are controlled.
In addition, since the structure of such a bottling line 1 is conventionally well-known, detailed description regarding each equipment 1A-1F, such as a bulk depalletizer, a rinser, a filler, and a labeler mentioned above is abbreviate | omitted.

In order to smoothly operate the facilities 1A to 1F of the bottling line 1, a plurality of workers (O1 to On) at the site enter the factory 2 individually or simultaneously and enter the facilities 1A to 1F. On the other hand, operations such as remodeling, adjustment, inspection, and repair are necessary, and operations such as operation / stop of the facilities 1A to 1F and change of settings performed at that time are performed by the facility operation system 5.
The facility operation system 5 is incorporated in a portable terminal 7 possessed by each worker O1 to On. Each portable terminal 7 is an operation means for transmitting equipment control signals to the control means 6A to 6F of the equipment 1A to 1F by being operated by the workers O1 to On.
The control means 6A to 6F and the portable terminal 7 are capable of wireless communication via communication means such as a wireless LAN, respectively, and an equipment control signal is transmitted from the portable terminal 7 to the control means 6A to 6F. The facility information is transmitted from 6A to 6F to the portable terminal 7.

  In addition, the portable terminal 7 is set so that each equipment can be controlled only in the vicinity of each equipment 1A-1F. Therefore, each worker O1-On on-site approaches the equipment that is carrying the operation by carrying the mobile terminal 7 when operating each equipment, and controls the equipment 1A-1F from the mobile terminal 7 By transmitting the required control signals to 6A to 6F, the required operations such as remodeling, adjustment, inspection, repair, etc., and operation / stop of each equipment 1A to 1F and change of settings are performed. ing.

Therefore, in this embodiment, the action history management system 11 is provided in order to grasp the action history in the factory 2 of the workers O1 to On in the field.
That is, as shown in FIG. 2, the action history management system 11 has a built-in position sensor for measuring the position of an acceleration sensor, a magnetic sensor, etc., and is attached to each of the workers O1 to On for each required time. The position information transmitting device 12 that transmits position information, and the position detection means 21 that detects the positions of the workers O1 to On from the position information transmitted from the respective position information transmitting devices 12 and the action history of the workers O1 to On are displayed. A personal computer (hereinafter referred to as a PC) in which an action history recording means 22 for recording is incorporated, and a communication means capable of wirelessly communicating information between the position information transmitting device 12 and the PC.
The position information transmission device 12 comprises a position information calculation means 12A for calculating its own position information based on a measurement value by a built-in position sensor, a transmission / reception unit of a PC, and a communication means. A transmission / reception unit 12C for transmitting and receiving, a mode switching unit 12B for switching the frequency of calculating position information with respect to the position information calculation unit 12A, and a clock 12D for checking time are provided.

The mode switching unit 12B is configured to switch the position information transmission device 12 between a normal mode in which the position information calculation unit 12A calculates position information and transmits the position information to the PC-side position detection unit 21 and a power saving mode in which the frequency is low. Are to be switched. As a result, in the power saving mode, compared with the normal mode, even if the power required from detection of position information to transmission per transmission is the same, the power consumption of the battery of the position information transmission device 12 can be reduced by reducing the number of times. It can be suppressed.
The position information transmitting device 12 having such a configuration is attached to the work clothes or hats of the workers O1 to On, and the position information of each position information transmitting device 12 during working hours is recorded as action history recording means 22 described later. By recording with, it is possible to grasp the action history of each worker O1 to On wearing each position information transmission device 12.

The PC includes a position detection means 21 for detecting the position of each position information transmitting device 12, an action history recording means 22 for recording the action history of each worker O1 to On as time-series position information, and each position information. A transmission / reception unit 12C of the transmission device 12, a transmission / reception unit 23 that transmits and receives information via radio, and a clock 24 that transmits time are incorporated.
The position detection means 21 stores in advance a wide range of map information surrounding the factory 2, and each position information transmitter is based on the position information transmitted from the position information calculation means 12A of each position information transmission device 12. 12 where the workers O1 to On wearing the 12 are located on the map.
Further, the position detecting means 21 is based on area setting means 25 for setting a target area for obtaining an action history of an operator in the map and position information transmitted from each position information transmitting device 12. Position determining means 26 for determining whether the workers O1 to On are inside or outside the target area (in the factory 2) is provided.
In this embodiment, the target area set by the area setting means 25 is an area in the factory 2 that requires the action history of the workers O1 to On on the map.
As shown in FIG. 1, the area where communication by the communication means can be performed is a position detectable area where the PC can receive from the position information transmission device 12, and is a wide area surrounding not only the factory 2 but also the factory 2. ing.

The position determination means 26 determines whether each of the workers O1 to On is in the factory 2 or outside the factory 2 based on the position information from the position information calculation means 12A of each position information transmission device 12. It is supposed to be.
As a result of the determination by the position determination means 26, when the workers O1 to On are in the factory 2, the mode switching means 12B of the position information transmission device 12 attached to each worker O1 to On is set to the normal mode. So that the command is issued. On the other hand, as a result of the determination by the position determination unit 26, when the workers O1 to On have left the factory 2, the PC switches the mode switching unit 12B of the position information transmission device 12 attached to the worker outside the factory 2. In response to this, a command is issued to switch from the normal mode to the power saving mode.
Note that the mode is switched depending on whether the workers O1 to On are on the same side inside and outside the target area continuously for a predetermined time.
The action history recording unit 22 includes a storage unit. When action history information including identification information, position information, and time of the workers O1 to On is acquired from the position detection unit 21, one action created in the storage unit is obtained. The history file is recorded sequentially in time series. Since the action history of the workers O1 to On is recorded only in the factory 2 which is the target area, when the workers O1 to On go outside the factory 2, the file is recorded. The recording of the action history information in the file is resumed when the worker enters the factory 2.

The operation of the action history management system 11 configured as described above will be described.
The area setting means 25 of the action history management system 11 presets an area in the factory 2 as an action history target area based on a previously stored map (see S1 in FIGS. 1 and 4A).
Then, the worker O1 enters the factory 2 from the first entrance 2A after switching on the position information transmission device 12 of the worker O1 outside the factory 2.
Then, the position information transmitting device 12 of the worker O1 is operated in the normal mode, and the position information calculated by the position information calculating unit 12A is transmitted to the position detecting unit 21 every second.

Since the position information transmitting device 12 is in the normal mode, the position information calculated by the position information calculating unit 12A from the position information transmitting device 12 every second is detected by the position detecting unit via the communication unit including the transmitting / receiving units 12C and 23. 21 is transmitted.
The position detector 21 detects the position of the worker O1 in the factory 2 every second based on the position information transmitted from the position information transmitter 12 every second.
Then, the position information of the worker O1 per second detected by the position detection means 21 is transmitted to the action history recording means 22 in time series as an action history and recorded in the action history file. FIG. 3 shows an example of action history information when there are two workers O1 and On in the factory 2. Here, latitude and longitude are used for specifying the position, and as described above, the position information of each worker O1, On is recorded in the action history file every time 1 second elapses.
Next, the position determination means 26 determines whether the position of the worker O1 per second by the position detection means 21 is inside or outside the factory 2 (see S2 in FIG. 4A). As long as the worker O1 is performing operations such as adjustment and inspection of the bottling line 1 in the factory 2, the position determination means 26 determines that the worker O1 is in the factory 2. In this case, the position information transmission device 12 is continuously operated in the normal mode.

As described above, when the worker O1 is working in the factory 2, the position information transmission device 12 attached to the worker O1 is operated in the normal mode, and after that, the position information transmission device 12 continues for 1 second. The position information is transmitted to the position detecting means 21 every time.
On the PC side, the position information of the worker O1 transmitted from the position information transmission device 12 is detected by the position detection means 21 and the detected position is recorded in the action history file by the action history recording means 22. It is like that.

Next, when the worker O1 finishes the required work on the bottling line 1 in the factory 2 during working hours and exits from the first entrance 2A or the second entrance 2B to the outside of the factory 2, position information is transmitted. Based on the position information transmitted from the device 12, the position detecting means 21 detects the position of the worker O1. When the worker O1 continues outside the factory 2 for a predetermined time, the position determination means 26 determines that the worker O1 has left the factory 2 (see S3 in FIG. 4 (a)), and the position. The determination unit 26 issues a command to the mode switching unit 12B of the position information transmission device 12 to switch from the normal mode to the power saving mode that consumes less power (see S4 in FIG. 4A).
As a result, the position information transmitting device 12 is switched to the power saving mode by the mode switching means 12B. Thereafter, the position information calculated by the position information calculation means 12A is transmitted to the position information detection means 21 every 30 seconds via the communication means including the transmission / reception units 12C and 23.

However, when the worker O1 is outside the factory 2, that is, when the position information transmission device 12 is operated in the power saving mode, the action history recording unit 22 detects the position of the worker O1 detected by the position detection unit 21. Is not recorded in the action history file.
Next, when the operator O1 enters the factory 2 again from the entrance 2A or 2B for the adjustment operation of the bottling line 1 or the like, the position information calculated by the position information calculation means 12A of the position information transmission device 12 is detected. It is transmitted to the means 21 (see S11 in FIG. 4B).

Then, the position determination unit 26 determines whether the position of the worker O1 detected by the position detection unit 21 is in the factory 2 or outside (see S12 in FIG. 4B). Then, by staying in the factory 2 for a predetermined time, the position determination means 26 determines that the worker O1 has entered the factory 2 (see S13 in FIG. 4 (b)), and the mode switching means of the position information transmitting device 12 is determined. A command is issued to the position information transmission device 12 so as to switch from the power saving mode to the normal mode with respect to 12B (see S14 in FIG. 4 (b)).
In response to this switching command, the mode switching means 12B of the position information transmission device 12 switches from the power saving mode to the normal mode. Thereafter, the position information detected by the position information calculation means 12A of the position information transmission mechanism 12 is transmitted to the position detection means 21 of the PC via the communication means comprising the transmission / reception units 12C and 23 every second. .
While the worker O1 is working in the factory 2, the position information transmission device 12 attached to the worker O1 is operated in the normal mode, and thereafter, the position information is calculated every second from the position information calculation means 12. Is transmitted to the position detecting means 21.
Then, the position detection means 21 detects the position of the worker O1 by the position detection means 21, and records the detected position in the action history file by the action history recording means 22 in time series.
In this way, when the workers O1 to On are in the factory 2, the position information is transmitted from the position information transmitting device 12 of each worker O1 to On every second, and each worker as described above. The action history in the factory 2 is recorded in the action history file.

As described above, the behavior history management system 11 according to the present embodiment acts on the behavior history of each worker only when the workers O1 to On enter the factory 2, which is a target area for obtaining behavior history information. The data is recorded in the history file, and unnecessary position information when the worker is outside the factory 2 is not recorded in the action history file, so that the data volume is suppressed.
When there are workers O1 to On in the factory 2, the position information transmission device 12 attached to each worker O1 to On is operated in the normal mode, while the workers O1 to On are outside the factory 2. Each position information transmission device 12 is operated in the power saving mode. Therefore, in comparison with the conventional location information transmission device that has been operated in the normal mode throughout the working hours inside and outside the factory 2, in this embodiment, the power consumption of the battery of each location information transmission device 12 The frequency of charging the battery of the position information transmission device 12 can be reduced.

Further, in the present embodiment described above, since the behavior history is not recorded when the workers O1 to On are outside the factory 2, the behavior history management system respecting the privacy of the workers O1 to On is obtained. ing.
For example, the following may be considered as an example of using the action history recorded in the action history file described above. That is, the workers O1 to On confirm the measured values of the instruments (for example, thermometers, pressure gauges, etc.) attached to the facilities 1A to 1F every hour, and the workers O1 to On use the handwritten check sheets. In the case of performing the work of filling in, it is possible to confirm whether or not the filling work has been performed at the time actually entered on the check sheet. Therefore, by checking the action history recording file, the supervisor can confirm whether or not the above-described workers O1 to On have been filled in with a check sheet every predetermined time.
In addition, when a part of the facilities 1A to 1F of the bottling line 1 fails, it is possible to identify which worker was near the failure point when the facility has failed, or to the facility before the failure. On the other hand, it can also be estimated by which worker some work was performed.

In the above embodiment, the position information is transmitted every second in the normal mode and the position information is transmitted every 30 seconds in the power saving mode. However, the normal mode and the power saving mode are performed as follows. You may change the frequency of outgoing calls.
That is, the position information transmission device 12 itself can be configured to calculate its own movement distance so that the position information can be transmitted from the transmission / reception unit 12C according to the movement distance of the position information transmission device 12, for example in the normal mode. Then, the position information may be transmitted every time the position information transmission device 12 is moved 1 meter, and the position information may be transmitted every time the position information transmission device 12 is moved 10 meters in the power saving mode.
In this case, the position information may be transmitted when, for example, the transmission stop of the position information exceeds 1 minute so that the position information is not transmitted for a long time.
Moreover, in the Example mentioned above, although the positional information transmission apparatus 12 is provided separately from the equipment operation system 5, the function of the positional information transmission apparatus 12 is provided in the portable terminal 7 which the operator in the equipment operation system 5 possesses. You may have it.
Further, when an information medium capable of wireless communication such as RFID is provided in the vicinity of the first entrances 2A and 2B of the factory 2, and the position information transmitting device 12 of the worker outside the factory 2 detects the RFID, the inside of the factory 2 Alternatively, it may be processed as if the operator entered the room. In the above embodiment, since the position information is transmitted from the position information transmission device 12 to the PC at intervals of 30 seconds before entering the factory 2, an operator enters the factory 2 during the 30 seconds. Even if 30 seconds have passed, the position information is not transmitted. Thus, by providing RFID in the vicinity of the entrances 2A and 2B in this way, it is possible to obtain position information as soon as an operator enters the factory 2.
Furthermore, in the above-described embodiment, the position information transmission device 12 attached to the worker transmits its own position information, but the position information transmission device transmits a signal that simply specifies the position. Alternatively, the position detecting means that has received the signal may calculate the position of the position information transmitting device based on the received signal.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic block diagram which shows one Example of this invention. The figure which shows the structural member of the action history management system 11 in FIG. The figure which shows the example of a recording of the action history information shown in FIG. The figure which shows the process process by the action history management system 11 of FIG.

Explanation of symbols

2 ... Factory (target area) 11 ... Action history management system 12 ... Position information transmission device 21 ... Position detection means 22 ... Action history recording means 25 ... Area setting means 26 ... Position determination means O1 to On ... Worker

Claims (4)

A position information transmitting device that is carried by the worker or attached to the worker and transmits position information; and a position detection means that detects the position of the worker based on the position information transmitted from the position information transmitting device. In an action history management system comprising an action history recording means for recording the position information of the worker detected by the position detection means as an action history together with the detected time,
The position detection means includes an area setting means for setting a target area for obtaining an action history of the worker, and whether the worker is inside or outside the target area based on position information from the position information transmission device. Position determining means for determining
In addition, the location information transmission device includes a normal mode for transmitting location information at a normal frequency and a power saving mode for transmitting location information at a frequency less than the normal mode.
The position information transmitting device transmits position information in a normal mode when the position determining means determines that the worker is within the target area, and when the position determining means determines that the worker is outside the target area. An action history management system characterized by transmitting location information in a power saving mode.   The position information transmitting device transmits position information at a predetermined time interval, and transmits the position information at a time interval longer than that in the normal mode in the power saving mode. Action history management system. The location information transmission device is configured to be able to calculate its own travel distance,
The position information transmitting device transmits position information at a transmission frequency according to the moving distance, and the position information is transmitted at each moving distance longer than that in the normal mode in the power saving mode. The action history management system according to claim 1.   The action history according to any one of claims 1 to 3, wherein the action history recording means records an action record of an operator only when the position information transmitting device is within the target area. Management system.

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