JP2020098472A - Information management device, production system, information management method, and program - Google Patents

Abstract

To provide an information management device capable of managing operation log files in a production system in an easy-to-audit state.SOLUTION: An information management device comprises an acquisition unit which acquires each of a plurality of log files generated by a plurality of devices configuring a production system, and a generation unit which generates an integrated file, which is an integration of the plurality of log files. Each operation log includes an operation log element generated each time the corresponding device is operated. The operation log element includes operation date and time information, first identification information for identifying an operator, and content information indicating operation contents. The generation unit generates an integrated file by arranging operation log elements included in the plurality of operation log files in time series on the basis of the operation date and time information.SELECTED DRAWING: Figure 1

Description

The present technology relates to an information management device, a production system, an information management method, and a program.

Japanese Patent No. 6233411 (Patent Document 1) discloses a failure analysis device that analyzes log information output from an information processing system. The failure analysis device adds, to each log element constituting the log information, system component information indicating a system component related to the log element, and integrates each log element to which the system component information is added. Generate integrated log information.

Japanese Patent No. 6233411

The Food and Drug Administration (FDA) regulation "FDA 21 CFR Part 11" requires an audit trail function that records the operation of a production system. In order to satisfy this demand, it is preferable to manage an operation log file indicating which operator and which operator belongs to which group performed what kind of operation at what time. However, the technology described in Japanese Patent No. 6233411 does not assume information management in a production system.

The present invention has been made in view of the above problems, and an object thereof is to provide an information management device, a production system, an information management method, and a program that can manage an operation log file in a production system in an easily auditable state. Is to provide.

According to an example of the present disclosure, an information management device includes an acquisition unit for acquiring a plurality of operation log files respectively generated by a plurality of devices that configure a production system, and an integrated file that integrates a plurality of operation log files. And a generating unit for generating. Each of the plurality of operation log files includes an operation log element generated for each operation on the corresponding device among the plurality of devices. The operation log element has operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content. The generation unit generates an integrated file by arranging the operation log elements included in the plurality of operation log files in time series based on the operation date and time information.

According to this disclosure, an integrated file in which operation date/time information, operator identification information, and content information for each operation are arranged in time series is generated. Accordingly, by checking the integrated file, it becomes easy to easily inspect which operator or operator belonging to which group performed what operation. That is, the information management device can manage the operation log file in the production system in an easily auditable state.

In the above disclosure, each of the plurality of operation log files has an editable file format. The integrated file has a non-editable file format.

According to this disclosure, the generation unit can easily generate the integrated file by using the operation log file having the editable file format. Further, since the integrated file has a non-editable file format, it is possible to prevent manipulation history falsification.

In the above disclosure, the acquisition unit acquires a plurality of operation log files in an encrypted state and decrypts the plurality of operation log files.

According to this disclosure, it is possible to prevent tampering with the operation log file transmitted from the device to the information management device.

In the above disclosure, the generation unit adds, to the operation log element included in each of the plurality of operation log files, the second identification information for identifying the device corresponding to the operation log file.

According to this disclosure, it becomes easy to easily inspect which operator, which operator belongs to which group, and when what operation was performed on which device.

In the above disclosure, the generation unit changes the display format of the operation log element in the integrated file for each device based on the second identification information.

According to this disclosure, when confirming the integrated file, it is possible to easily understand which operation log element corresponds to the operation for which device.

According to an example of the present disclosure, a production system includes the information management device described above and the plurality of devices described above. At least one of the plurality of devices has an output processing unit for outputting an operation log file corresponding to the at least one device, and a file format of the operation log file output from the output processing unit is an editable file. And a switching unit for switching between a format and a non-editable file format.

According to this disclosure, at least one device described above can output an operation log file having a non-editable file format when incorporated in a production system that does not include an information management device. This prevents tampering with the operation log file. In this way, the above-mentioned at least one device can be incorporated into both a production system equipped with an information management device and a production system not equipped with an information management device.

According to an example of the present disclosure, an information management method includes a step of acquiring a plurality of operation log files respectively generated by a plurality of devices constituting a production system, and an integrated file in which the plurality of operation log files are integrated. And steps. Each of the plurality of operation log files includes an operation log element generated for each operation on the corresponding device among the plurality of devices. The operation log element has operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content. The step of generating includes a step of arranging the operation log elements included in the plurality of operation log files in time series based on the operation date and time information.

According to an example of the present disclosure, a program causes a computer to execute the above information management method.

Also by these disclosures, it is possible to manage the operation log file in the production system in an easily auditable state.

According to the present invention, it is possible to manage the operation log file in the production system in an easily auditable state.

It is a schematic diagram which shows the outline of the production system which concerns on this Embodiment. It is a block diagram which shows the hardware structural example of the control apparatus which comprises the production system which concerns on this Embodiment. It is a block diagram which shows an example of the hardware constitutions of the field equipment which comprises the production system 1 which concerns on this Embodiment. It is a block diagram which shows another example of the hardware constitutions of the field equipment which comprises the production system which concerns on this Embodiment. It is a block diagram showing an example of functional composition of field equipment. It is a figure which shows an example of the operation log file produced|generated by the field device. It is a block diagram showing an example of functional composition of a control device. It is a figure which shows an example of the operation log file produced|generated by the control apparatus. It is a figure which shows an example of an integrated file. It is a flowchart which shows the flow of a production|generation process of an operation log file. It is a flow chart which shows a flow of generation processing of an integrated file. It is a sequence diagram which shows the operation example of the production system which concerns on this Embodiment. It is a schematic diagram which shows the outline of the production system which concerns on the modification 2. FIG. 11 is a block diagram showing a hardware configuration of an information management device that constitutes a production system according to Modification 2. FIG. 11 is a block diagram showing a functional configuration of a control device and an information management device that form a production system according to Modification 2. FIG. 13 is a block diagram showing a functional configuration of a field device according to Modification 3.

Embodiments of the present invention will be described in detail with reference to the drawings. It should be noted that the same or corresponding portions in the drawings are designated by the same reference numerals and description thereof will not be repeated.

§1 Application Example First, an example of a scene to which the present invention is applied will be described with reference to FIG. FIG. 1 is a schematic diagram showing an outline of the production system according to the present embodiment. The production system 1 according to the present embodiment executes various processes related to production of industrial products.

As shown in FIG. 1, the production system 1 includes a control device 100, a field device 200 (including field devices 200A and 200B), an operation terminal 300, and an operation terminal 400 (including operation terminals 400A and 400B). , Database 500.

The control device 100 is one of the devices that make up the production system 1, and corresponds to an industrial controller that controls control targets such as various types of equipment and devices. The control device 100 is a kind of computer that executes a control operation for controlling a control target, and may be typically embodied as a PLC (programmable controller). The control device 100 is connected to the field device 200, which is a control target device, via the field network 4 and controls the field device 200. The number of field devices 200 connected to the control device 100 is not particularly limited.

The field device 200 transmits information to and from an actuator that exerts some physical action on a manufacturing apparatus or a production line (hereinafter also collectively referred to as “field”), a sensor that detects a characteristic amount of the field, and a field. Includes input/output devices for exchange. In the example illustrated in FIG. 1, the field device 200A is an image sensor that performs image processing on the image output from the camera 201A and outputs the processing result. The field device 200B is a robot controller that controls the operation of the robot 201B.

The operation terminal 300 and the operation terminal 400 (400A, 400B) are terminals that accept various operations on the target device from the operator 90. In the example illustrated in FIG. 1, the operation terminal 300 is communicably connected to the control device 100 via the field network 2 and receives an operation on the control device 100. Operation terminals 400A and 400B are connected to field devices 200A and 200B, respectively, and accept operations on field devices 200A and 200B, respectively.

The operation terminals 300 and 400 are configured by, for example, a general-purpose computer or HMI (Human Machine Interface), and include a display unit and an input unit.

The operators 90 include an administrator who manages the production system 1, an engineer who changes the design and maintenance of the control device 100 and the field device 200, and an operator who operates the control device 100 and the field device 200 according to the process chart. included.

The control device 100 generates the operation log file 70 indicating the operation history received from the operator 90 via the operation terminal 300. The field devices 200A and 200B also generate operation log files 71A and 71B indicating the operation history received from the operator 90 via the operation terminals 400A and 400B, respectively. Each of the operation log files 70, 71A, 71B includes an operation log element for each operation on the corresponding device. The operation log element has operation date/time information, operator identification information for identifying the operator 90, and content information indicating operation content. The operation log files 70, 71A, 71B have an editable file format (for example, CSV format).

The control device 100 also operates as an information management device that manages the operation log file 70 generated by the control device 100 and the operation log file 71 generated by the field device 200. That is, the control device 100 acquires the operation log file 70 generated by the control device 100 and the operation log files 71A, 71B generated by the field devices 200A, 200B, respectively. The control device 100 generates an integrated file 80 that integrates the acquired operation log files 70, 71A, 71B. Specifically, the control device 100 arranges the operation log elements (operation date/time information, operator identification information, and content information) included in the operation log files 70, 71A, 71B in time series based on the operation date/time information. To generate the integrated file 80. The integrated file 80 has a non-editable file format (for example, PDF format). The control device 100 stores the generated integrated file 80 in the database 500. The database 500 is connected to the control device 100 via the local network 6.

In this way, the integrated file 80 in which the operation date/time information, the operator identification information, and the content information for each operation on the plurality of devices (the control device 100 and the field devices 200A and 200B) configuring the production system 1 are arranged in time series. Is generated. As a result, by checking the integrated file 80, it becomes easy to easily inspect which operator performed what operation when. That is, the control device 100, which operates as an information management device, can manage the operation log file in the production system 1 in an easily auditable state.

Further, since the integrated file 80 has a non-editable file format, it is possible to prevent manipulation history falsification.

§2 Specific Example Next, a specific example of the production system according to the present embodiment will be described.

<A. Example of hardware configuration of control device>
FIG. 2 is a block diagram showing a hardware configuration example of the control device that constitutes the production system according to the present embodiment. Referring to FIG. 2, the control device 100 includes a processor 102 such as a CPU (Central Processing Unit) and an MPU (Micro-Processing Unit), a chipset 104, a main storage device 106, a secondary storage device 108, A local network controller 110, a memory card interface 114, an internal bus controller 122, fieldbus controllers 118 and 120, and I/O (Input/Output) units 124-1, 124-2,... Are included.

The processor 102 reads various programs such as the control program 112 and the management program 113 stored in the secondary storage device 108, expands the programs in the main storage device 106, and executes the programs to perform control according to the control target, and An information management process as will be described later is realized. The chipset 104 realizes processing as the entire control device 100 by controlling the processor 102 and each component.

The local network controller 110 controls the exchange of data with other devices via the local network 6. The memory card interface 114 is configured such that the memory card 116 can be attached and detached, and data can be written in the memory card 116 and various data can be read from the memory card 116.

The internal bus controller 122 is an interface that exchanges data with the I/O units 124-1, 124-2,... Mounted on the control device 100.

The fieldbus controller 118 controls exchange of data with other devices via the field network 2. Similarly, the fieldbus controller 120 controls the exchange of data with other devices via the field network 4.

The processing in the control device 100 is realized by the control program 112 and the management program 113 executed by the processor 102. The control program 112 and the management program 113 are stored in the secondary storage device 108 in advance. Alternatively, the control program 112 and the management program 113 may be stored in the memory card 116 and distributed as a program product. Alternatively, the control program 112 and the management program 113 may be provided as program products that can be downloaded by an information provider that is connected to the so-called Internet.

FIG. 2 shows a configuration example in which necessary functions are provided by the processor 102 executing a program. However, some or all of the provided functions may be provided in a dedicated hardware circuit (for example, ASIC). (Application Specific Integrated Circuit) or FPGA (Field-Programmable Gate Array) etc. may be used for mounting. Alternatively, the main part of the control device 100 may be realized by using hardware according to a general-purpose architecture (for example, an industrial personal computer based on a general-purpose personal computer). In this case, a virtualization technique may be used to execute a plurality of OSs (Operating Systems) having different purposes in parallel and execute necessary applications on each OS.

<B. Example of hardware configuration of field device>
FIG. 3 is a block diagram showing an example of the hardware configuration of the field device that constitutes the production system 1 according to the present embodiment. FIG. 3 shows the hardware configuration of the field device 200A that operates as an image sensor. The field device 200A typically has a structure according to a general-purpose computer architecture.

More specifically, the field device 200A communicates with a processor 210 such as a CPU or MPU, a RAM 212, a system controller 216, an I/O controller 218, a hard disk 220, a camera interface 222, and a controller interface 226. An interface 228 and a memory card interface 230 are included. These respective units are connected to each other so as to be able to perform data communication with each other around the system controller 216.

The processor 210 exchanges programs (codes) and the like with the system controller 216 and executes them in a predetermined order to realize the target arithmetic processing.

The system controller 216 is connected to the processor 210, the RAM 212, and the I/O controller 218 via a bus, exchanges data with each unit, and controls the entire field device 200A.

The RAM 212 is typically a volatile storage device such as a DRAM (Dynamic Random Access Memory), and is a program read from the hard disk 220, an image (image data) captured by the camera 201A, and an image processing result. And so on.

The I/O controller 218 controls data exchange with a recording medium connected to the field device 200A or an external device. More specifically, the I/O controller 218 is connected to the hard disk 220, the camera interface 222, the controller interface 226, the communication interface 228, and the memory card interface 230.

The hard disk 220 is typically a non-volatile magnetic storage device, and stores various set values and the like in addition to the program executed by the processor 210.

The camera interface 222 corresponds to an input unit that receives image data captured by the camera 201A, and mediates data transmission between the processor 210 and the camera 201A. The camera interface 222 includes an image buffer for temporarily storing the image data from the camera 201A.

The controller interface 226 mediates data transmission between the processor 210 and the control device 100.

The communication interface 228 mediates data transmission between the processor 210 and the operation terminal 400A. The communication interface 228 is typically composed of Ethernet (registered trademark), USB (Universal Serial Bus), or the like.

The memory card interface 230 mediates data transmission between the processor 210 and the recording medium 232.

FIG. 4 is a block diagram showing another example of the hardware configuration of the field device that constitutes the production system according to the present embodiment. FIG. 4 shows the hardware configuration of the field device 200B that operates as a robot controller. Referring to FIG. 4, field device 200B includes a robot interface 234 instead of camera interface 222 as compared to field device 200A shown in FIG. The robot interface 234 mediates data transmission between the I/O controller 218 and the robot 201B.

<C. Example of mechanical structure of field device>
FIG. 5 is a block diagram showing an example of the functional configuration of the field device. FIG. 5 shows a functional configuration relating to the generation of the operation log file. Referring to FIG. 5, field device 200 includes a reception unit 21, a control unit 22, an operation log generation unit 23, a storage unit 24, and an output processing unit 25. The accepting unit 21 is realized by the I/O controller 218 and the communication interface 228 shown in FIG. 3 or 4. The control unit 22, the operation log generation unit 23, and the output processing unit 25 are realized by the processor 210 shown in FIG. 3 or 4 executing a program loaded in the RAM 212. The storage unit 24 is realized by the hard disk 220 shown in FIG. 3 or 4.

The reception unit 21 receives an operation instruction from the operator 90 via the corresponding operation terminal 400. The operation instructions that can be accepted by the acceptance unit 21 include a login instruction, a logout instruction, an instruction to edit various data, an instruction to delete various data, an instruction to save various data, an instruction to add a user, an instruction to delete a user, an instruction to execute a program, and a program end. Various instructions such as instructions are included.

The control unit 22 executes control according to the operation instruction accepted by the acceptance unit 21. For example, when the login instruction is accepted, the control unit 22 authenticates the user by collating the user ID (Identification) input to the operation terminal 400 with the registration information. When the instruction to change the setting of the data indicating the operating condition is received, the control unit 22 changes the setting of the data according to the information input to the operation terminal 300.

The operation log generation unit 23 generates an operation log element corresponding to the operation instruction every time the reception unit 21 receives the operation instruction. The operation log element includes at least operation date/time information indicating the date/time when the operation instruction is received, operator identification information identifying the operator who inputs the operation instruction, and content information indicating the operation content. The operation log generation unit 23 may generate the operation date/time information based on the clock provided in the field device 200. The operation log generation unit 23 outputs the operator identification information based on the user ID input at the time of login. Just generate it. The operation log generation unit 23 may store a table indicating the correspondence between the operation instruction and the content information in advance, and read the content information corresponding to the operation instruction received from the table.

The operation log generation unit 23 accumulates the generated operation log element on the data memory of the storage unit 24.

FIG. 6 is a diagram showing an example of the operation log file generated by the field device. FIG. 6 shows an operation log file 71A generated by the field device 200A which is an image sensor. The operation log file 71 has an editable file format (for example, CSV format).

As shown in FIG. 6, the operation log file 71 includes an operation log element 710 generated for each operation instruction. The plurality of operation log elements 710 are arranged in time series in the operation log file 71.

Each operation log element 710 includes operation date/time information 701 including operation date information 702 and operation time information 703, operator identification information 704, and content information 705. The operation log element 710 in the example shown in FIG. 6 further includes additional information 706. The attached information 706 includes information for identifying the image processing program for the image captured by the camera 201A.

Returning to FIG. 5, the output processing unit 25 executes a process of outputting data to an external device. For example, the output processing unit 25 executes an I/O refresh process of transmitting/receiving data to/from the control device 100 via the field network 4. Upon receiving a transmission instruction of the operation log file 71 from the control device 100, the output processing unit 25 generates the operation log file 71 based on the operation log elements accumulated in the storage unit 24, and controls the generated operation log file 71. Send to the device 100.

<D. Example of mechanical configuration of control device>
FIG. 7 is a block diagram showing an example of the functional configuration of the control device. With reference to FIG. 7, the control device 100 includes a reception unit 11, a control unit 12, an operation log generation unit 13, a storage unit 14, an I/O processing unit 15, an acquisition unit 16, and an integrated file generation. The unit 17 and the deleting unit 18 are included. The reception unit 11 is realized by the fieldbus controller 118 shown in FIG. The I/O processing unit 15 is realized by the fieldbus controller 120 shown in FIG. The control unit 12 and the operation log generation unit 13 are realized by the processor 102 shown in FIG. 2 executing the control program 112. The acquisition unit 16, the integrated file generation unit 17, and the deletion unit 18 are realized by the processor 102 shown in FIG. 2 executing the management program 113. The storage unit 14 is realized by the main storage device 106 and the secondary storage device 108 shown in FIG.

The reception unit 11 receives an operation instruction from the operator 90 via the operation terminal 300. The operation instruction that can be accepted by the acceptance unit 11 includes an instruction to output an integrated file, in addition to the operation instruction that can be accepted by the acceptance unit 21.

The control unit 12 executes control according to the operation instruction accepted by the acceptance unit 11. The operation log generation unit 13 generates an operation log element corresponding to the operation instruction each time the reception unit 11 receives the operation instruction. The operation log generation unit 13 stores the generated operation log element in the data memory of the storage unit 14. The processing content of the operation log generation unit 13 is the same as the processing content of the operation log generation unit 23 of the field device 200. Therefore, detailed description of the processing content is omitted.

FIG. 8 is a diagram showing an example of an operation log file generated by the control device. The operation log file 70 has an editable file format (for example, CSV format). As shown in FIG. 8, the operation log file 70 includes an operation log element 700 generated for each operation instruction. The plurality of operation log elements 700 are arranged in time series in the operation log file 70.

Similar to the operation log element 710 shown in FIG. 6, each operation log element 700 includes operation date/time information 701 including operation date information 702 and operation time information 703, operator identification information 704, and content information 705. The operation log element 700 may further include additional information.

Returning to FIG. 7, the I/O processing unit 15 transmits/receives data (I/O refresh processing) to/from the field device 200 via the field network 4.

When the receiving unit 11 receives the output instruction of the integrated file, the acquisition unit 16 generates the operation log file 70 based on the operation log element accumulated in the storage unit 14. Further, the acquisition unit 16 controls the I/O processing unit 15 so as to receive the operation log file 71 from each field device 200 by the I/O refresh processing. As a result, the acquisition unit 16 acquires the operation log file 71 from each field device 200 via the I/O processing unit 15.

The integrated file generation unit 17 generates an integrated file 80 that integrates the operation log files 70 and 71 acquired by the acquisition unit 16. Specifically, the integrated file generation unit 17 performs the following processing.

The operation log files 70 and 71 have editable file formats as described above. The integrated file generation unit 17 divides the operation log file 70 into operation log elements 700 and the operation log file 71 into operation log elements 710.

The integrated file generation unit 17 adds, to the operation log elements 700 and 710 included in each of the plurality of operation log files, device identification information that identifies a device corresponding to the operation log file. The integrated file generation unit 17 may add the device identification information to the operation log element based on the acquisition destination of the operation log file.

The integrated file generation unit 17 generates the integrated file 80 by arranging the operation log elements 700 and 710 in time series based on the operation date/time information 701. At this time, the integrated file generation unit 17 generates the integrated file 80 having a non-editable file format (for example, PDF format).

FIG. 9 is a diagram showing an example of the integrated file. The integrated file 80 of the example shown in FIG. 9 is generated by integrating the operation log file 71A shown in FIG. 6 and the operation log file 70 shown in FIG. Referring to FIG. 9, the integrated file 80 includes a plurality of operation log elements 800. Each of the plurality of operation log elements 800 corresponds to one of the operation log element 710 forming the operation log file 71A and the operation log element 700 forming the operation log file 70. The plurality of operation log elements 800 are arranged in time series based on the operation date/time information 701.

Similar to the operation log elements 700 and 710, each operation log element 800 includes operation date/time information 701 including operation date information 702 and operation time information 703, operator identification information 704, and content information 705. Each operation log element 800 further includes device identification information 707 for identifying the corresponding device (control device 100, field devices 200A, 200B). The operation log element 800 corresponding to the operation log element 710 further includes additional information 706. When the operation log element 700 includes additional information, the operation log element 800 corresponding to the operation log element 700 may also include the additional information.

By checking the integrated file 80 as shown in FIG. 9, it becomes easy to easily inspect which operator performed what operation with respect to which device over time.

Note that, as shown in FIG. 9, when generating the integrated file 80, the integrated file generation unit 17 determines whether the display format of the operation log element 800 in the integrated file 80 differs for each device based on the device identification information 707. You may let me. In the example shown in FIG. 9, the integrated file generation unit 17 makes the background pattern of the operation log element 800 different for each device. The method of changing the display format is not limited to this. For example, the integrated file generation unit 17 may change the character color, background color, etc. of the operation log element 800 for each device. This allows the inspector to easily understand which operation log element 800 indicates an operation for which device when checking the integrated file 80.

Returning to FIG. 7, the deleting unit 18 executes the deleting process of the operation log files 70 and 71. Specifically, the deletion unit 18 deletes all the operation log elements 700 from the operation log file 70 stored in the storage unit 14. Further, the deletion unit 18 generates an I/O command to delete all the operation log elements 710 from the operation log file 71 (hereinafter referred to as “delete command”) and transmits the deletion command to the field device 200. The processing unit 15 is controlled. The deleting unit 18 may be omitted. Alternatively, it is possible to enable/disable the deletion process by the deletion unit 18, and the deletion unit 18 may execute the deletion process only when the deletion process is switched to the effective state.

<E. Operation log file management process flow>
FIG. 10 is a flowchart showing the flow of operation log file generation processing. The generation process shown in FIG. 10 is executed by each of the control device 100 and the field device 200. Hereinafter, the field device 200 will be described as an example.

First, the processor 210 of the field device 200 determines whether or not an operation instruction has been received via the operation terminal 400 (step S100). When the operation instruction has not been received (NO in step S100), the operation log file generation process returns to step S100.

When the operation instruction is received (YES in step S100), the processor 210 generates an operation log element corresponding to the operation instruction (step S102). The processor 210 accumulates the generated operation log element in the storage unit 24 (step S104). Each time the operation instruction is received, steps S102 and S104 are repeated. The processor 210 determines whether there is an operation log file generation instruction (step S106). If there is no operation log file generation instruction (NO in step S106), the operation log file generation process returns to step S100. When there is an operation log file generation instruction (YES in step S106), the processor 210 generates an operation log file based on the operation log elements accumulated in the storage unit 24 (step S108).

FIG. 11 is a flowchart showing the flow of the integrated file generation process. Referring to FIG. 11, processor 102 of control device 100 determines whether or not integrated data should be generated (step S200). For example, when the processor 102 receives an integrated file output instruction from the operation terminal 300, the processor 102 determines that the integrated file should be generated. Alternatively, the processor 102 may determine that the integrated file should be generated at the timing when the predetermined time is reached. When it is determined that the integrated file should not be generated (NO in step S200), the integrated file generation process returns to step S200.

When it is determined that the integrated file should be generated (YES in step S200), the processor 102 acquires the operation log files 70 and 71 (step S202). Specifically, the processor 102 generates the operation log file 70 based on the operation log elements accumulated in the storage unit 14 and acquires the operation log file 71 from the field device 200 by the I/O refresh process.

The processor 102 generates the integrated file 80 by integrating the acquired operation log files 70 and 71 (step S204). The processor 102 outputs the generated integrated file 80 to the database 500 (step S206).

FIG. 12 is a sequence diagram showing an operation example of the production system according to the present embodiment. In the example shown in FIG. 12, the control device 100 accepts a data setting change operation via the operation terminal 300 (step S1). The control device 100 generates an operation log element corresponding to the setting change operation and accumulates the generated operation log element (step S2). After performing control according to the setting change operation, the control device 100 causes the operation terminal 300 to display a completion notification (step S3).

Next, the field device 200 accepts a data setting change operation via the operation terminal 400 (step S4). The field device 200 generates an operation log element corresponding to the setting change operation and accumulates the generated operation log element (step S5). The field device 200 controls the operation according to the setting change operation and then displays the completion notification on the operation terminal 400 (step S6).

Next, the control device 100 accepts an integrated file output instruction via the operation terminal 300 (step S7). The control device 100 starts the operation log file acquisition process in response to the output instruction (step S7). The control device 100 requests the field device 200 to transmit the operation log file (step S8). The field device 200 transmits the operation log file 71 to the control device 100 in response to the request (step S9). Further, the control device 100 generates a request command for the operation log file of its own device (step S10), and generates the operation log file 70 based on the operation log element accumulated in the storage unit 14 according to the request command. (Step S11).

Next, the control device 100 executes the integration process of the acquired operation log files 70 and 71 (step S12), and generates the integration file 80 (step S13). The control device 100 outputs the integrated file 80 to the database 500 (step S14).

Next, the control device 100 may start the deletion processing of the operation log file (step S15). The control device 100 generates a delete command of the operation log file and transmits the delete command to the field device 200 (step S16). The field device 200 that has received the delete command deletes all the operation log elements 710 from the storage unit 24 and sends a completion notification to the control device 100 (step S17). Further, the control device 100 deletes all the operation log elements 700 from the storage unit 14 (step S18).

When the deletion of the operation log file is completed, the control device 100 causes the operation terminal 300 to display a completion notice indicating that the process according to the output command in step S7 is completed (step S19).

<F. Action/Effect>
As described above, the control device 100 according to the present embodiment includes the acquisition unit 16 and the integrated file generation unit 17. The acquisition unit 16 acquires the operation log files 70 and 71 generated by the control device 100 and the field device 200 that form the production system 1, respectively. The integrated file generation unit 17 generates an integrated file 80 that integrates the operation log files 70 and 71. The operation log files 70 and 71 include operation log elements 700 and 710 generated for each operation on the corresponding device. The operation log elements 700 and 710 have operation date/time information 701, operator identification information 704, and content information 705. The integrated file generation unit 17 generates the integrated file 80 by arranging the operation log elements 700 and 710 included in the operation log files 70 and 71 in time series based on the operation date/time information 701.

As a result, by checking the integrated file 80, it becomes easy to easily inspect which operator performed what operation when. That is, the control device 100 can manage the operation log file in the production system 1 in an easily auditable state.

The operation log files 70 and 71 have editable file formats. The integrated file generation unit 17 can easily generate the integrated file 80 using the operation log files 70 and 71 having editable file formats. The integrated file 80 has a non-editable file format. Therefore, falsification of the operation history can be prevented.

The integrated file generation unit 17 adds the device identification information 707 for identifying the device corresponding to the operation log file to the operation log element included in each of the operation log files 70 and 71. As a result, it becomes easy to easily inspect which operator performed which operation on which device.

The integrated file generation unit 17 changes the display format of the operation log element 800 in the integrated file 80 for each device based on the device identification information 707. Accordingly, when checking the integrated file 80, it is possible to easily understand which operation log element 800 corresponds to the operation for which device.

<G. Modification>
<G-1. Modification 1>
The output processing unit 25 of the field device 200 may encrypt the operation log file 71 using a predetermined common key, and send the encrypted operation log file 71 to the control device 100. In this case, the acquisition unit 16 of the control device 100 acquires a plurality of operation log files 71 in an encrypted state and decrypts the operation log files 71 using a common key stored in advance.

As a result, it is possible to prevent falsification of the operation log file 71 transmitted from the field device 200 to the control device 100.

<G-2. Modification 2>
In the above description, the control device 100 operates as a device that generates the operation log file 70 and also as an information management device that generates the integrated file 80. However, the information management device that generates the integrated file 80 may be provided separately from the control device 100.

FIG. 13 is a schematic diagram showing an outline of the production system according to the second modification. The production system 1A according to the second modification is different from the production system 1 shown in FIG. 1 in that it includes a control device 100A instead of the control device 100 and further includes an information management device 600.

FIG. 14 is a block diagram showing the hardware configuration of the information management device that constitutes the production system according to the second modification. Referring to FIG. 14, the information management device 600 has a processor 601, which executes a program, a ROM 602, data generated by the execution of the program by the processor 601, or a keyboard 605 or a mouse 606 as main components. A RAM 603 that stores input data in a volatile manner, an HDD 604 that stores data in a nonvolatile manner, a keyboard 605 and a mouse 606 that receive input, a monitor 607, a driving device 608, and a communication IF 609 are included. The respective components are connected to each other by a data bus 610. A recording medium 620 such as a DVD-ROM is attached to the drive device 608.

The processing in the information management device 600 is realized by the management program 613 executed by each hardware and the processor 601. Such a management program 613 is stored in the HDD 604 in advance. Alternatively, the management program 613 may be stored in the recording medium 620 and distributed as a program product. Alternatively, the management program may be provided as a program product that can be downloaded by an information provider who is connected to the so-called Internet.

FIG. 15 is a block diagram showing the functional configurations of the control device and the information management device that configure the production system according to the second modification. The control device 100A is different from the control device shown in FIG. 7 in that a file management unit 19 is included instead of the acquisition unit 16, the integrated file generation unit 17, and the deletion unit 18. The file management unit 19 is realized by the processor 102 shown in FIG. 2 executing the control program 112.

The I/O processing unit 15 of the control device 100A requests the field device 200 to transmit the operation log file 71 at a predetermined timing, and receives the operation log file 71 from the field device 200.

The file management unit 19 registers in the database 500 the operation log file 71 received from the field device 200 and the operation log file 70 generated based on the operation log elements accumulated in the storage unit 14. At this time, the file management unit 19 encrypts the operation log files 70 and 71 using a predetermined common key and stores the encrypted operation log files 70 and 71 in the database 500 as in the first modification. Preferably.

The information management device 600 includes an acquisition unit 61, an integrated file generation unit 62, and a deletion unit 63. The acquisition unit 61, the integrated file generation unit 62, and the deletion unit 63 are realized by the processor 601 illustrated in FIG. 14 executing the management program 613.

The acquisition unit 61 acquires the operation log files 70 and 71 from the database 500 at a predetermined timing. Alternatively, the acquisition unit 61 may acquire the operation log files 70 and 71 from the database 500 at the timing when the output instruction of the integrated file is input. When the operation log files 70 and 71 are encrypted, the acquisition unit 61 may decrypt the operation log files 70 and 71 using the common key stored in advance.

The integrated file generation unit 62 integrates the operation log files 70 and 71 and generates an integrated file 80. The processing content of the integrated file generation unit 62 is the same as the processing content of the integrated file generation unit 17 described above. Therefore, detailed description of the processing content of the integrated file generation unit 62 will be omitted.

When the integrated file 80 is generated, the deletion unit 63 deletes the operation log files 70 and 71 from the database 500.

Also in the production system 1A according to the second modification, by checking the integrated file 80 output from the information management device 600, it becomes easy to easily inspect which operator performed what operation and when.

<G-3. Modification 3>
As described above, in the production system including the control device 100 or the information management device 600 capable of generating the integrated file 80, the field device 200 needs to output the operation log file 71 having the editable file format. However, the field device 200 may be incorporated in a production system that does not include the control device 100 or the information management device 600. In such a case, the field device 200 preferably outputs the operation log file 70 having a non-editable file format in order to prevent the contents from being tampered with.

FIG. 16 is a block diagram showing the functional configuration of the field device according to Modification 3. Referring to FIG. 16, field device 250 according to Modification 3 is different from field device 200 shown in FIG. 5 in that switching device 26 is further provided. The switching unit 26 is realized by the processor 210 illustrated in FIG. 3 or 4 executing the program loaded in the RAM 212.

The switching unit 26 changes the file format of the operation log file 71 output from the output processing unit 25 according to an operation by the operator 90, such as an editable file format (eg CSV format) and an uneditable file format (eg (PDF format).

The output processing unit 25 generates an operation log file 71 having the file format switched by the switching unit 26 based on the operation log elements accumulated in the storage unit 24, and outputs the generated operation log file 71.

According to the third modification, the field device 250 can be incorporated into both a production system that includes a device that can generate the integrated file 80 and a production system that does not include a device that can generate the integrated file 80. The field device 250 may output an operation log file having a non-editable file format when incorporated into a production system that does not include a device that can generate the integrated file 80. This prevents tampering with the operation log file.

<G-4. Modification 4>
In the above description, the operation log files 70 and 71 include the operator identification information 704. However, the operation log files 70, 71 may include group identification information for identifying the group to which the operator belongs, instead of the operator identification information 704. In this case, by confirming the integrated file 80 in which the operation log files 70 and 71 are integrated, it is possible to easily grasp the operator who belongs to which group and what operation was performed on which device. You can

<H. Note>
As described above, the present embodiment and modifications include the following disclosures.

(Structure 1)
An acquisition unit (16, 61) for acquiring a plurality of operation log files respectively generated by a plurality of devices (100, 200A, 200B) configuring the production system (1, 1A),
A generating unit (17, 62) for generating an integrated file in which the plurality of operation log files are integrated,
Each of the plurality of operation log files includes an operation log element generated for each operation on a corresponding device of the plurality of devices,
The operation log element includes operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content,
The information management device (100), wherein the generation unit (17, 62) generates the integrated file by arranging the operation log elements included in the plurality of operation log files in time series based on the operation date/time information. , 600).

(Configuration 2)
Each of the plurality of operation log files has an editable file format,
The information management device (100, 600) according to configuration 1, wherein the integrated file has a non-editable file format.

(Structure 3)
The information management device (100, 600) according to configuration 2, wherein the acquisition unit (16, 61) acquires the plurality of operation log files in an encrypted state and decrypts the plurality of operation log files. ..

(Structure 4)
The generation unit (17, 62) adds, to the operation log element included in each of the plurality of operation log files, second identification information for identifying a device corresponding to the operation log file. An information management device (100, 600) according to any one of 1.

(Structure 5)
The generation unit (17, 62) changes the display format of the operation log element in the integrated file for each of the devices (100, 200A, 200B) based on the second identification information. Information management device (100, 600).

(Structure 6)
An information management device (100, 600) according to any one of configurations 1 to 5;
A production system (1, 1A) comprising the plurality of devices (100, 200A, 200B, 250),
At least one device (250) of the plurality of devices,
An output processing unit (25) for outputting an operation log file corresponding to the at least one device,
A production system (1, 1A) including a switching unit (26) for switching the file format of the operation log file output from the output processing unit to either an editable file format or an uneditable file format. ).

(Structure 7)
A step of acquiring a plurality of operation log files respectively generated by a plurality of devices (100, 200A, 200B) configuring the production system (1, 1A),
Generating an integrated file that integrates the plurality of operation log files,
Each of the plurality of operation log files includes an operation log element generated for each operation on a corresponding device of the plurality of devices,
The operation log element includes operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content,
The information management method, wherein the generating step includes a step of arranging the operation log elements included in the plurality of operation log files in time series based on the operation date and time information.

(Structure 8)
A program that causes a computer to execute the information management method,
The information management method is
A step of acquiring a plurality of operation log files respectively generated by a plurality of devices (100, 200A, 200B) configuring the production system (1, 1A),
Generating an integrated file that integrates the plurality of operation log files,
Each of the plurality of operation log files includes an operation log element generated for each operation on a corresponding device of the plurality of devices,
The operation log element includes operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content,
The program wherein the generating step includes a step of arranging the operation log elements included in the plurality of operation log files in chronological order based on the operation date and time information.

Although the embodiments of the present invention have been described, it should be considered that the embodiments disclosed this time are exemplifications in all points and not restrictive. The scope of the present invention is defined by the claims, and is intended to include meanings equivalent to the claims and all modifications within the scope.

1,1A Production system, 2,4 Field network, 6 Local network, 11,21 Reception unit, 12,22 Control unit, 13,23 Operation log generation unit, 14,24 Storage unit, 15 I/O processing unit, 16 , 61 acquisition unit, 17, 62 integrated file generation unit, 18, 63 deletion unit, 19 file management unit, 25 output processing unit, 26 switching unit, 70, 71, 71A, 71B operation log file, 80 integrated file, 90 operations Person, 100,100A control device, 102,210,601 processor, 104 chip set, 106 main storage device, 108 secondary storage device, 110 local network controller, 112 control program, 113,613 management program, 114,230 memory card Interface, 116 memory card, 118, 120 fieldbus controller, 122 internal bus controller, 124 I/O unit, 200, 200A, 200B, 250 field device, 201A camera, 201B robot, 212, 603 RAM, 216 system controller, 218 I/O controller, 220 hard disk, 222 camera interface, 226 controller interface, 228 communication interface, 232,620 recording medium, 234 robot interface, 300, 400, 400A, 400B operation terminal, 500 database, 600 information management device, 602 ROM , 604 HDD, 605 keyboard, 606 mouse, 607 monitor, 608 driving device, 609 communication IF, 610 data bus, 700, 710, 800 operation log element, 701 operation date/time information, 702 operation date information, 703 operation time information, 704 Operator identification information, 705 content information, 706 auxiliary information, 707 device identification information.

Claims (8)

An acquisition unit for acquiring a plurality of operation log files respectively generated by a plurality of devices constituting the production system,
And a generation unit for generating an integrated file that integrates the plurality of operation log files,
Each of the plurality of operation log files includes an operation log element generated for each operation on a corresponding device of the plurality of devices,
The operation log element includes operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content,
The information management device, wherein the generation unit generates the integrated file by arranging the operation log elements included in the plurality of operation log files in time series based on the operation date and time information. Each of the plurality of operation log files has an editable file format,
The information management device according to claim 1, wherein the integrated file has a non-editable file format. The information management device according to claim 2, wherein the acquisition unit acquires the plurality of operation log files in an encrypted state and decrypts the plurality of operation log files. 4. The generating unit adds, to the operation log element included in each of the plurality of operation log files, second identification information for identifying a device corresponding to the operation log file. The information management device described in the item. The information management device according to claim 4, wherein the generation unit changes the display format of the operation log element in the integrated file for each of the devices based on the second identification information. An information management apparatus according to any one of claims 1 to 5,
A production system comprising the plurality of devices,
At least one device of the plurality of devices is
An output processing unit for outputting an operation log file corresponding to the at least one device,
A production system comprising: a switching unit that switches a file format of the operation log file output from the output processing unit to either an editable file format or an uneditable file format. A step of acquiring a plurality of operation log files respectively generated by a plurality of devices constituting the production system,
Generating an integrated file that integrates the plurality of operation log files,
Each of the plurality of operation log files includes an operation log element generated for each operation on a corresponding device of the plurality of devices,
The operation log element includes operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content,
The information management method, wherein the generating step includes a step of arranging the operation log elements included in the plurality of operation log files in time series based on the operation date and time information. A program that causes a computer to execute the information management method,
The information management method is
A step of acquiring a plurality of operation log files respectively generated by a plurality of devices constituting the production system,
Generating an integrated file that integrates the plurality of operation log files,
Each of the plurality of operation log files includes an operation log element generated for each operation on a corresponding device of the plurality of devices,
The operation log element includes operation date/time information, first identification information for identifying at least one of an operator and a group to which the operator belongs, and content information indicating operation content,
The program wherein the generating step includes a step of arranging the operation log elements included in the plurality of operation log files in chronological order based on the operation date and time information.

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