JP2020095327A - Rustproofing management system, rustproofing management method, rustproofing management program, and information processing device - Google Patents

Abstract

To alleviate a management load of a rustproofing process by automating life management of rustproof coating, and specification and management of equipment necessary for a rustproofing process in equipment being applied with rustproofing processes.SOLUTION: A rustproofing management system (2, 30, and 150) of equipment (4) includes: server devices (6 and 32) having a storage unit (16 and a rustproofing process information storage 18) for storing identification information of the equipment and rustproofing information thereof; and an information processing device (8) having a communication unit (22) which causes display units (24 and 44) to display an input screen (62) and notifies the server devices of identification information of the equipment input to the input screen, and an information processing unit (26) which generates a rustproofing management process screen (64) and causes the display units (24 and 44) to display the same on the basis of the rustproofing information acquired from the server devices.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD The present invention relates to a construction management technique for rust prevention treatment for equipment.

In plant equipment having equipment such as pipes, flanges, bolts and nuts, the surface of the equipment is subjected to rust prevention treatment. This rust prevention treatment is performed, for example, in order to strengthen the resistance to the outside air and the installation environment and avoid damage, and also to prevent the influence on the manufacturing in the plant and the test object. The rust prevention treatment of a plant facility is performed by applying a paint containing a rust preventive agent to the surface of the facility. A rust preventive coating material containing a rust preventive agent contains abundant oil content, and the oil content impregnates the equipment to form an anticorrosion coating. However, peeling from the equipment surface may occur due to characteristics such as adhesiveness. Therefore, in the plant facility, it is necessary to re-apply the rust preventive paint every time a predetermined period has elapsed.

Regarding such rustproofing treatment for plant facilities, there is one that estimates the remaining life of the oil-impregnated resin film from the relationship between the oil amount of the oil-impregnated resin film coated on the surface of the object and the film characteristics (for example, , Patent Document 1).

Japanese Patent No. 6051276

By the way, in the rust-prevention treatment, peeling of old rust-preventive paint and shaving work for removing rust generated on the equipment surface are performed. In this cleaning operation, the surface of the equipment is ground with a grinder or the like, but vibration may occur during scraping, and sparks may occur due to contact with metal parts. In addition, some or all of the equipment may be disassembled depending on the conditions such as the installation environment of the equipment. Therefore, when performing anticorrosion treatment, some or all of the plant equipment must be stopped. This not only ensures the safety of the rust preventive treatment, but also enables the rust preventive treatment of the necessary parts of the equipment. In other words, there is a problem that the rust prevention treatment of the equipment cannot be performed at any time and must be systematically executed in accordance with the operation plan of the plant equipment.
In addition, there are cases where all of the equipment in the plant equipment are not collectively processed at once. For example, when a large or long piping facility has a large area to be coated with squeegee or anticorrosive paint, the anticorrosion treatment may be performed for each facility, each section, or each function of the entire facility. In this way, when performing rust prevention treatment in multiple times, it is necessary to grasp and identify the location and manage the treatment period, but manually check the rust prevention treatment implementation record etc. The load is heavy to do. Further, there is a problem that a load is imposed on management and notification that the rust prevention processing has reached the execution timing, and verification processing for which equipment corresponds.
Patent Document 1 does not disclose or suggest such a problem, and the configuration disclosed in Patent Document 1 cannot solve the problem.

Therefore, in view of the above problems, the object of the present invention is to manage equipment for rust prevention, to manage the life of rust preventive paint, and to automate the identification and management of equipment requiring rust prevention treatment, It is to reduce the management load of rust prevention treatment.

In order to achieve the above object, one aspect of the rust prevention management system of the present invention is a rust prevention management system for facility equipment, which is a server including a storage unit for storing identification information of the equipment and rust prevention processing information thereof. A device and a communication unit that displays an input screen on a display unit and notifies the server device of the identification information of the equipment input on the input screen, and based on the rust prevention processing information acquired from the server device. An information processing apparatus including an information processing unit that generates a rust prevention management processing screen and causes the display unit to display the screen.

In order to achieve the above object, one aspect of the rust prevention management system of the present invention is a rust prevention management system including an information processing device and a server device connected via a network, which is generated by the information processing device An input screen including an input unit to which the identification information acquired from the device is input, and a rust prevention management processing screen generated by the information processing device by using the rust prevention processing information acquired from the storage unit of the server device, And a processing unit that specifies facility equipment associated with the identification information input to the input screen, and sets the rust prevention processing information of the equipment equipment to be accessible by the information processing apparatus.

In the rust prevention management system, the facility device further includes an identification tag including the identification information, and the information processing device includes an image including the identification tag according to activation of the input screen or an input operation on the input screen. The identification tag may be extracted from the photographed image, or the identification information recorded in the identification tag may be read and notified to the server device side.
In the rust preventive management system, the rust preventive processing information includes life information of a rust preventive applied to each equipment, and the information processing device displays the acquired life information and clock information. The next rust-prevention treatment execution timing may be calculated using the rust-prevention treatment execution timing, and the rust-prevention management processing screen including management information of either or both of the rust-prevention treatment execution timing and the life information may be generated.
In the rust preventive management system, the information processing section may further include a notification function for notifying that the next rust preventive treatment execution timing has arrived.
In the rust prevention management system, the server device stores the installation environment information of the equipment in association with the identification information, and the installation environment information is used to adjust the next rust prevention processing information or May be modified.

In order to achieve the above object, one aspect of the rust prevention management method of the present invention obtains identification information from equipment, displays an input screen for inputting the identification information on a display unit, and is input to the input screen. The identification information is transmitted to the server device, the rust prevention processing information associated with the identification information stored in the storage unit of the server device is acquired, and the rust prevention management processing screen is used by using the rust prevention processing information. Is generated and the rust prevention management processing screen is displayed on the display unit.

In the rust preventive management method, the next rust preventive treatment construction timing is calculated by using the life information and the clock information of the rust preventive agent included in the rust preventive treatment information, and the rust preventive treatment construction timing or the lifetime information is calculated. It may include a process of generating a rust prevention management process screen including one or both of the management information.
The above rust prevention management method may further include a process of notifying when the rust preventive treatment construction timing has come.

In order to achieve the above object, one aspect of a rust preventive management program of the present invention is a rust preventive control program executed by a computer of an information processing apparatus, which has a function of acquiring identification information from facility equipment, and the display unit described above. A function of displaying an input screen for inputting identification information, a function of transmitting the identification information input to the input screen to a server device, and a function associated with the identification information stored in the storage unit of the server device It includes a function of acquiring rust prevention processing information, a function of generating a rust prevention management processing screen using the rust prevention processing information, and a function of displaying the rust prevention management processing screen on a display unit.

In order to achieve the above object, one aspect of the information processing device of the present invention is a display unit, a reading unit that reads identification information from an identification tag installed in equipment through an input screen displayed on the display unit, A communication unit connected to a server device via a network to transmit the identification information, access a storage unit of the server device, and read out rust prevention processing information associated with the identification information, the input screen, and An information processing unit that generates a rust prevention management processing screen based on the rust prevention processing information acquired from the server device and causes the display unit to display the screen.

According to the present invention, one of the following effects can be obtained.

(1) By transmitting the identification information read from the equipment, receiving the rust prevention processing information of the equipment from the server device and generating the management processing screen, it is possible to recognize it in the vicinity of the administrator or the administrator. It is possible to confirm the necessity of anticorrosion treatment for existing equipment.
(2) Since the information processing device owned by the administrator receives the rust prevention processing information of the specific equipment and generates the rust prevention management processing information, the necessity of the rust prevention processing at the time when the administrator instructs I can figure it out.
(3) Further, since the information processing apparatus directly collects the identification information from the equipment, the equipment to be managed can be surely and easily specified, and the reliability of the rust prevention management can be improved.

It is a figure which shows the structural example of the rust prevention management system which concerns on 1st Embodiment. It is a sequence diagram showing an example of rust prevention management processing. It is a figure which shows the structural example of the rust prevention management system which concerns on 2nd Embodiment. A shows a hardware configuration example of the mobile terminal device, and B shows an internal configuration example of the storage unit. A shows an example of the identification information installed in the equipment, and B shows a configuration example of the identification information. A shows a hardware configuration example of the server device, and B shows an internal configuration example of the storage unit. An example of the rust prevention management table is shown. It shows an example of a worker information table. A shows an example of a menu screen of the input screen, and B shows an example of a screen for reading identification information. A and B show an example of a rust prevention management processing screen including a period until the next processing. A shows an example of a rust prevention management processing screen when the time limit is exceeded, and B shows an example of a rust prevention management processing screen that does not include the remaining life data. It is a flow chart which shows an example of rust prevention management processing of a personal digital assistant. It is a figure which shows the Example of a rust prevention management system.

[First Embodiment]
FIG. 1 shows a configuration example of a rust prevention management system according to the first embodiment. The configuration shown in FIG. 1 is an example, and the present invention is not limited to such a configuration.
As shown in FIG. 1, for example, this rust prevention management system 2 manages the rust preventive function life of the rust preventive agent applied to the equipment 4 to be monitored and the timing of the next rust preventive treatment. It is an example of a configuration for performing the notification process. The rust prevention management system 2 includes, for example, a server device 6 and an information processing device 8.

<About equipment 4>
The equipment 4 is a part or all of a device or a part thereof to which at least a portion exposed to the outside air is coated with a rust preventive paint containing a rust preventive agent for preventing the generation, adhesion and spread of rust. It is specified by the target unit of rust management. In other words, the equipment 4 is not limited to a device or a part that functions independently, but only a part of the length of long piping equipment, only a flange portion, or one bolt or one nut for connecting pipes through the flange. It may be present, or may include a single functional device or multiple components used in the same state in the vicinity. Therefore, one or a plurality of facility devices 4 are installed in one plant facility.
Further, each equipment 4 is provided with identification information for identification and specification in the rust prevention management system 2, and the identification information presenting section 10 is provided on a part of the exterior surface of the equipment. The identification information presenting section 10 is an example of a means that enables the information processing apparatus 8 to obtain identification information automatically or by a user's input operation. For example, a number or a character is displayed, and a bar code or a QR code is displayed. The identification information may be transmitted by (registered trademark) or the like, or by short-range wireless communication such as Wi-Fi (registered trademark) or infrared communication.

<About server device 6>

The server device 6 is an example of a computer that manages the rust prevention processing information applied to the equipment 4, and includes a communication unit 12, a processing unit 14, and a storage unit 16 that transmit and receive data to and from the information processing device 8. In this storage unit 16, a rust prevention processing information storage 18 for storing rust prevention processing information is formed. The server device 6 has a function of storing anticorrosion processing information for each registered equipment 4 or its identification information and reading the stored anticorrosion processing information with respect to the identification information taken in through the information processing device 8. Equipped with.
The server device 6 may communicate with the information processing device 8 and can transmit and receive information, and may use, for example, a personal computer (PC).
The server device 6 has the following functions, for example.
a) The facility device 4 and the rustproofing information applied to the device are stored in association with each other.
b) Performs communication processing with the information processing device 8.
c) Store the diagnosis result of the life information of the rust preventive applied to the equipment 4.
d) Present the stored data to the information processing device 8 based on an instruction from the information processing device 8.

<About information processing device 8>
The information processing device 8 is an example of a processing terminal that acquires identification information from the identified equipment 4 and fetches the rust prevention processing information stored in the server device 6 to execute rust prevention management processing. The acquisition unit 20, the communication unit 22, the display unit 24, and the information processing unit 26 are provided. The information processing device 8 uses, for example, a mobile phone, a smartphone, or another mobile PC.
The identification information acquisition unit 20 is an example of a unit that captures the identification information from the identification information presentation unit 10 of the equipment 4, and reads a camera that captures the identification information presentation unit 10, a barcode, a QR code (registered trademark), or the like. It also includes a keyboard that allows the administrator to enter letters and numbers, and the like.
The communication unit 22 is a functional unit for communicating with the server device 6 via the network, and uses, for example, the Internet, short-distance wireless communication such as infrared communication, communication using a telephone line, or the like.
The display unit 24 is an example of a means for displaying an input screen for inputting identification information and a rust preventive management process screen for displaying the life of the rust preventive agent, next rust preventive process information, etc., as a control screen for the rust preventive process. is there.
The information processing unit 26 is an example of a unit that executes rust prevention management processing, and is based on, for example, processing for acquiring the equipment device 4 side identification information, generation of an input screen, and rust prevention processing information acquired from the server device 6. Generates the rust prevention management processing screen.
With such a configuration, the information processing device 8 executes, for example, the following processing.
A) Obtain identification information from the equipment 4.
B) The acquired identification information is input to the input screen to notify the server device 6 of the identification information.
C) Obtain the anticorrosion processing information stored in the server device 6.
D) A rust preventive management processing screen is generated based on the acquired rust preventive processing information of the equipment 4, and the rust preventive management processing screen is displayed on the display unit 24.

<Rust prevention management processing>
FIG. 2 is a sequence diagram showing an example of rust prevention management processing of the server device 6 and the information processing device 8. The processing content and processing procedure shown in FIG. 2 are examples, and the present invention is not limited to such a configuration. This rust prevention management process is an example of the rust prevention management method and rust prevention management program of the present invention.
The information processing unit 26 of the information processing device 8 causes the display unit 24 to display the input screen upon the start of the rust prevention management process (S101). This input screen has at least an input area for inputting the identification information acquired from the equipment 4 to be managed. In this input area, for example, characters and numbers may be input through the input means of the information processing device 8 or may be formed by a finder screen in conjunction with the camera function. Then, when the information processing device 8 displays an input screen, for example, the information processing device 8 outputs an instruction to input identification information (S102). For the input instruction, for example, a screen prompting the input may be displayed on the display unit 24, or notification may be given by sound or vibration.

The identification information acquisition unit 20 of the information processing device 8 acquires the identification information of the equipment from the equipment 4 (S103). For example, the facility device 4 may make the identification information in the identification information presenting section 10 readable by the information processing apparatus 8, or the information processing apparatus 8 accesses the identification information presenting section 10 to acquire the identification information. Good.
The information processing device 8 identifies the equipment 4 based on the acquired identification information (S104), and notifies the server device 6 of the identification information (S105). At this time, the information processing unit 26 may generate management data for the rust prevention management process for the input identification information. This management data is an example of data for generating a rust prevention management processing screen, for example, and stores identification information and device information of the facility device 4 acquired from the server device 6.

The processing unit 14 of the server device 6 reads the identification information notified from the information processing device 8 and compares it with the identification information stored in the storage unit 16 (S106). Based on the collation result, the server device 6 reads out the rust preventive processing information of the equipment 4 having the matching identification information from the rust preventive processing information storage 18 (S107) and presents it to the information processing device 8. At this time, the server device 6 may store the read anticorrosion processing information in a temporary storage (not shown) or the like so that the information processing apparatus 8 can read it, or the anticorrosion processing information can be stored. May be sent to the side.
When the information processing device 8 acquires the anticorrosion processing information (S108), the information processing device 8 stores it in a temporary storage area or the like. Then, the information processing unit 26 of the information processing device 8 generates a rust prevention management processing screen based on the rust prevention processing information (S109), and displays the screen on the display unit 24 (S110).

<Effects of First Embodiment>
According to such a configuration, the following effects can be obtained.
(1) By using the information processing device 8 in the vicinity of the equipment 4 to acquire the identification information from the equipment 4 and to obtain the rust prevention processing information from the server 6 via the information processing device 8. Therefore, the rustproofing information of the facility device 4 which is visually identified by the person in charge of management can be quickly and stably managed.
(2) Correlation between the rust prevention state of the equipment 4 which is visually monitored by the rust prevention manager having the information processing device 8 and the rust prevention processing information stored and managed in the server device 6 It can be carried out immediately, improving the reliability of rust prevention management processing and reducing management time.
(3) By providing the equipment information 4 with the identification information presenting unit 10, it is possible to easily understand that it is the target of rust prevention management, reduce the variation in the place where rust prevention management is performed, and trust the rust prevention processing information. The property is improved.

(4) When the rust prevention management process is executed at a place where the identification information presenting unit 10 is present, when the time until the next rust preventive process is short, or when the execution date of the rust preventive process has already passed Immediately, it is possible to grasp the urgency of the arrangement and execution for executing the anticorrosion treatment, and maintain the reliability of the anticorrosion management treatment.
(5) Since the information processing device 8 directly collects the identification information from the equipment 4, the equipment to be managed can be surely and easily specified, and the reliability of rust prevention management can be improved.

[Second Embodiment]
FIG. 3 shows a configuration example of the rust prevention management processing system according to the second embodiment. The configuration shown in FIG. 3 is an example, and the present invention is not limited to such a configuration. Further, in FIG. 3, the same components as those in FIG. 1 are designated by the same reference numerals.
The rust prevention management system 30 includes a server device 32 and a mobile terminal device 34 as shown in FIG. 3, for example.
The server device 32 is a database that stores the identification information of the facility equipment 4 that is the rust prevention management target and the rust prevention processing information that is the execution record of the rust prevention processing performed in the past in association with each other. The display unit 38 and the input operation unit 40 are provided. The server device 32 reads out the stored rust prevention processing information with respect to the identification information of the facility device 4 notified from the mobile terminal device 34, and makes the rust prevention management available.

The mobile terminal device 34 is an example of the information processing device of the present disclosure, and may be, for example, a mobile phone, a smartphone, a mobile PC, or an information terminal device for rust prevention management that enables data communication using a network. .. The mobile terminal device 34 includes a housing main body 42 with a display unit 44, a camera (not shown), input operation buttons, and the like. As a result, the person in charge of rust prevention management carries the mobile terminal device 34 near the equipment 4 to be managed, moves it, inputs the identification information of the equipment 4, and reads the rust prevention processing information. You can do it. The facility equipment 4 is a pipe installed in a plant facility such as a manufacturing plant or an experimental device, a flange that connects the pipes, or a fastening component such as a bolt and a nut that fastens a plurality of components. A paint containing a rust preventive agent has been applied. The identification information of the facility device 4 is divided into a range of the rust prevention management target and a range of the monitoring target according to the size of the facility device 4, for example. In other words, if it is a large-scale machine or a long piping facility, even a facility device having one function may be divided and a plurality of pieces of identification information may be set. In addition, if the machine has a high degree of importance in managing rust, the machine may be subdivided and monitored to monitor the rust-prevention state of each facility device 4.

<About the mobile terminal device 34>
FIG. 4A shows an example of the hardware configuration of the mobile terminal device 34. 4B shows an example of the internal configuration of the storage unit 52.
The mobile terminal device 34 is composed of a computer, and as shown in A of FIG. 4, for example, a processor 50, a storage unit 52, an input operation unit 54, an input/output unit (I/O) 56, a communication unit 57, and a display unit. Including 44.
The processor 50 is an example of a computing unit of a program executed by the mobile terminal device 34, and includes an OS (Operating System) for operating the mobile terminal device 34, a rust prevention management program 70 for rust prevention management of the equipment 4, and other Arithmetic processing such as an application program (not shown) is performed. The processor 50 functions as the information processing unit 26 of the present disclosure by executing the rust prevention management program 70, and generates an input screen for inputting identification information and the rust management processing screen.
The storage unit 52 is used to store the OS, the rust preventive management program 70, the identification information, the rust preventive processing information, and the like, and includes a ROM (Read Only Memory) and a RAM (Random Access Memory). The storage unit 52 includes a temporary storage area 68 in addition to the storage area 66, for example. A storage element capable of holding the stored contents may be used as the storage unit 52.

The input operation unit 54 includes, for example, a key switch and is used for input of input information, extraction of output information, mode switching, and the like. The input operation unit 54 may be, for example, a touch panel that uses a touch sensor mounted on the display unit 44 and performs an input process at a position where a worker touches the display unit 44.

The timer 55 is an example of a unit that performs timekeeping processing triggered by acquisition of date and time information or a predetermined timing. The timer 55 may measure time by a clock application program executed by the mobile terminal device 34, or may acquire time information by communicating with the outside.
The communication unit 57 is an example of a functional unit that transmits and receives data to and from the server device 32 and the like, and is controlled by the processor 50. The communication unit 57 may have, for example, any one of wireless communication, the Internet, infrared communication, or the like, or a plurality of communication functions.
The I/O 56 is controlled by the processor 50 and is used to fetch the identification information from the equipment 4. The I/O 56 may include either or both of the camera 58 and the reading unit 60 as an example of the identification information acquisition unit 20. Further, the reading unit 60 is used according to the type of the identification information presenting unit 10 of the equipment 4, for example, a bar code reader, a QR code reader, an RFID (Radio Frequency IDentifer) that performs near field communication, and the like. It may be configured by an image recognition program that recognizes the identification information in the image captured by the camera 58.
The display unit 44 is an example of an information presenting function, and displays an input screen 62 for inputting identification information, a rust prevention management processing screen 64 generated based on the rust prevention processing information, etc. along with the stage of the rust prevention management processing. ..

In the storage unit 52, for example, as shown in B of FIG. 4, a rust prevention management program 70 is stored in a storage area 66, and an OS (not shown), a camera 58, a reading unit 60, and other functional units are controlled. Application programs and the like are stored. Further, in the temporary storage area 68, the identification information 72 read by the reading unit 60, the user information 74 indicating the user who operates the mobile terminal device 34, the anticorrosion processing information 76 acquired from the server device 32, etc. are temporarily stored. To be done. The information stored in the temporary storage area 68 is deleted, for example, when a predetermined process such as generation of the rust prevention management processing screen 64 is completed.

<About identification information 10>
FIG. 5 shows an example of the state of the identification information and the information included in the identification information.
For example, as shown in FIG. 5A, the equipment device 4 is provided with a tag 80 by a setting means 84 or the like at a position visible to a manager. This tag 80 is an example of an identification tag of the present disclosure, and is, for example, a flat plate, and a QR code (registered trademark) 82 for accessing the identification information is printed on the flat plate surface. Thereby, the portable terminal device 34 can acquire the identification information of the equipment 4 by reading the QR code 82 with the reading unit 60.
The identification information is not limited to the case of displaying the QR code 82, but includes the case of directly displaying a barcode, characters, and numbers.
The identification information 90 read from the tag 80 includes, for example, as shown in FIG. 5B, the name information 90-1, the No information 90-2, the installation location information 90-3, the part number 90-4, etc. of the equipment 4. Is included.

<About the server device 32>
FIG. 6 shows a configuration example of the server device.
In the server device 32, for example, as shown in A of FIG. 6, a processor 96 as a processing unit 94, a storage unit 98, a communication unit 100, an input operation unit 102, an input/output unit (I/O) 104, a monitor 106, The external memory 108 and the like are provided.

The processor 96 performs arithmetic processing such as the OS and the rust prevention management program stored in the storage unit 98. In the rust prevention management processing, the rust prevention processing information stored in the storage unit 98 is read based on the identification information presented from the mobile terminal device 34, and the mobile terminal device 34 is held in an accessible state. In addition, the processor 96 is an example of the processing unit 14, and stores the date and time information of the access in the storage unit 98 in response to the access from the mobile terminal device 34.
The storage unit 98 functions as a storage area for management data as well as an area for storing programs such as an OS. As an example of the rust prevention processing information storage 18, the storage unit 98 stores a rust prevention management table 110 and a worker information table 112 as shown in FIG. 6B, for example. The storage unit 98 includes a ROM and a RAM, and for example, a storage device such as a hard disk or a semiconductor memory capable of holding the stored contents may be used.
The communication unit 100 is controlled by the processor 96 and is used for wireless connection or Internet connection with the mobile terminal device 34.
The input operation unit 102 is used for registration of identification information of the facility equipment 4 that is the target of rust prevention management, registration of a work manager, and the like.
The I/O 104 is controlled by the processor 96 and is used for input/output of control information.
The monitor 106 is an example of an information presenting unit and a displaying unit, and is used, for example, on the server device 32 side to display rust prevention processing information. A touch panel may be provided on the screen display unit of the monitor 106, and an input corresponding to the display information may be performed instead of the input operation unit 102.
The external memory 108 is an example of a storage area other than the storage unit 98 of the server device 32. For example, a storage connected via a USB (Universal Serial Bus) standard cable or a cloud storage on a network is used. The rust prevention processing information may be stored.

<About rust prevention management table 110>
FIG. 7 shows an example of the rust prevention management table. The information shown in the rust prevention management table 110 is an example, and all of this information may be stored or some of these information may be stored. Further, information other than the information shown in FIG. 7 may be stored.
In the rust prevention management table 110, for example, the construction information and the like are input or updated when the rust prevention processing is performed. The registered information includes, for example, the construction date, the life diagnosis result of the rust preventive agent diagnosed by the set method, and the remaining life information calculated based on the result. In the rust prevention management table 110, for example, a worker for rust prevention processing or a person in charge of life diagnosis inputs date information, life information, or remaining life information using the input operation unit 102. In addition, the server device 32 receives data from, for example, mechanical equipment that has been subjected to anticorrosion processing, its management system, diagnostic equipment used for life diagnosis, and its management system, and creates the anticorrosion management table 110. At this time, the server device 32 may have a function of selecting a part or all of the data necessary for the rust prevention management process from the received data.

The rust prevention management table 110 is, for example, as shown in FIG. 7, device name information 110-1, device No information 110-2, installation location information 110-3, part number 110-4, initial construction date information 110-5. , Last construction date information 110-6, rust prevention diagnosis date information 110-7, test date information 110-8, next construction deadline information 110-9, access date information 110-10, and the like.
Of these pieces of information, the device name information 110-1, the device No information 110-2, the installation location information 110-3, and the part number 110-4 are identification information of the facility device 4, and a description thereof will be omitted.
The initial construction date information 110-5 and the final construction date information 110-6 are examples of progress information of the rust prevention treatment applied to the equipment 4, for example. As the construction date information, not only the initial and final dates but also all construction progress information may be registered in the rust prevention management table 110.
The rust preventive diagnosis date information 110-7 is an example of information indicating the date when the life check of the applied rust preventive agent was performed.
The test date information 110-8 is an example of life information of the applied rust preventive agent and is a diagnosis result of life diagnosis. In this method of life diagnosis, for example, a prediction calculation process based on past measurement data or a state of a specific substance or component contained in the rust preventive agent is used for diagnosis.
The next construction deadline information 110-9 is construction deadline information calculated based on the life information of the rust preventive agent, and is an example of remaining life information of the rust preventive agent capable of maintaining the rust preventive function. The mobile terminal device 34 uses the next construction deadline information 110-9, for example, to generate the rust prevention management processing screen 64 and execute construction management processing.
The access date information 110-10 is an example of a date when specific rust prevention processing information is accessed using the mobile terminal device 34 or the server device 32, for example. The access date information 110-10 is used for determining whether or not the rust prevention management process is performed on the equipment 4. For example, if the access date information 110-10 has not been updated by the next construction deadline information 110-9, the server device 32 may perform a process of notifying an alarm to the mobile terminal device 34 of the administrator in charge (not shown). Good.

<About worker information table 112>
FIG. 8 shows an example of the worker information table.
In the rust prevention management process, for example, identification information is acquired from the equipment 4 and the worker of the mobile terminal device 34 that accesses the server device 32 is managed. The worker information table 112 stores, for example, worker information acquired from a worker when the work of the mobile terminal device 34 is started.
For example, as shown in FIG. 8, the worker information table 112 includes information such as worker ID (IDentification), company name, and worker name as an example of worker information. Identification information for identifying a worker is stored in the ID information 112-1. The company name information 112-2 stores information such as the name of the company to which the worker belongs. The worker name information 112-3 stores the name of the worker and the like.
The worker information may be acquired by the camera 58 of the mobile terminal device 34 from, for example, an employee ID card or an authentication tag possessed by the worker. If the employee ID or the authentication tag is represented by a barcode or a QR code (registered trademark), the reading unit 60 may be used.
The stored worker information may be used as authentication information for accessing the server device 32 using the mobile terminal device 34, for example.

<About the menu screen 114>
9A shows an example of the menu screen.
For example, when the portable terminal device 34 executes the rust prevention management program, the menu screen 114 is displayed on the display unit 44. The menu screen 114 is an example of the input screen 62 for the rust prevention management function. For example, as shown in FIG. 9A, the title display section 116 is provided at the upper part, the recording history display section 118 is provided at the central part, and the loading operation section 120 is provided. A read operation unit 122 is formed.
The title display unit 116 is an area for displaying information on the function type being executed and information on the function mode thereof, and for example, "rust prevention construction/remaining life diagnosis" is displayed.
The record history display unit 118 displays, for example, an access history with respect to the server device 32 and a history of obtaining rust prevention processing information from the server device 32.
The loading operation unit 120 is an example of an operation unit that shifts from the server device 32 to the loading process of the rust prevention processing information. The mobile terminal device 34 accesses the server device 32 upon the operation of the capture operation unit 120, and transmits the stored identification information. The loading operation unit 120 may not be displayed on the menu screen 114 or may be inoperable by the user, for example, when the reading of the identification information from the equipment 4 is not completed.
The read operation unit 122 is an example of an operation unit that shifts from the equipment 4 to the identification information read mode. The mobile terminal device 34 activates either or both of the camera 58 and the reading unit 60 in response to the operation of the reading operation unit 122.

<Regarding the reading screen 124>
9B shows an example of a screen for reading the identification information.
The mobile terminal device 34 shifts to the reading mode of the identification information, triggered by the operation of the reading operation unit 122 of the menu screen 114. On the display unit 44, a reading screen 124 is displayed as shown in B of FIG. 9, for example. This reading screen 124 uses, for example, the viewfinder screen of the camera 58, and it is necessary to photograph the facility equipment 4 or capture the equipment device 4 on the viewfinder screen by a user operation. The reading screen 124 includes a capture function unit 126 that captures the QR code 82 that presents the identification information in the image captured in the viewfinder, for example. The capture function unit 126 is an example of the identification information acquisition unit of the present disclosure, and includes the reading unit 60 that reads a bar code, a QR code, and other information displays. The capture function unit 126 may be fixedly set at a predetermined position on the reading screen 124, or uses the image recognition function of the camera 58 to read a bar code or a QR code in the finder screen.
In addition, the reading screen 124 may be provided with, for example, a light emission/extinction operation unit 128. The light emitting/quenching operation unit 128 is an example of an operation button for switching ON/OFF of the light emitting unit mounted on the portable terminal device 34, and a user performing rust prevention management can read the state in the reading screen 124 or the reading state of the QR code. Depending on, it is possible to select whether or not to illuminate.

<About rust prevention management processing screen 130>
FIG. 10 shows a configuration example of the rust prevention management processing screen.
The mobile terminal device 34 generates the rust prevention management processing screen 130 based on the rust prevention processing information acquired from the server device 32, and displays it on the display unit 44. The rust preventive management processing screen 130 displays the remaining life of the rust preventive agent calculated or diagnosed by a predetermined method, for example, and the display content differs depending on the period until the next rust preventive processing.
(1) When the remaining life of the rust preventive agent is for a predetermined period This rust preventive management processing screen 130-1 includes a remaining life display section 132 and a construction history display section 134 as shown in A of FIG. 10, for example. .. The remaining life display unit 132 is an example of a display area that presents the remaining life of the rust preventive agent with figures and numbers. The portable terminal device 34 uses, for example, the next construction deadline information, which is life information from the obtained rustproofing processing information, the rustproof agent durability period information, and the clock information including the current date and time, and the next construction deadline. To calculate the remaining period (remaining life). Further, the mobile terminal device 34 creates management processing information of the rust preventive agent in a pie chart or the like using data such as the durability period information of the rust preventive agent and the calculated remaining life. In the remaining life display unit 132, for example, a period information display unit 136 is formed, and a pie chart including an elapsed period display 138 after construction and a remaining life display 140 is formed. In the pie chart of the remaining life, for example, the total number of months of the life of the rust preventive agent is used as the denominator, and the remaining number of months is used as the numerator to calculate the ratio of the elapsed time to the present.
The construction history display portion 134 records construction information of rust prevention processing, and includes, for example, information such as an initial construction date, a final construction date, a next construction deadline, a final rust prevention diagnosis date, and a test date.

(2) When the remaining life period of the rust preventive agent is sufficient This rust preventive management processing screen 130-2 displays all remaining life displays in the circle graph of the remaining life display unit 132 as shown in FIG. 10B, for example. It is 140. This is, for example, immediately after the anticorrosion treatment or when the life of the anticorrosion agent is diagnosed to be longer than the durability period of the anticorrosion agent. In the process of creating the pie chart of the remaining life, for example, the total number of months in the denominator is 0, or the number of remaining months set in the numerator is larger than the total number of months set in the denominator.

(3) When the remaining life of the rust preventive agent is exceeded The rust preventive management processing screen 130-3 shows, for example, as shown in FIG. The pie chart becomes an overdue display 144 together with a warning display 142 such as "exceeded a month". This over-period display 144 may be, for example, the color or pattern of the entire pie chart different from the elapsed period display 138 and the remaining life display 140, or the entire pie chart may be the elapsed period display 138. In the process of creating the pie chart of the remaining life, for example, when the total number of months in the denominator is set to a positive value and the remaining number of months set in the numerator is set to 0 or a negative value. ..

(4) When there is no remaining life information In the rust prevention management processing screen 130-4, for example, as shown in B of FIG. 11, the remaining life display unit 132 displays notification information 146 such as “There is no remaining life data”. At the same time, the entire pie chart becomes an unmanageable display 148. In the unmanageable display 148, for example, the entire pie chart is displayed in a single color. In the process of creating the pie chart of the remaining life, for example, the total number of months in the denominator and the remaining number of months set in the numerator are both 0 or there is no data.

<About rust prevention management>
FIG. 12 shows an example of rust prevention management processing of the mobile terminal device. The anticorrosion management process shown in FIG. 12 is an example of the anticorrosion management method and anticorrosion management program of the present disclosure, and the present invention is not limited to the processing procedures and processing contents.
The mobile terminal device 34 displays the input screen on the display unit 44 (S201), and activates one or both of the camera 58 and the reading unit 60 upon the operation of the read operation unit 122 (S202). The portable terminal device 34 fetches the identification information of the equipment 4 (S203), temporarily stores the identification information in the storage unit (S204), and notifies the identification information to access the storage unit of the server device 32 ( S205).
The portable terminal device 34 takes in the rust prevention processing information from the server device 32 (S206), and calculates the remaining life information which is the period until the next construction month from the clock information and the rust prevention processing information including the life information (S207). ). Then, based on the calculated result, a construction management graph such as a circle graph representing the rust prevention management processing information is created (S208), and the rust prevention management processing screen 130 is generated by combining this graph and life information (S209). ..

Note that the mobile terminal device 34 displays an alarm display screen on the display unit 44 when the remaining life is exceeded or when it is determined that the remaining life is near, for example, by generating the rust prevention management processing screen 130. Alternatively, a voice notification may be given.

<Effect of Second Embodiment>
According to such a configuration, the following effects can be expected.
(1) For the rust prevention management information managed by the server device 32, by generating and displaying a rust prevention management processing screen that makes it easier to grasp the status such as remaining life, the reliability and management of rust prevention management are improved. Can be facilitated and erroneous judgment due to the difference in experience value of the person in charge can be avoided.
(2) By taking a picture of the tag of the equipment 4 to be managed and enabling the input of identification information, it is possible to reduce the work man-hour and work load of rust prevention management.
(3) Since the server device 32 grasps the access state to the anticorrosion processing information, the execution state of the anticorrosion management processing can be monitored and the safety of the equipment 4 can be improved.
(4) Corrosion prevention processing information is read out based on the identification information captured by the person in charge, and rust prevention management processing is performed based on this information, so that the occurrence of misinformation can be avoided.

<Application example of rust prevention management system>
FIG. 13 shows a configuration example of the rust prevention management system according to the embodiment.
The anticorrosion management system 150 performs anticorrosion management set for a part or all of specific experimental equipment or plant facilities, or equipment used for these facilities, for example. The rust preventive management system 150 includes a rust preventive execution section 152 for applying a rust preventive agent to a target device, a remaining life diagnosis section 154 for diagnosing the state of the applied rust preventive agent, and a rust preventive agent. The rust preventive management unit 156, which monitors the condition of the rust preventive agent and manages the remaining life of the rust preventive agent after the processing, is linked.
The rust preventive construction unit 152 performs, for example, a cleaning process on the surface of the equipment 4 and a coating process including a paint containing a rust preventive agent. In the rust preventive construction section 152, for example, for a cleaning process or a coating process performed by using human power or a working machine, it is possible to manage a process schedule and record information such as process records and process contents in a computer or the like. Good. Then, these construction records may be notified to the server device 32 of the rust prevention management unit 156, for example.

The remaining life diagnosis unit 154 cooperates with, for example, the anticorrosion construction unit 152, and applies the anticorrosion treatment to the equipment 4 that has been subjected to anticorrosion treatment immediately or when a predetermined period has elapsed. Sampling agent or paint containing it is analyzed and the remaining life of rust preventive agent is diagnosed. In the remaining life diagnosis, for example, the durability period (life) is diagnosed on the basis of the component state of the rust preventive contained in the sampled paint. The remaining life diagnosis unit 154 uses, for example, an inspection device required for component analysis (not shown), and a computer for performing data management and schedule management. This computer cooperates with the server device 32 of the rust preventive management unit 156, for example, and notifies the life check result of the rust preventive agent in association with the identification information of the equipment 4.
In the remaining life diagnosis, various methods may be used for diagnosis, and for example, the method disclosed in the above-mentioned Patent Document 1 may be used. In this residual life diagnosis, for example, the amount of oil that is saturated at the time of applying a rust preventive agent decreases with the passage of time. It is based on the knowledge that it will lead to. Then, the remaining amount of oil measured at the time of forming the oil-containing resin film, the amount of change in the oil content after a lapse of time, and the life reference amount based on the remaining oil amount are used to recognize the remaining life of the rust preventive agent such as numerical information. You can change to.

The rust prevention management unit 156 is configured to execute the rust prevention management processing shown in the first embodiment or the second embodiment, and is the identification information and the remaining life of the mobile terminal device 34 and the equipment 4. Stores the diagnosis result of diagnosis. Further, in the mobile terminal device 34, the reading screen 124, the rust prevention management processing screen 130, and the like are displayed on the display unit 44.
In the rust prevention management process, explanations are omitted except for those described in the above embodiment.

<Effects of Examples>
According to this embodiment, the following effects can be expected.
(1) By not only monitoring the rust prevention status in rust prevention construction, life diagnosis, and rust prevention management processing, but also notifying and sharing the life related to the rust preventive agent and the remaining life related to the next construction. It is possible to prevent rust prevention management errors and improve the reliability of rust prevention management processing.
(2) In rust prevention management, rust prevention management can be performed using the rust prevention processing information stored in the server device 32 without accessing the rust prevention construction section 152 or the remaining life diagnosis section 154, and the processing time can be reduced. The load can be reduced.

The features and modifications of the embodiment described above are listed below.

(1) In the above embodiment, the case has been described in which the mobile terminal device 34, which is the information processing device 8, makes the server device 32 accessible by notifying the identification information of the equipment 4, but the present invention is not limited to this. The server device 32 uses the information registered in the connected mobile terminal device 34, the authentication information of the worker performed when the use of the mobile terminal device 34 is started, or the ID information of the worker to the server device 32, for example. Login authentication processing may be performed. According to such a configuration, it is possible to improve the security of the management process and the safety of the rust prevention management by using the selection of the accessible device or the monitoring of the access of the mobile terminal device 34.

(2) In the above embodiment, the case has been described in which the portable terminal device 34 notified of the identification information is made accessible to the rust prevention processing information stored in the server device 32, but the present invention is not limited to this. The server device 32 may read the anticorrosion processing information corresponding to the notified identification information, and may transmit the anticorrosion processing information to the mobile terminal device 34 side that has notified the identification information.

(3) In the above-described embodiments and examples, rust prevention management processing is performed to set the next rust prevention processing period using rust prevention processing information including life information stored after rust prevention processing is performed. Although the case is shown, it is not limited to this. In the rust prevention management system 2, for example, life diagnosis may be performed every predetermined period, and past life information may be corrected. Then, the rust prevention management processing may be performed based on the rust prevention processing information according to the correction of the life information. That is, when the life information is changed by the life diagnosis performed again after the previous rust prevention management processing screen is generated, the rust management processing screen is updated accordingly. Further, when a change occurs in the rust prevention processing information including the life information, the server device 32 may notify the information processing device or the mobile terminal device of the registered administrator of the alarm.
According to such a configuration, it is possible to perform precise rust prevention management according to the change of the rust preventive agent with the passage of time, and it is possible to enhance the reliability of rust prevention management according to the life diagnosis result.

(4) In the rust prevention management processing, the case where the next rust prevention processing deadline is calculated using the life information registered based on the life diagnosis result, for example, is not limited to this. The mobile terminal device 34 may adjust the timing of the next rust preventive process by taking into consideration the installation environment information of the equipment 4 and the information set by the person in charge of management in the generation of the rust preventive management screen, for example. The information set by the administrator is, for example, information indicating the rust-preventive state of the equipment determined by the operator using visual inspection, palpation, or other diagnostic means, environmental information in which the equipment 4 is installed, and the like. Is included. As a result, the life of the rust preventive agent can be adjusted by adjusting the life of the rust preventive agent under conditions where rust is likely to occur, such as when the plant in which the equipment 4 is installed is near the sea or a river or in an area with a large amount of rainfall. The reliability of the rust management process can be improved.
Further, in the rust prevention management system 30, for example, the information set by the administrator may be notified to the server device 32 side and stored in the rust prevention management table 110.

As described above, the most preferable embodiment of the present invention has been described. The present invention is not limited to the above description. Various modifications and changes can be made by those skilled in the art based on the gist of the invention described in the claims or the mode for carrying out the invention. It goes without saying that such modifications and changes are included in the scope of the present invention.

INDUSTRIAL APPLICABILITY The present invention reads the identification information given to the equipment requiring the re-coating treatment of the rust preventive agent with the information processing device and notifies the server device, the life of the rust preventive treatment and the coating information of the rust preventive agent By reading the anticorrosion processing information including the information and generating the anticorrosion management processing screen, it is possible to quickly manage the anticorrosion processing information of the equipment that the person in charge of management understands, and avoid misunderstanding of information. It is useful because it increases the reliability of rust prevention management.

2, 30, 150 Anti-corrosion management system 4 Equipment 6, 32 Server device 8 Information processing device 10 Identification information presentation unit 12, 22, 57, 100 Communication unit 14, 94 Processing unit 16, 52, 98 Storage unit 18 Anti-corrosion Processing information storage 20 Identification information acquisition unit 24, 38, 44 Display unit 26 Information processing unit 34 Mobile terminal device 36 Server body 40, 54, 102 Input operation unit 42 Housing body 50, 96 Processor 55 Timer 56, 104 Input/output unit (I/O)
58 camera 60 reading unit 62 input screen 64, 130, 130-1, 130-2, 130-3, 130-4 rust prevention management processing screen 66 storage area 68 temporary storage area 70 rust management program 72 identification information 74 user information 76 Anticorrosion processing information 80 Tag 82 QR code 84 Installation means 90 Identification information 90-1 Equipment name information 90-2 Equipment No information 90-3 Installation location information of equipment 4 90-4 Equipment equipment part number 106 Monitor 108 External Memory 110 Rust Prevention Management Table 110-1 Equipment Name Information 110-2 Equipment No Information 110-3 Installation Location Information 110-4 Part Number 110-5 Initial Construction Date Information 110-6 Last Construction Date Information 110-7 Prevention Rust diagnosis date information 110-8 Test date information 110-9 Next construction deadline information 110-10 Access date information 112 Worker information table 112-1 Worker ID information 112-2 Company name information 112-3 Worker name information 114 Menu screen 116 title display section 118 recording history display section 120 capture operation section 122 read operation section 124 read screen 126 capture function section 128 light emission/quenching operation section 132 remaining life display section 134 construction history display section 136 period information display section 138 elapsed period display 140 Remaining life display 142 Warning display 144 Over-period display 146 Notification information 148 Uncontrollable display 152 Rust prevention construction section 154 Remaining life diagnosis section 156 Rust prevention management section

Claims (11)

A rust prevention management system for equipment,
A server device including a storage unit that stores the identification information of the equipment and the rust prevention processing information thereof,
A rust prevention management based on a communication unit that displays an input screen on the display unit and notifies the server device of the identification information of the equipment input on the input screen, and the rust prevention processing information acquired from the server device. An information processing device including an information processing unit that generates a processing screen and displays the processing screen on the display unit;
A rust prevention management system characterized by including. A rust prevention management system including an information processing device and a server device connected via a network,
An input screen including an input unit, which is generated by the information processing device and to which the identification information acquired from the equipment is input,
Using the rust prevention processing information acquired from the storage unit of the server device, a rust prevention management processing screen generated by the information processing device,
A processing unit that specifies equipment equipment associated with the identification information input to the input screen, and sets the information processing apparatus to allow access to rust prevention processing information of the equipment equipment,
A rust prevention management system characterized by including. Furthermore, the equipment includes an identification tag including the identification information,
The information processing apparatus includes a photographing function unit that captures an image including the identification tag according to activation of the input screen or an input operation on the input screen, and extracts the identification tag from the captured image, or the identification tag The rust prevention management system according to claim 1 or 2, wherein the identification information recorded in (1) is read out and notified to the server device side. The anticorrosion treatment information includes life information of the anticorrosion agent applied to each equipment,
The information processing device uses the acquired life information and clock information to calculate the next rust prevention processing execution timing, and includes management information of either or both of the rust prevention processing execution timing and the life information. The rust prevention management system according to any one of claims 1 to 3, wherein a rust prevention management processing screen is generated. The anticorrosion management system according to claim 4, wherein the information processing unit further includes a notification function for notifying that the next rust prevention processing execution timing has arrived. The server device stores installation environment information of the equipment in association with the identification information, and the next rust prevention processing information is adjusted or corrected by using the installation environment information. The anticorrosion management system according to any one of claims 1 to 5. Obtaining identification information from equipment,
Display an input screen for inputting the identification information on the display unit,
Sending the identification information input to the input screen to the server device,
Obtaining rust prevention processing information associated with the identification information stored in the storage unit of the server device,
Generate a rust prevention management processing screen using the rust prevention processing information,
Displaying the rust prevention management processing screen on the display unit,
A rust prevention management method characterized by including treatment. Calculating the next rust preventive treatment construction timing by using the life information and clock information of the rust preventive agent included in the rust preventive treatment information,
Generate a rust prevention management processing screen including management information of either or both of the rust prevention processing construction timing or the life information.
The rust prevention management method according to claim 7, further comprising a treatment. The rust preventive management method according to claim 8, further comprising a process of giving a notification when the rust preventive process construction timing has arrived. A rust prevention management program to be executed by a computer of an information processing device,
A function to acquire identification information from equipment,
A function of displaying an input screen for inputting the identification information on the display unit,
A function of transmitting the identification information input to the input screen to a server device,
A function of acquiring rust prevention processing information associated with the identification information stored in the storage unit of the server device,
A function for generating a rust prevention management processing screen using the rust prevention processing information,
A function to display the rust prevention management processing screen on the display unit,
Rust prevention management program characterized by including Display part,
Through the input screen displayed on the display unit, a reading unit for reading the identification information from the identification tag installed in the equipment,
A communication unit that is connected to a server device via a network, transmits the identification information, accesses the storage unit of the server device, and reads the anticorrosion processing information associated with the identification information,
An information processing unit that generates a rust prevention management processing screen based on the input screen and the rust prevention processing information acquired from the server device and causes the display unit to display the screen.
An information processing apparatus comprising:

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