JP2008139985A - On site inspection monitoring support apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an on site inspection monitoring support device capable of providing appropriate information to a worker on site, and improving working efficiency. <P>SOLUTION: The on site inspection monitoring support terminal 12 reads a tag code and apparatus status data from a tag device of an apparatus to be inspected by a tag data reading means 121. A data retrieval means 25 of a data server 21 searches a history data DB 24a based on the tag code read from the tag device of the apparatus to be inspected and acquires the apparatus status data in preceding inspection of the apparatus to be inspected. A display means 123 of the on site inspection monitoring support terminal 12 simultaneously displays the apparatus status data in preceding inspection acquired from the history data DB 24a and the apparatus status data read by the tag data reading means 121 at the present inspection. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an on-site inspection monitoring support device used for inspection work of a plurality of devices belonging to a plant installed in a power plant or the like.

  Usually, a power plant is composed of a plurality of plants, and a plurality of devices are installed in each plant, and inspection work is performed for each device by an operator at the site. Since this inspection work has different inspection items and procedures for each device, the operator performs the inspection operation while referring to the specifications and manuals of the device to be inspected. After the inspection of each device, the device data is measured and recorded. In daily inspection work, not all devices are inspected every day, but inspection is performed on each device arranged on the course according to a course selected in advance from a plurality of inspection courses.

  In addition, in the trial operation of each device after periodic inspections, as a pre-work preparation, refer to the operation manual for each device, create a field work procedure manual, and carry the procedure manual during device trial operation to operate the device. ing.

  Furthermore, when the operator performs the inspection work of each device, the operator performs the operation of taking the threshold value of each device into the portable terminal at the office before starting the on-site inspection. The threshold value is a reference value corresponding to the normal value range of each device determined based on the device state data measured at the past inspection. An operator brings a portable terminal that captures the threshold value of each device to the site and performs an inspection operation on each device. The operator measures and records the device status data of the device from the instrument provided in the device. In addition, the worker compares the device state data of the measured device with the threshold value of the mobile terminal, and determines that the device is abnormal when the measured device state data of the device deviates from the threshold value. When a device abnormality is discovered, the cause is identified by referring to the device state data at the previous inspection and referring to the inspection manual for the locations where the measurement results have changed significantly. The worker performs on-site recovery work for the equipment determined to be abnormal with reference to the recovery procedure manual. The final restoration procedure document referred to in this field restoration work is prepared in advance based on the work procedure and various manuals at the time of the previous restoration of the target device. Data measured from equipment determined to be abnormal is recorded on site by the operator. The equipment status data recorded at the site is stored by the operator taking the data back to the office.

In addition, there exists a thing described in patent document 1 as an on-site inspection monitoring assistance apparatus used for the inspection operation | work of the apparatus of the conventional plant.
Japanese Patent Laid-Open No. 5-35228

  However, the field inspection work by such a conventional technique has the following problems.

  In the field inspection work, there are multiple inspection courses and the route is complicated. For this reason, it is difficult for an operator who is not familiar with the course to know where the equipment to be inspected is. When inspection items and inspection methods are complicated, it is difficult for only inexperienced workers to perform inspection work, and it is necessary to work together with experienced persons.

  In addition, when referring to equipment manuals and records from previous inspections during trial operation during the trial operation, if preparations before work were incomplete and materials such as equipment manuals and inspection records were not prepared, The worker had to return to the office where the data was stored and check the materials.

  Furthermore, since the abnormality determination is performed by comparing the device state data of the device measured by the operator with the threshold value of the mobile terminal, the measured value may be overlooked. In addition, even if an abnormal value can be found, if there is no operation experience of the device that has found the abnormal value, it is necessary to return to the office where the data is stored and check the device recovery procedure manual and past correspondence records.

  In addition, the device status data of the measured devices must be manually registered in the data server for data registration from the portable terminal by an operator in the office.

  The present invention is proposed in order to solve the above-described problems of the prior art, and an object thereof is to provide an on-site inspection and monitoring support device capable of providing appropriate information to the worker at the site and improving work efficiency. There is to do.

The field inspection / monitoring support device according to the present invention is collected by a tag device installed in a plant device to be inspected, a field inspection / monitoring support terminal for collecting device state data of the device, and the field inspection / monitoring support terminal. On-site inspection monitoring support device comprising a data server for storing the device status data as history data,
The tag device includes a tag code storage unit that stores a tag code for identifying the tag device, and a device data collection unit that collects device state data of the device in which the tag device is installed,
The site inspection and monitoring support terminal includes a tag data reading unit that reads the tag code stored by the tag code storage unit of the tag device and the device status data collected by the device data collection unit, and the tag data reading Data transmission means for transmitting the tag code and the device status data read by the means to the data server, and display means for displaying the data,
The data server includes a history data database that stores the device status data as history data, and a data transmission unit that receives the tag code and the device status data transmitted from the data transmission unit of the site inspection monitoring support terminal. A data storage unit that stores the device status data received by the data transmission unit in the history data database; and the history data database is searched based on the tag data received by the data transmission unit; Data retrieval means for acquiring the device status data of
Furthermore, the data transmission means of the data server transmits the device status data at the time of the previous inspection acquired by the data search means to the site inspection monitoring support terminal,
The data transmission means of the on-site inspection monitoring support terminal receives the device status data at the time of the previous inspection transmitted from the data transmission means of the data server,
The display means displays the received equipment status data at the time of the previous inspection together with the equipment status data read by the tag data reading means.

  According to the present invention, it is possible to provide an on-site inspection and monitoring support apparatus that can provide appropriate information to an operator at the site and improve work efficiency.

  Embodiments of the present invention will be described below with reference to the drawings. In these drawings, the same or corresponding parts are denoted by the same reference numerals.

(First embodiment)
FIG. 1 is a block diagram showing the overall configuration of a site inspection / monitoring support apparatus 1 according to the first embodiment of the present invention.

  As shown in FIG. 1, the on-site inspection monitoring support device 1 is carried and used by a plurality of tag devices 131 to 13 m installed in the devices 111 to 11 m of the plant 11 in the power plant 10 and at the time of on-site inspection. A site inspection / monitoring support terminal 12 and a data server 21 installed in a general place 20 which is a place different from the power plant 10 are provided.

The tag devices 131 to 13m include tag code storage means 131a to 13ma for storing a tag code for identifying a device in which the tag device is installed, and device data collection for collecting device state data of the corresponding devices 111 to 11m. Means 131b to 13mb. In FIG. 1, only one plant 11 is shown for convenience, but a plurality of plants are installed in the power plant 10, and equipment belonging to a plurality of plants other than these plants 11 is also installed in the plant. A tag device similar to 11 is installed.

  The site inspection monitoring support terminal 12 includes a tag data reading unit 121 that reads tag data and device state data from the tag devices 131 to 13m, a data transmission unit 122 that performs data transmission with the data server 21 via the communication network N1, and data A display means 123 for displaying and an input means 124 for inputting instructions and data from the operator are provided.

  The data server 21 outputs and stores the data transmission means 22 for data transmission with the on-site inspection / monitoring support device 12 via the communication network N1 and the device status data transmitted from the on-site inspection / monitoring support terminal 12 to the history data DB 24a. The data storage means 23, the history data DB 24a for storing the device status data as history data, and the data search means 25 for searching the history data in the history data DB 24a in response to a data search request from the site inspection monitoring support terminal 12 are provided.

  Next, the operation of the field inspection / monitoring support apparatus 1 having the above-described configuration will be described.

  Here, a case where the worker carries the on-site inspection monitoring support terminal 12 to the installation location of the plant 11 and performs an inspection operation on the equipment 11 will be described. First, the operator brings the tag data reading means 121 of the field inspection / monitoring support terminal 12 closer to the tag device 131 installed in the equipment 111, and then operates the input means 124 to instruct reading of the equipment status data of the equipment 111. . When an instruction to read the device status data is given from the operator, the tag data reading unit 121 uses the tag code storage unit 131a of the tag device 131 to identify the device 111 in which the tag device 131 is installed. Read the code. At the same time, the tag data reading unit 121 reads the device status data of the device 111 from the device data collection unit 131b of the tag device 131. The tag data reading unit 121 outputs the read tag code and device state data of the device 111 to the data transmission unit 122.

The data transmission unit 122 transmits the tag code and device status data output from the tag code reading unit 121 to the data server 21 via the communication network N1. Further, the data transmission unit 122 outputs the device status data output from the tag code reading unit 121 to the display unit 123 as the device status data at the time of the current inspection of the device 111.

On the other hand, in the data server 21, the data transmission means 22 receives the tag code transmitted from the site inspection monitoring support terminal 12. The data transmission unit 22 outputs the received tag code to the data search unit 25. The data search unit 25 searches the history data DB 24a based on the tag code output from the data transmission unit 22, acquires the device status data at the previous inspection of the device 111 corresponding to the tag code, and sends the data to the data transmission unit 22. Output. The data transmission means 22 transmits the equipment state data at the time of the previous inspection of the equipment 111 output from the data search means 25 to the site inspection monitoring support terminal 12 via the communication network N1.

  The data transmission means 122 of the on-site inspection / monitoring support terminal 12 receives the equipment state data at the time of the previous inspection of the equipment 111 transmitted from the data server 21 and outputs it to the display means 123. In the display unit 123, the device state data at the previous inspection of the device 111 output from the data transmission unit 122 is combined with the device state data at the current inspection of the device 111 acquired this time in a format that can be compared with the operator. indicate.

  When the inspection work of the equipment 111 is completed, the operator operates the input means 124 of the on-site inspection monitoring support terminal 12 to instruct to transmit the equipment status data at the time of the current inspection to the data server 21. In response to the operator's instruction, the data transmission means 122 of the on-site inspection / monitoring support terminal 12 transmits the equipment state data at the time of the current inspection of the equipment 111 read by the tag code reading means 121 via the communication network N1. Transmit to the data server 21.

  In the data server 21, the data transmission means 22 receives the device status data at the time of the current inspection of the device 111 transmitted from the on-site inspection monitoring support terminal 12, and receives the device status data at the time of the current inspection of the received device 111. Output to the data storage means 23. The data storage unit 23 stores the device state data at the time of the current inspection of the device 111 output from the data transmission unit 22 as history data in the history data DB 24a.

  As described above, in the first embodiment, the display unit 123 displays the device state data at the previous inspection in a format that can be compared with the device state data at the current inspection. Based on the device status data, it can be confirmed whether or not the device status data at the time of the current inspection is abnormal. Therefore, the operator can easily confirm whether or not an abnormality has occurred in the device at the site.

  The history data DB 24a may store threshold data indicating the normal value range of the device status data in addition to the device status data as history data. In this case, the data search means 25 of the data server 21 searches the threshold data together with the device status data at the previous inspection when searching the history data DB 24a. The display means 123 of the on-site inspection / monitoring support terminal 12 displays the threshold value data together with the device state data at the time of the current inspection and the device state data at the time of the previous inspection in a format that can be compared by the operator.

The above description has been made on the time of the inspection work, but the same operation can be performed when displaying the equipment state data at the previous inspection of the equipment of the plant to be subjected to the trial operation during the inspection trial operation.

  In the above-described embodiment, the method for individually acquiring the device status data of the predetermined device from the data server 21 has been described. However, the present invention is not limited to this. For example, for an inspection course to be inspected by an operator, tag codes corresponding to device status data of all or a plurality of devices arranged on the inspection course are collectively stored in advance. It may be transmitted from the server 21 to the on-site inspection monitoring support terminal 12 and stored in the storage means (not shown) of the on-site inspection monitoring support terminal 12. In this case, the on-site inspection monitoring support terminal 12 performs the following operation. That is, the data transmission unit 122 determines whether or not the tag code read by the tag code reading unit 121 is stored in the storage unit of the site inspection monitoring support terminal 12. When the tag code is not stored in the storage unit, the data transmission unit 122 transmits the tag code to the data server 21 as described above. On the other hand, when the tag code is already stored in the storage unit, the data transmission unit 122 acquires the corresponding device status data from the storage unit and outputs it to the display unit 123. In this case, the data transmission unit 122 does not transmit the tag code to the data server 21.

(Second Embodiment)
FIG. 2 is a block diagram showing the overall configuration of the on-site inspection and monitoring support device 1b according to the second embodiment. The on-site inspection monitoring support device 1b of the second embodiment has a configuration in which the data server 21 further includes an equipment data DB 24b for storing equipment data, compared to the configuration of the on-site inspection monitoring support device 1 of the first embodiment. Have.

  The equipment data DB 24b includes, as equipment data, drawing data relating to each device of a plurality of plants of the power plant 10, inspection manual data (including inspection items and inspection contents), operation manual data relating to the operation method of the equipment (discovering an abnormality in the equipment) (Including manual data indicating the recovery procedure in case of failure).

  By providing the equipment data DB 24b as described above, the equipment data is displayed in addition to the display of the equipment state data at the time of the previous inspection at the site inspection monitoring support terminal 12 at the site.

  Next, the operation of the field inspection / monitoring support apparatus 1b of the second embodiment will be described. When an instruction to read the device status data is given from the operator, the tag data reading unit 121 uses the tag code storage unit 131a of the tag device 131 to specify a unique tag code for identifying the device 111 on which the tag device 131 is installed. Read. The data transmission unit 122 transmits the tag code read by the tag data reading unit 121 to the data server 21 via the communication network N1.

In the data server 21, the data transmission unit 22 receives the tag code of the device 111 transmitted from the data transmission unit 122 and outputs it to the data search unit 25. The data search unit 25 searches the history data DB 24 a based on the tag code of the device 111 output from the data transmission unit 22 and acquires device state data at the time of the previous inspection of the device 111. Further, the data search means 25 searches the equipment data DB 24b based on the tag code of the equipment 111 and acquires equipment data of the equipment 111. The data search unit 25 outputs the acquired device state data and facility data at the previous inspection of the device 111 to the data transmission unit 22. The data transmission means 22 transmits the equipment state data and the equipment data at the time of the previous inspection of the equipment 111 output from the data search means 25 to the site inspection monitoring support terminal 12 via the communication network N1.

  The data transmission means 122 of the on-site inspection monitoring support terminal 12 receives the equipment state data and the equipment data at the time of the previous inspection of the equipment 111 transmitted from the data server 21 and outputs them to the display means 123. Then, the display means 123 displays the device status data at the previous inspection of the device 111 and the device status data at the current inspection of the device 111 in a format that can be compared, and also displays the equipment data of the device 111.

As described above, in the second embodiment, equipment data such as drawing data, inspection manual data, and operation manual data of equipment to be worked is displayed on the site inspection monitoring support terminal 12 at the time of inspection work. It becomes possible to confirm easily.

Moreover, operations other than the operation of displaying the equipment data of the inspection target device described above in the on-site inspection / monitoring support device 1b of the second embodiment are the same as those of the on-site inspection / monitoring support device 1 of the above-described first embodiment. .

In the above description, the inspection operation has been described. However, when the equipment data of the plant equipment to be subjected to the trial operation is displayed during the inspection trial operation, the same operation can be performed.

In the above-described embodiment, the method for individually acquiring the device status data and the facility data of the predetermined device from the data server 21 has been described. However, the present invention is not limited to this. For example, for an inspection course to be inspected by an operator, all or a plurality of pieces of equipment status data, equipment data, and corresponding tag codes arranged on the inspection course are preliminarily stored together. Then, it may be transmitted from the data server 21 to the on-site inspection / monitoring support terminal 12 and stored in the storage means (not shown) of the on-site inspection / monitoring support terminal 12. In this case, the data transmission unit 122 determines whether the tag code read by the tag code reading unit 121 is stored in the storage unit of the on-site inspection monitoring support terminal 12. When the tag code is not stored in the storage unit, the data transmission unit 122 transmits the tag code to the data server 21 as described above. On the other hand, when the tag code is already stored in the storage means, the data transmission means 122 acquires the corresponding device status data and equipment data from the storage means and outputs them to the display means 123. In this case, the data transmission unit 122 does not transmit the tag code to the data server 21.

(Third embodiment)
FIG. 3 is a block diagram showing the overall configuration of the on-site inspection and monitoring support device 1c according to the third embodiment. The on-site inspection monitoring support device 1c of the third embodiment is further provided with an inspection history data DB 24c for storing inspection history data in the data server 21 with respect to the configuration of the on-site inspection monitoring support device 1b of the second embodiment. Have

  The inspection history data DB 24c stores, as inspection history data, check result data, awareness data, and inspection test operation history data of each device during an inspection test operation, which are input by an operator.

  As a result, in the field inspection / monitoring support device 1c, the field inspection / monitoring support terminal 12 reads the tag code from the tag device of the device to be inspected, and in addition to the device status data and facility data at the previous inspection of the corresponding device, the inspection is performed. History data is also displayed.

  Next, the operation of the field inspection / monitoring support apparatus 1c according to the third embodiment will be described.

At the time of the inspection work on the device 111, the data input means 124 inputs data related to the check result and noticed items at the time of the inspection of the device 111 by the operation of the on-site inspection / monitoring support terminal 12 from the operator. The data transmission unit 122 transmits the input check result data and awareness data of the device 111 to the data server 21 via the communication network N1. Even when the inspection test operation history data is input by the data input means 124 from the operator during the inspection test operation for the device 111, the data transmission means 122 transmits the input inspection test operation history data of the device 111 to the data server via the communication network N1. 21 is transmitted.

  On the other hand, in the data server 21, the data transmission means 22 receives the check result data, noticed item data, and inspection test operation history data of the device 111 transmitted from the on-site inspection monitoring support terminal 12, and the received inspection history of these devices 111. Data is output to the data storage means 23. The data storage unit 23 stores the inspection history data of the device 111 output from the data transmission unit 22 in the inspection history data DB 24c.

  As described above, after the inspection history data of the device 111 is stored in the inspection history data BD24c, when inspection work (next inspection work) is performed on the device 111, the inspection history data of the device 111 is displayed as follows.

That is, at the next inspection operation, when an instruction is given to read the device status data from the operator, the tag data reading unit 121 identifies the device 111 on which the tag device 131 is installed from the tag code storage unit 131a of the tag device 131. To read the unique tag code. The data transmission unit 122 transmits the tag code read by the tag data reading unit 121 to the data server 21 via the communication network N1.

In the data server 21, the data transmission means 22 receives the tag code of the device 111 transmitted from the site inspection / monitoring support terminal 12 and outputs it to the data search means 25. The data search means 25 searches the history data DB 24a and the equipment data DB 24b based on the tag code of the equipment 111, respectively, and acquires equipment status data and equipment data at the time of the previous inspection of the equipment 111. Further, the data search means 25 searches the inspection history data DB 24 c based on the tag code of the device 111 and acquires the inspection history data of the device 111. The data search unit 25 outputs the acquired device state data, facility data, and inspection history data at the previous inspection of the device 111 to the data transmission unit 22. The data transmission means 22 transmits the equipment state data, the equipment data, and the inspection history data at the previous inspection of the equipment 111 output from the data search means 25 to the site inspection monitoring support terminal 12 via the communication network N1.

  The data transmission means 122 of the on-site inspection / monitoring support terminal 12 receives the equipment state data, the equipment data, and the inspection history data at the time of the previous inspection of the equipment 111 transmitted from the data server 21 and outputs them to the display means 123. Then, the display means 123 displays the device status data at the previous inspection of the device 111 and the device status data at the current inspection of the device 111 in a format that can be compared. Is also displayed.

In this way, the inspection history data (check result data, noticed item data, inspection test operation history data at the previous inspection) is displayed together with the inspection manual data (inspection items, inspection details) of the equipment data, so the operator By referring to the inspection history data, it is possible to easily confirm important matters and precautions in the current inspection work.

The operations other than the operation for displaying the inspection history data of the inspection target device described above in the on-site inspection monitoring support device 1c of the third embodiment are the same as those of the on-site inspection monitoring support device 1c of the second embodiment described above. is there.

  Although the above has been described with respect to the inspection work, the same operation can be performed when displaying inspection history data of the plant equipment to be subjected to the trial operation during the inspection trial operation.

In the above-described embodiment, the method of individually acquiring the device status data, the facility data, and the inspection history data of the predetermined device from the data server 21 has been described. However, the present invention is not limited to this. For example, for an inspection course to be inspected by an operator, device status data, facility data, inspection history data, and corresponding tag codes of all or a plurality of devices arranged on the inspection course. May be transmitted in advance from the data server 21 to the site inspection / monitoring support terminal 12 and stored in the storage means (not shown) of the site inspection / monitoring support terminal 12. In this case, the data transmission unit 122 determines whether the tag code read by the tag code reading unit 121 is stored in the storage unit of the on-site inspection monitoring support terminal 12. When the tag code is not stored in the storage unit, the data transmission unit 122 transmits the tag code to the data server 21 as described above. On the other hand, when the tag code is already stored in the storage unit, the data transmission unit 122 acquires the corresponding device status data, facility data, and inspection history data from the storage unit and outputs them to the display unit 123. In this case, the data transmission unit 122 does not transmit the tag code to the data server 21.

(Fourth embodiment)
FIG. 4 is a block diagram showing the overall configuration of the on-site inspection and monitoring support device 1d according to the fourth embodiment. The field inspection / monitoring support apparatus 1d of the fourth embodiment is different from the structure of the field inspection / monitoring support apparatus 1c of the third embodiment in that the data server 21 stores the apparatus arrangement map data and the inspection route data DB 24d. The inspection route data DB 24e for storing data is further provided.

  The equipment layout data stored in the equipment layout data DB 24d is data indicating the layout position of each device that is placed in the building of the power plant 10. The inspection route data DB 24e is data indicating the inspection order of a plurality of devices to be inspected for each inspection route and the inspection route for the plurality of inspection routes in the power plant 10.

  Next, the operation of the field inspection / monitoring support apparatus 1d according to the fourth embodiment will be described.

First, when an inspection route to be inspected is designated by an operation of the data input unit 124 of the on-site inspection monitoring support terminal 12 by an operator at the start of the inspection operation, the data transmission unit 122 starts from the data input unit 124. Inspection route designation data indicating the input inspection route is transmitted to the data server 21 via the communication network N1.

  In the data server 21, the data transmission means 22 receives the inspection route designation data transmitted from the site inspection monitoring support terminal 12 and outputs it to the data search means 25. The data search means 25 searches the inspection route data DB 24d and the equipment layout map data DB 24e based on the inspection route designation data output from the data transmission means 22, and acquires the corresponding inspection route data and equipment layout data. . Then, the data search means 25 outputs the acquired inspection route data and equipment layout map data to the data transmission means 22. The data transmission unit 22 transmits the inspection route data and the equipment layout map data output from the data search unit 25 to the site inspection monitoring support terminal 12 via the communication network N1.

  In the on-site inspection monitoring support terminal 12, the data transmission unit 122 receives the inspection route data and the equipment layout map data transmitted from the data server 21 and outputs them to the display unit 123. Then, the display unit 123 displays the inspection route data and the equipment layout map data output from the data transmission unit 122.

Here, for example, a case will be described in which an operator specifies an inspection route that includes the equipment 111 of the plant 11 and uses the equipment 111 as the first inspection target at the start of inspection. At this time, the display means 123 displays the route from the entrance of the building where the device 111 is arranged to the arrangement position of the device 111 as inspection route data, and the arrangement drawing of the device 111 in the building as device arrangement diagram data. indicate.

  When the inspection work on the device 111 is completed, the inspection completion data of the device 111 is input from the operator by the data input means 124 of the on-site inspection monitoring support terminal 12. When the inspection end data of the device 111 is input by the data input unit 124, the data transmission unit 122 transmits the inspection end data of the device 111 to the data server 21 via the communication network N1.

  In the data server 21, the data transmission means 22 receives the inspection end data of the equipment 111 transmitted from the on-site inspection monitoring support terminal 12 and outputs it to the data search means 25. The data search unit 25 searches the inspection route data DB 24d and the device layout map data DB 24e based on the inspection end data of the device 111 output from the data transmission unit 22, respectively, and the inspection route regarding the device of the next inspection order of the device 111. Data and device layout data are acquired. Then, the data search means 25 outputs to the data transmission means 22 the inspection route data and device layout data relating to the acquired device of the next inspection order. The data transmission means 22 transmits the inspection route data and the equipment layout map data regarding the equipment in the next inspection order output from the data search means 25 to the site inspection monitoring support terminal 12 via the communication network N1.

  In the field inspection / monitoring support terminal 12, the inspection route data and device layout data relating to the next inspection device transmitted from the data server 21 are received by the data transmission unit 122 and output to the display unit 123. Then, the display unit 123 displays the inspection route data and the device layout data regarding the device of the next inspection order output from the data transmission unit 122.

Operations other than the operation of displaying the inspection route data and the equipment layout data described above in the on-site inspection monitoring support device 1d of the fourth embodiment are the same as those of the on-site inspection monitoring support device 1c of the third embodiment described above. .

  As described above, in the fourth embodiment, the inspection route data and device layout data of the work target device are displayed at the time of the check work, so that the operator can easily check the check route and the placement position of the work target device. . For this reason, even an operator unfamiliar with the equipment in the building can easily perform the inspection work.

Although the above has been described for the inspection operation, the same operation can be performed when displaying the inspection route data and device layout data of the plant equipment to be subjected to the trial operation during the inspection test operation.

In the above-described embodiment, the method for individually obtaining the inspection route data and device layout data of a predetermined device from the data server 21 has been described. However, the present invention is not limited to this. For example, for an inspection course to be inspected by an operator, inspection route data and equipment layout data of all or a plurality of devices arranged on the inspection course are collectively stored in advance. It may be transmitted from the server 21 to the on-site inspection monitoring support terminal 12 and stored in the storage means (not shown) of the on-site inspection monitoring support terminal 12. In this case, when the inspection end data of the predetermined device is input by the data input unit 124, the data transmission unit 122 displays the inspection route data and the device layout data regarding the device of the next inspection order in the field inspection monitoring support terminal 12. It is determined whether it is stored in the storage means. When the inspection route data and device layout data regarding the device of the next inspection order are not stored in the storage unit, the data transmission unit 122 transmits the inspection end data of the predetermined device to the data server 21 in the same manner as described above. . On the other hand, when the inspection route data and device layout data relating to the equipment in the next inspection order are already stored in the storage means, the data transmission means 122 checks the inspection route data and equipment layout relating to the equipment in the next inspection order from the storage means. Data is acquired and output to the display means 123. In this case, the data transmission unit 122 does not transmit the inspection end data of the predetermined device to the data server 21.

(Fifth embodiment)
FIG. 5 is a block diagram showing the overall configuration of the on-site inspection and monitoring support device 1e according to the fifth embodiment. The field inspection / monitoring support device 1e of the fifth embodiment is further provided with an integrated tag device 14 on each floor of the building of the plant 11 of the power plant 10 in addition to the configuration of the field inspection / monitoring support device 1d of the fourth embodiment. In addition, the tag devices 131 to 13m are provided with communication means 131c to 13mc and light emitting means 131d to 13md, respectively, and the on-site inspection monitoring support terminal 12 is provided with the communication means 125. Here, for convenience, only one integrated tag device 14 is illustrated in FIG. 5, but the integrated tag devices 14 corresponding to the number of floors of the building of the plant 11 are installed.

The devices 111 to 11m are arranged separately on each floor of the building of the plant 11, and in the device layout drawing data DB 24e, for each floor of the building of the plant 11, the arrangement position of the devices existing on the corresponding floor Is stored in the equipment layout data of the entire floor.

  Next, the operation of the field inspection / monitoring support apparatus 1e according to the fifth embodiment will be described.

When reaching the entrance of each floor of the building of the plant 11, the operator operates the on-site inspection / monitoring support terminal 12, and reads the integrated tag code from the integrated tag device 14 installed at the floor entrance by the tag data reading means 121. For example, in the case of the first floor entrance, the tag data reading means 121 reads the integrated tag code of the integrated tag device 14 installed at the first floor entrance. The data transmission unit 122 transmits the integrated tag code of the integrated tag device 14 on the first floor read by the tag data reading unit 121 to the data server 21 via the communication network N1.

  In the data server 21, the data transmission means 22 receives the integrated tag code of the integrated tag device 14 on the first floor transmitted from the site inspection / monitoring support terminal 12 and outputs it to the data search means 25. The data search means 25 searches the equipment layout map data DB 24e based on the integrated tag code of the first floor integrated tag device 14 output from the data transmission means 22, and acquires the equipment layout map data of the entire floor on the first floor. . Then, the data search unit 25 outputs the acquired device layout data of the entire first floor to the data transmission unit 22. The data transmission unit 22 transmits the equipment layout map data of the entire first floor output from the data search unit 25 to the site inspection monitoring support terminal 12 via the communication network N1.

  In the field inspection / monitoring support terminal 12, the data transmission unit 122 receives the equipment layout map data of the entire first floor transmitted from the data server 21, and outputs it to the display unit 123. The display unit 123 displays the equipment layout data of the entire first floor output from the data transmission unit 122.

When the equipment layout map data of the entire floor on the first floor is displayed on the display means 123, the operator operates the data input means 124 to check the equipment to be inspected from the equipment layout charts displayed on the display means 123. Select. When a predetermined device is selected by the data input unit 124, the communication unit 125 notifies the tag device of the selected predetermined device that the device on which the tag device is installed has been selected. Send notification data. For example, when the device 111 is selected, the communication unit 125 transmits device selection notification data that notifies the tag device 131 that the device 111 has been selected. In the tag device 131, the communication means 131c receives the device selection notification data transmitted from the site inspection monitoring support terminal 12. When the device selection notification data is received by the communication unit 131c, the light emitting unit 131d emits light.

In the field inspection / monitoring support apparatus 1e of the fifth embodiment, operations other than the operation when the light emitting means is caused to emit light are the same as those of the field inspection / monitoring support apparatus 1d of the fourth embodiment.

  As described above, in the fifth embodiment, the light emitting means of the tag device installed in the equipment selected by the operator is caused to emit light, thereby easily confirming the installation position of the equipment on the floor of the building where the plant is installed. It becomes possible.

Although the above has been described for the inspection operation, the same operation can be performed when the light emitting means of the tag device installed in the equipment of the plant that is the target of the test operation is caused to emit light during the inspection test operation.

(Sixth embodiment)
FIG. 6 is a block diagram showing the overall configuration of the on-site inspection and monitoring support device 1f according to the sixth embodiment. The field inspection / monitoring support apparatus 1f of the sixth embodiment further includes a tag code association data DB 24f in the data server 21 in addition to the structure of the field inspection / monitoring support apparatus 1e of the fifth embodiment. Moreover, it has the structure which installed the tag apparatus also with respect to the components which comprise an apparatus, for example, a tag apparatus is installed with respect to the components 111a-111m which comprise the apparatus 111 as FIG. In FIG. 6, only the tag device 1311 installed in the component 111 a is illustrated, but the tag devices of other components of the device 111 have the same configuration as the tag device 1311. In addition, the tag device installed in a part constituting the device other than the device 111 of the plant 11 has the same configuration as the tag device 1311.

  An example of the tag code association data DB 24f of the data server 21 is shown in FIG. As shown in FIG. 7, the tag code association data DB 24f is a parent-child of the integrated tag code of the integrated tag device 14 on each floor of the plant 11 in the power plant and the tag codes of the tag devices 131 to 13m installed in the devices 111 to 11m. Tag code association data in which the tag codes of the tag devices 131 to 13m installed in the devices 111 to 11m and the tag codes of the tag devices installed in the parts of the devices 111 to 11m are related as parent-child relationships. Is stored.

  Next, the operation of the on-site inspection monitoring support device 1f of the sixth embodiment will be described.

Here, for example, when the device arrangement diagram data of the entire floor on the first floor in the building of the plant 11 is displayed on the display unit 123 of the site inspection monitoring support terminal 12 by the operation described in the fifth embodiment. To do. At this time, when the operator operates the data input unit 124 and selects a device to be inspected from the devices in the device layout diagram of the entire first floor displayed on the display unit 123, the data transmission unit 122 transmits inspection target device data indicating the selected inspection target device to the data server 21 via the communication network N1.

  In the data server 21, the data transmission means 22 receives the inspection target device data transmitted from the on-site inspection monitoring support terminal 12 and outputs it to the data search means 25. The data search unit 25 searches the tag code association data DB 24f based on the inspection target device data output from the data transmission unit 22, and searches for the device tag code of the inspection target device and the parts installed in the inspection target device. Get the part tag code. Further, the data search means 25 searches the history data DB 24a, facility data DB 24b, and inspection history data DB 24c based on the acquired device tag code of the device to be inspected and the part tag code of the part installed in the device to be inspected. In addition, the history data, facility data, and inspection history data of the inspection target device are acquired, and further, history data, facility data, and inspection history data of each component installed in the inspection target device are acquired. Then, the data search means 25 outputs the acquired equipment to be inspected and history data, facility data, inspection history data, and part tag code of each part installed in the equipment to be inspected to the data transmission means 22. The data transmission means 22 outputs the history data, facility data, inspection history data, and part tag code of the equipment to be inspected and the parts installed in the equipment to be inspected, outputted from the data search means 25, through the communication network N1. To the on-site inspection monitoring support terminal 12 via

  In the on-site inspection monitoring support terminal 12, the data transmission means 122 has the inspection target device transmitted from the data server 21 and the history data, facility data, inspection history data, and component tag of each component installed in the inspection target device. The code is received and output to the display means 123.

The data transmission unit 122 also displays the received inspection target device and the history data, facility data, inspection history data, and component tag code of each component installed in the inspection target device on the site inspection monitoring support terminal 12. Do not store in storage means.

The display unit 123 displays the inspection target device output from the data transmission unit 122 and the history data, facility data, and inspection history data of each component installed in the inspection target device. Here, in the display in the display means 123, first, the history data, equipment data, and inspection history data of the inspection target device are displayed, and a list of each component installed in the inspection target device is displayed. The component tag code may be displayed in correspondence with each component list. Alternatively, although the component tag code is not displayed, the display unit 123 may internally hold the component tag code corresponding to each component displayed as a list.

When the operator operates the data input unit 124 and selects a predetermined part from the list of parts installed in the inspection target device displayed on the display unit 123, the display unit 123 displays the selected part. The storage unit is searched based on the component tag code corresponding to the item, and the history data, facility data, and inspection history data of the corresponding component are acquired from the storage unit and displayed.

As described above, in the sixth embodiment, not only the history data, equipment data, and inspection history data of the equipment to be inspected but also the history data, equipment data, and inspection history data of the parts of the equipment to be inspected are displayed. The operator can easily check the part drawings and the inspection history on site.

In addition, the operations other than the operation when displaying the history data, facility data, and inspection history data of each part installed in the inspection target device described above in the on-site inspection monitoring support device 1f of the sixth embodiment are described above. This is the same as the on-site inspection and monitoring support device 1e of the fifth embodiment.

Although the above has been described for the inspection operation, the same operation can be performed when displaying the history data, facility data, and inspection history data of each component installed in the plant equipment that is the target of the test operation during the inspection test operation.

(Seventh embodiment)
FIG. 8 is a block diagram illustrating an overall configuration of a site inspection / monitoring support apparatus 1g according to the seventh embodiment. The field inspection / monitoring support apparatus 1g according to the seventh embodiment further includes a threshold data DB 24g and a determination unit 26 in the data server 21 in addition to the structure of the field inspection / monitoring support apparatus 1f according to the sixth embodiment. .

  The threshold data DB 24g stores threshold values indicating the normal value range of the device state data set in advance for the devices 111 to 11m of the plant 11 as threshold data. The determination unit 26 compares the current value of the device state data measured from the device to be inspected with the threshold value of the corresponding threshold data in the threshold data DB 24g, and determines whether the current value exceeds the threshold value of the threshold data. Is.

Next, the operation of the field inspection / monitoring support apparatus 1g according to the seventh embodiment will be described.

  Here, for example, a case where the device state data of the device 111 is measured will be described.

  When reading of the device status data of the device 111 is instructed by the operation of the on-site inspection / monitoring support terminal 12 from the operator, the tag data fetching unit 121 causes the tag code storing unit 131a and the device data collecting unit of the tag device 131 to be read. The tag code of the tag device 131 and the device status data of the device 111 are read from 131b. The read tag code of the tag device 131 and the device status data of the device 111 are transmitted by the data transmission means 122 to the data server 21 via the communication network N1.

  On the other hand, in the data server 21, the data transmission means 22 receives the tag code of the tag device 131 and the device status data of the device 111 transmitted from the site inspection monitoring support terminal 12. Then, the data transmission unit 22 outputs the tag code of the tag device 131 and the device state data of the device 111 to the determination unit 26. Further, the data transmission unit 22 outputs the tag code of the tag device 131 to the data search unit 25. The data search unit 25 searches the threshold data DB 24g based on the transmitted tag code of the tag device 131, acquires the threshold data of the device status data of the corresponding device 111, and outputs it to the determination unit 26. The determination unit 26 compares the threshold value indicated by the threshold value data of the device state data of the device 111 output from the data search unit 25 with the current value of the device state data of the device 111 output from the data transmission unit 22. It is determined whether or not the value exceeds a threshold value. As a result, when it is determined that the current value exceeds the threshold value, the determination unit 26 determines that the current value exceeds the threshold value in order to warn the worker that the state of the device is in an alarm state to be alarmed. Alarm data indicating that the data is being transmitted is output to the data transmission means 22. At this time, the determination unit 26 adds the tag code of the tag device 131 to the alarm data and outputs it to the data transmission unit 22. Then, the data transmission means 22 transmits the alarm data to which the tag code of the tag device 131 is added to the site inspection / monitoring support terminal 12 via the communication network N1.

  In the field inspection / monitoring support terminal 12, the data transmission unit 122 receives the alarm data to which the tag code of the tag device 131 transmitted from the data server 21 is added, and outputs it to the communication unit 125. The communication unit 125 identifies the device 111 to be alarmed based on the tag code added to the alarm data output from the data transmission unit 122, and transmits the alarm data to the tag device 131 corresponding to the device 111. To do.

  In the tag device 131, when the communication unit 131c receives alarm data transmitted from the communication unit 125 of the on-site inspection monitoring support terminal 12, the light emitting unit 131d emits light.

Operations other than the operation at the time of alarming the alarm state of the device described above in the on-site inspection monitoring support device 1g of the seventh embodiment are the same as those of the on-site inspection monitoring support device 1f of the above-described sixth embodiment.

  As described above, in the seventh embodiment, since the tag device corresponding to the alarm state among the devices to be inspected is made to emit light before the inspection operation, the worker can inspect the inspection object before the inspection operation. It is possible to detect an abnormality in the device.

Although the above has been described for the inspection work, the same operation can be performed when the corresponding tag device emits light before the inspection work for the equipment that is in the alarm state among the equipment of the plant subject to the trial operation during the inspection test operation. The

(Eighth embodiment)
FIG. 9 is a block diagram showing an overall configuration of a site inspection / monitoring support apparatus 1h according to the eighth embodiment. The field inspection / monitoring support apparatus 1h according to the eighth embodiment further includes a device replacement history data DB 24h and a calculation unit 27 in the data server 21 in addition to the structure of the field inspection / monitoring support apparatus 1g according to the seventh embodiment. Have

  The device replacement history data DB 24h stores device replacement history data indicating the past replacement date and the like for each of the devices 111 to 11m of the plant 11 as the device replacement history data. In addition, the facility data DB 24b further stores exchange condition data such as total operation time, operation frequency, and operation period preset for each of the devices 111 to 11m as device information data. The calculating means 27 calculates the next replacement time of a predetermined device from the device replacement history data in the device replacement history data DB 24h and the replacement condition data in the equipment data DB 24b.

Next, the operation of the site inspection / monitoring support apparatus 1h according to the eighth embodiment will be described. Here, for example, a case where the device 111 is inspected will be described.

When reading of the tag code of the device 111 is instructed by the operation of the on-site inspection / monitoring support terminal 12 from the operator, the tag data fetching unit 121 receives the tag of the tag device 131 from the tag code storage unit 131a of the tag device 131. Read the code. The read tag code of the tag device 131 is transmitted by the data transmission means 122 to the data server 21 via the communication network N1.

In the data server 21, the data transmission unit 22 receives the tag code of the tag device 131 transmitted from the site inspection monitoring support terminal 12 and outputs it to the data search unit 25. The data search means 25 searches the equipment data DB 24b and the equipment replacement history data DB 24h based on the tag code of the tag device 131 output from the data transmission means 22, respectively, and exchange condition data and equipment replacement history data of the corresponding equipment 111. Get each. The data search unit 25 outputs the acquired replacement condition data and device replacement history data of the device 111 to the calculation unit 27. The calculating unit 27 calculates the next replacement time of the device 111 based on the replacement condition data of the device 111 and the device replacement history data output from the data search unit 25, and determines whether or not the calculated next replacement time is approaching. To do. When it is determined that the next replacement time is approaching, the calculation unit 27 outputs replacement alarm data indicating that the next replacement time is approaching to the data transmission unit 22. Here, the replacement alarm data output from the calculation means 27 includes data indicating the next replacement time.

The data transmission means 22 adds the replacement alarm data output from the calculation means 27 to equipment data such as inspection items that are separately acquired and output by the data search means 25, and these data are subjected to on-site inspection via the communication network N1. The data is transmitted to the monitoring support terminal 12.

  In the field inspection / monitoring support terminal 12, the data transmission unit 122 receives replacement alarm data for the device 111 and equipment data such as inspection items transmitted from the data server 21, and outputs them to the display unit 123. The display unit 123 displays facility data such as inspection items output from the data transmission unit 122 and displays a warning that the next replacement time of the device 111 is approaching based on the replacement alarm data. In this warning display, data indicating the next replacement time is also displayed.

  For example, when the device 111 is replaced, the operator operates the data input unit 124 of the on-site inspection monitoring support terminal 12 and inputs device replacement data indicating that the device 111 has been replaced. . The device exchange data of the device 111 input from the data input unit 124 is transmitted from the data transmission unit 122 to the data server 21 via the communication network N1.

  In the data server 21, the data transmission unit 22 receives the device exchange data of the device 111 transmitted from the site inspection monitoring support terminal 12 and outputs it to the data storage unit 23. The data storage unit 23 stores the device exchange data of the device 111 output from the data transmission unit 22 as the device exchange history data in the device exchange history data DB 24h.

  In the field inspection / monitoring support apparatus 1h according to the eighth embodiment, the operations other than the operation for displaying the warning indicating that the next replacement time is approaching are the same as those in the field inspection / monitoring support apparatus 1g according to the seventh embodiment. It is the same.

  As described above, in the eighth embodiment, a warning is displayed to indicate that the next replacement time is approaching in accordance with the timing at which the operator refers to the inspection item of the inspection target device on site, and the next replacement time is displayed. As a result, the operator can easily confirm that the next replacement period is approaching at the site, and therefore, it is possible to prevent replacement leakage of the device and parts of the device.

The above description has been made on the time of the inspection work. However, the same operation can be performed when a warning is displayed indicating that the next replacement time is approaching for the equipment of the plant subject to the test operation during the inspection test operation.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment.

The block diagram which shows the whole structure of the field inspection monitoring assistance apparatus 1 of 1st Embodiment. The block diagram which shows the whole structure of the site inspection monitoring assistance apparatus 1b of 2nd Embodiment. The block diagram which shows the whole structure of the site inspection monitoring assistance apparatus 1c of 3rd Embodiment. The block diagram which shows the whole structure of the site inspection monitoring assistance apparatus 1d of 4th Embodiment. The block diagram which shows the whole structure of the site inspection monitoring assistance apparatus 1e of 5th Embodiment. The block diagram which shows the whole structure of the site inspection monitoring assistance apparatus 1f of 6th Embodiment. The figure which shows an example of the tag code correlation data stored in tag code correlation data DB24f. The block diagram which shows the whole structure of the site inspection monitoring assistance apparatus 1g of 7th Embodiment. The block diagram which shows the whole structure of the site inspection monitoring assistance apparatus 1h of 8th Embodiment.

Explanation of symbols

  1, 1b, 1c, 1d, 1e, 1f, 1h ... Site inspection monitoring support device, 10 ... Power plant, 11 ... Plant, 12 ... Site inspection monitoring support terminal, 14 ... Integrated tag device, 20 ... Integration location, 21 ... Data server, 22, 122 ... Data transmission means, 23 ... Data storage means, 24a ... History data DB, 24b ... Equipment data DB, 24c ... Inspection history data DB, 24d ... Inspection route data DB, 24e ... Equipment layout map data DB 24f ... tag code association data DB, 24g ... threshold data DB, 24h ... device exchange history data DB, 26 ... determination means, 27 ... calculation means, N1 ... communication network, 111 ... device 1, 11m ... device m, 111a ... Component 1, 111m ... Component m, 121 ... Tag data reading means, 123 ... Display means, 124 ... Data input means, 125, 131c 13mc, 1311c ... communication unit, 131d, 13md, 1311d ... light-emitting unit, 131,13m, 1311 ... tag device, 131a, 13ma, 1311a ... tag code storage means, 131b, 13mb, 1311b ... equipment data acquisition means.

Claims (8)

Tag device installed in equipment of plant to be inspected, on-site inspection monitoring support terminal collecting equipment state data of the equipment, and storing the equipment state data collected by the on-site inspection monitoring support terminal as history data On-site inspection monitoring support device equipped with a data server
The tag device is
Tag code storage means for storing a tag code for identifying the tag device;
Device data collection means for collecting device status data of the device on which the tag device is installed,
The on-site inspection monitoring support terminal is
Tag data reading means for reading the tag code stored by the tag code storage means of the tag device and the device status data collected by the device data collecting means;
Data transmission means for transmitting the tag code and the device status data read by the tag data reading means to the data server;
Display means for displaying data,
The data server is
A history data database for storing the device status data as history data;
Data transmission means for receiving the tag code and the device status data transmitted from the data transmission means of the site inspection monitoring support terminal;
Data storage means for storing the device status data received by the data transmission means in the history data database;
Searching the history data database based on the tag data received by the data transmission means, comprising data search means for obtaining device status data at the previous inspection,
Furthermore, the data transmission means of the data server transmits the device status data at the time of the previous inspection acquired by the data search means to the site inspection monitoring support terminal,
The data transmission means of the on-site inspection monitoring support terminal receives the device status data at the time of the previous inspection transmitted from the data transmission means of the data server,
The display means displays the received equipment status data at the time of the previous inspection together with the equipment status data read by the tag data reading means. The data server further comprises an equipment data database for storing equipment data such as drawings or inspection items of the equipment,
The data search means of the data server searches the equipment data database based on the tag data transmitted from the data transmission means of the site inspection monitoring support terminal, and acquires corresponding equipment data,
The data transmission means of the data server transmits the facility data acquired by the data search means to the site inspection monitoring support terminal,
The data transmission means of the site inspection monitoring support terminal receives the facility data transmitted from the data transmission means of the data server,
The field inspection monitoring support device according to claim 1, wherein the display unit displays the received equipment data. The data server further comprises an inspection history data database for storing inspection history data such as a check result at the time of inspection of the device,
The data search means of the data server searches the inspection history data database based on the tag data transmitted from the data transmission means of the site inspection monitoring support terminal, and acquires the inspection history data.
The data transmission means of the data server transmits the inspection history data acquired by the data search means to the site inspection monitoring support terminal,
The data transmission means of the site inspection monitoring support terminal receives the inspection history data transmitted from the data transmission means of the data server;
The field inspection / monitoring support apparatus according to claim 1, wherein the display unit of the field inspection / monitoring support terminal displays the received inspection history data. The data server includes an equipment layout data database that stores equipment layout data that indicates the location of equipment in the plant, and an inspection route data database that stores inspection route data that indicates the inspection route of the equipment. In addition,
The data search means of the data server searches the equipment layout map data database and the inspection route data database based on the tag data transmitted from the data transmission means of the site inspection monitoring support terminal, and the equipment layout map data And check route data,
The data transmission means of the data server transmits the equipment layout map data and inspection route data acquired by the data search means to the site inspection monitoring support terminal,
The data transmission means of the on-site inspection monitoring support terminal receives the equipment layout map data and inspection route data transmitted from the data transmission means of the data server,
The field inspection monitoring support according to any one of claims 1 to 3, wherein the display means of the field inspection monitoring support terminal displays the received equipment layout map data and inspection route data. apparatus. Comprising an integrated tag device installed in the building where the equipment is installed;
The data server includes a device layout data database for storing device layout data of the entire floor showing a layout position of devices existing on the floor in the building,
The on-site inspection monitoring support terminal includes a first communication means for communicating with the tag device,
The tag device includes a second communication unit that communicates with the first communication unit of the site inspection monitoring support terminal, and a light emitting unit,
The tag data reading means of the site inspection monitoring support terminal reads an integrated tag code from the integrated tag device,
The data transmission means of the site inspection / monitoring support terminal transmits the integrated tag code of the integrated tag device read by the tag data reading means to the data server and the equipment of the entire floor transmitted from the data server. Receive the layout data,
The display means of the site inspection monitoring support terminal displays the equipment layout map data of the entire floor received by the data transmission means,
The input means of the on-site inspection monitoring support terminal selects equipment to be inspected from equipment layout data of the entire floor displayed by the display means,
The first communication means of the site inspection monitoring support terminal transmits device selection notification data for notifying that the device is selected to the tag device of the device selected by the input means,
The data search means of the data server searches the equipment layout map data database and the inspection route data database based on the integrated tag code of the integrated tag device transmitted from the data transmission means of the site inspection monitoring support terminal, Obtain the equipment layout data and inspection route data,
The data transmission means of the data server transmits the equipment layout map data of the entire floor acquired by the data search means to the site inspection monitoring support terminal,
The second communication means of the tag device receives the device selection notification data transmitted from the first communication means of the site inspection monitoring support device,
The field inspection monitoring according to any one of claims 1 to 4, wherein the light emitting means of the tag device emits light when the device selection notification data is received by the second communication means. Support device. A tag device installed in a component constituting the device;
The data server includes a tag code association data database for storing association data indicating a relationship between a device tag code of a tag device installed in the device and a component tag code of a tag device installed in a component constituting the device. Prepared,
The display unit of the site inspection / monitoring support terminal displays a plurality of parts constituting the selected device in response to selection from the input unit with respect to the predetermined device displayed on the display unit. In accordance with the selection from the input means for the part to be inspected from among the parts, display related data such as equipment status data at the previous inspection of the selected part,
The data transmission means of the site inspection monitoring support terminal transmits a tag code corresponding to the part selected by the input means to the data server,
The data search means of the data server obtains related data such as equipment status data at the time of the previous inspection of the part based on the tag code corresponding to the part transmitted from the data transmission means of the site inspection monitoring support terminal. Search and
The data transmission unit of the data server transmits related data such as device status data at the previous inspection of the part searched by the data search unit to the site inspection monitoring support terminal. The on-site inspection monitoring support apparatus according to any one of 1 to 5. The data server includes a threshold data database that stores threshold data indicating a threshold of device state data set in advance for each device of the plant, the threshold data stored in the threshold data database, and the site inspection monitoring support terminal. Determination means for determining whether or not the state of the device is in an alarm state to be alarmed based on the current value of the device state data of the device acquired by
The on-site inspection monitoring support terminal includes a first communication means for communicating with the tag device,
The tag device includes a second communication unit that communicates with the first communication unit of the site inspection monitoring support terminal, and a light emitting unit,
When the determination means of the data server determines an alarm state, it outputs alarm data for the device determined as the alarm state,
The data transmission means of the data server transmits the alarm data output by the determination means to the site inspection monitoring support terminal,
The data transmission means of the site inspection monitoring support terminal receives the alarm data transmitted from the data server,
The first communication means of the site inspection monitoring support terminal transmits the alarm data received by the data transmission means to the tag device of the corresponding device,
The second communication means of the tag device receives the alarm data transmitted from the first communication means of the site inspection monitoring support device;
The on-site inspection monitoring support device according to any one of claims 1 to 6, wherein the light emitting means of the tag device emits light when the alarm data is received by the second communication means. . The data server further comprises a device replacement history data database for storing device replacement history data indicating past replacement dates and the like for each device of the plant, and a calculation means for calculating the next replacement time of the device,
The facility data database of the data server stores replacement condition data indicating replacement conditions set in advance for each device,
The data search means of the data server searches the equipment replacement history database and the equipment data database based on the tag data transmitted from the data transmission means of the site inspection monitoring support terminal, and the equipment replacement history data and the equipment Get exchange condition data,
The calculation unit of the data server calculates a next replacement time of the device based on the device replacement history data and the replacement condition data acquired by the data search unit, and the calculated next replacement time is approaching. If it is determined that the next replacement time is approaching, as a result of this determination, replacement alarm data indicating that the next replacement time of the device is approaching is output,
The data transmission means of the data server transmits the replacement alarm data output by the calculation means to the site inspection monitoring support terminal,
The data transmission means of the site inspection monitoring support terminal receives the exchange alarm data transmitted from the data transmission means of the data server,
The display means of the site inspection / monitoring support terminal displays a warning that the next replacement time of the equipment is approaching based on the received replacement alarm data. The on-site inspection monitoring support device according to claim 1.

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