JP2010160818A - Monitoring center computer and monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily instruct an error in a procedure. <P>SOLUTION: A monitoring center computer includes: a database for storing manuals of work to be carried out by a worker as manual work data; a procedure confirmation means for comparing working state data as the state of work carried out by the worker with the manual work data in the database; a work location confirmation means for specifying a mobile device corresponding to a work place about unmatched work when the comparison by the procedure confirmation means results in the unmatched work; and a transmission means for transmitting a procedure error information to the mobile device when the comparison results in the unmatched work. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a remote maintenance system that supports work and repair judgment from a place away from a site for periodic inspection or maintenance of a plant.

  The mobile device can perform information communication through wireless communication or a local network. The application of electronic tags has already been studied in plant maintenance for bearing status confirmation systems and entrance / exit management systems for management areas such as nuclear power plants.

  In actual inspection or maintenance at the plant, an inspection instructor is dispatched from the manufacturer or maintenance company to the site, and when the actual operation is performed at the discretion of the instructor, the equipment operator can replace the equipment directly. Repair may be performed.

  However, due to the recent rationalization of personnel due to economic trends and regional political instability, it is often difficult to dispatch instructors to work sites and to secure skilled engineers at facility operators. There is a growing need for indirect implementation.

  On the other hand, although the communication situation has been improved globally, only small-capacity communications such as satellite communications can still be implemented in the above-mentioned politically unstable areas and areas with very few communication users. .

  In the inspection or maintenance work instruction, the above problem is a major obstacle with respect to the work process. Specifically, there are problems such that the work procedure of the instruction is unclear, or when an unexpected event occurs, it is impossible to make an immediate judgment on site.

  Furthermore, there are cases where it takes a lot of time to communicate in both directions due to a lack of communication capacity or differences in the languages used by both.

  As this improvement measure, there is a remote maintenance support system, in which a maintenance worker at the site obtains accurate maintenance information from a maintenance information server or a support member of a technical support center and performs a recovery work (see Patent Document 1). .

JP 2002-91913 A

  The problem to be solved is to simplify the error indication of the procedure.

  The present invention relates to a database in which a manual of work performed by a worker is recorded as manual work data, work status data that is a status of work performed by the worker, and procedure confirmation means for comparing the manual work data in the database. If the result of the comparison by the procedure confirming means does not match, the mobile device that identifies the mobile device corresponding to the work location for the work that does not match, and the mobile device that does not match, It has a transmission means which transmits procedure error information to.

  The present invention has the advantage of being able to simplify the procedure error indication.

It is explanatory drawing which showed the example of application to a gas turbine generator. It is explanatory drawing which showed the communication environment outline | summary of monitoring PC5. 3 is an explanatory diagram showing functions of a network bay 23. FIG. 3 is an explanatory diagram showing an example of contents of a mobile device 12. FIG. 5 is an explanatory diagram showing an example of contents of a visual manual function 14. FIG. It is explanatory drawing which showed the example of the content of the installation database 48. FIG. It is explanatory drawing which showed the example of the content of the trial run database. It is explanatory drawing which showed the example of the content of the maintenance database. It is explanatory drawing which showed the example of the content of center PC9. 6 is an explanatory diagram showing an example of contents of a 3D-CAD matching function 19. FIG. It is explanatory drawing which showed the example of the content of the difference discrimination function 81 for every site | part. It is explanatory drawing which showed the example of output information of the difference determination function 81 for every part. It is explanatory drawing which showed the example of the content of the main site | part tolerance difference database. 5 is an explanatory diagram showing an example of contents of a visual manual function 14. FIG. It is explanatory drawing in which center PC9 has the work item input function 98. FIG. It is explanatory drawing in which monitoring PC5 has the work item input function 98. FIG. It is explanatory drawing which monitoring PC5 has the function of center PC9 of FIG.

  A system that directly provides instruction information for installation or maintenance of equipment installed in a remote place to a work site by applying mobile devices or IT technology is realized.

  FIG. 1 is an application example of the apparatus of the present invention to a gas turbine generator 1, and includes a monitoring PC 5 that periodically collects input / output process value information and control signal information of an operation control apparatus of a target facility, A center installed in a plurality of mobile devices 12 constituting a local network, an image capturing device 13 connectable to the mobile devices, and a monitoring center 4 for monitoring information recorded in the monitoring PC 5 via a public line 7 It consists of PC9.

  Next, the flow of information for each of the operation control and the maintenance in this embodiment will be described with reference to FIG.

  Input / output information of the operation control device 2 that controls the gas turbine generator 1 (for example, monitoring or control process values, control digital signals, or special measurement values during trial operation) is stored in an HMI (human machine interface) 3. The data is input to the monitoring PC 5 via the external output terminal.

  After the input signal is judged whether it deviates from the tendency and the alarm generation range by a preset threshold, the transmission / reception device 6 via the public line 7 by the transmission / reception device 8 and the center of the monitoring center 4 It is transmitted to PC9.

  On the other hand, an operator who performs installation or maintenance connects the portable mobile device 12 to the communication modems 11 installed in a plurality of locations of the pre-installed local area LAN 10, and uses the electronic tag 15 included in the mobile device 12. Information on the electronic tag 15 installed at various locations of the gas turbine generator 1 is received by a reading function (described later with reference to symbol 43 in FIG. 4). The mobile device 12 is further connected to an image capturing device 13 for recording and transmitting the image and surrounding sound of the gas turbine generator 1, and the communication modem 11 and the information from the image capturing device 13 are also combined. The data is transmitted to the monitoring PC 5 via the local LAN 10. The information of the electronic tag 15 or the information signal from the image capturing device 13 is transmitted to the center PC 9 via the transmission / reception devices 6 and 8 and the public line 7 described above. Information on the electronic tag 15 or information from the image capturing device 13 may be stored in the mobile device 12.

  In the center PC 9, the transmitted digital image data 16, the information of the 3D digital image database 20 of the target plant prepared in advance, and the 3D-CAD matching function 19 are combined and displayed on the image display screen. The image instruction function 17 can obtain information necessary for maintenance by instructing an image display screen. Further, the image instruction function 17 includes a real-time image display function 18 of the target plant, and it is possible to give an instruction while confirming the work status. Further, the image instruction function 17 includes a work navigation instruction function 21 and an image measurement function 22. The work navigation instruction function 21 includes disassembly or assembly procedure information of the target part, and the image measurement function 22 selects, for example, a clearance between two pipes by the image instruction function 17. It has a function that can be measured. The measurement can be performed by comparison with a reference length in the same image. Information obtained by the various functions described above and information useful for work are overwritten on the screen of the image instruction function 17 and transmitted to the mobile device 12 via the communication means described above. According to the transmitted information, the electronic tag 15 may cause an artificial leak of inspection or inspection by a function of updating inspection or repair history information input to the mobile device, for example, at the time of periodic inspection or repair. It can be lost.

  When the image instruction function 17 instructs the above-described image display screen to obtain information necessary for maintenance, the image instruction function 17 selects a location where the dimensional difference deviates from a preset allowable range, selects the corresponding location, and simultaneously performs maintenance. You can get the information you need. The information refers to numerical values such as heat loss due to oxidation in the gas turbine blade portion, wall thickness due to wear in the bearing portion, and wall thickness due to high temperature corrosion in the high temperature portion of the combustor.

  Further, the display function of the mobile device 12, the monitoring PC 5 and the center PC 9 has a function of making the display screens the same, or a function of sharing the display information of each other. When it changes, it has a function of changing the information of the other cursor and can be moved to the same coordinate.

  In the following, detailed contents of each element shown in FIG. 1 will be described with reference to FIGS.

  FIG. 2 shows the communication environment of the monitoring PC 5. The signal of the control device 2 is transmitted to the network bay 23 from the interface of the HMI (Human Machine Interface) 3. Meanwhile, a signal from the mobile device 12 is also transmitted to the network bay 23. Various signals are organized by the network bay 23 and transmitted to the monitoring PC 5. The PC 5 transmits image or audio data to the public line 7 via the security device 24 in the case of installation or maintenance work, and an operation data signal in the case of trial operation. Conversely, the signal from the monitoring center 4 is transmitted by the security device 24 to the monitoring PC 5 after confirming that the signal is from an authenticated partner. The signal distributes necessary information to the mobile device 12 through the network bay in accordance with the work state of each of installation, maintenance, or trial operation.

  In the test operation described above, the PC 5 can transmit voice data to the public line 7 via the security device 24 in addition to the operation data signal.

  FIG. 3 shows functions of the network bay 23 in FIG. Process data and control data from the HMI (Human Machine Interface) 3, image data, audio data, and e-mail from the mobile device 12 are transmitted to the data distributor 27 via the switch 25. The switch 25 receives a work phase signal 26 (installation or trial operation or maintenance) from the external selection function. In the case of a trial operation, the primary diagnosis function 28 is entered. Is transmitted to the history management function 31 such as image, sound or mail data. In the primary diagnosis function 28, a process for storing the transmitted data or a control data recording device 30 is added. Based on this data, recognize the health of the operating state of the target plant and the difference between the operation plan value and the actual measurement value for the setting conditions that require adjustment during trial operation, select the items to be adjusted, and display them After being transmitted to the function 29, it is transmitted to the security device 24. On the other hand, in the image, voice or mail data history management function 31, an image, voice or mail data recording device 33 for storing the transmitted data is added. The data is further transmitted to the server function 32 and transmitted to the security device 24.

  FIG. 4 shows the contents of the mobile device 12. Information from the image capturing device 13 and the sound capturing device 34 attached to or separately connected to the image capturing device 13 is stored in a storage device 35. Data stored in the storage device 35 is transmitted to the image fitting function 38 and the monitoring PC 5.

  Further, memorandum information and instruction information input by the image writing function 36 are transmitted to the image layer overwrite function 37 and the processing history update function 45. The data of the overwriting function 37 is transmitted to the image fitting function 38 and incorporated into the information from the image capturing device 13, and then displayed by the display function 39 with various information overwritten thereon. . At the same time, the data of the overwriting function 37 is transmitted to the monitoring PC 5. The history information of the processing history update function 45 is transmitted to the electronic tag capturing or overwriting function 43 described later.

  The function of updating the electronic tag 15 is to update the information stored therein to the information input to the mobile device 12. For example, when a maintenance worker with a mobile terminal comes near an electronic tag during periodic inspections or repairs, the mobile terminal identifies and requests information to be updated from the electronic tag to the mobile terminal. Receive transmitted information and update stored old information. Alternatively, the old information is updated as the history information of inspection or repair using the received information, such as adding the received information.

  The electronic mail information is created by the mail writing function 40 and then transmitted to the mail storage function 41. In the storage function 41, the outgoing mail from the monitoring center 4 is stored via the monitoring PC 5, and can be disclosed to the display function 39 as necessary.

  Further, the work instruction signal from the monitoring center 4 instructs the output of the visual manual database 42 via the monitoring PC 5. This output signal is selected by the following method. After the plant information from the electronic tag 15 is read by the electronic tag capturing or overwriting function 43, it is transmitted to the manual basket function 44. The information from the electronic tag is information such as an installation location of the electronic tag 15, a target part or work history, for example. The manual selection function 44 selects and extracts information necessary for work from the visual manual database 42. The extracted information is disclosed by the display function 39.

  FIG. 5 shows the content selection function of the visual manual function 14. The output of the selection function 47 is switched to information of the installation database 48, the trial operation database 49, and the maintenance database 50 prepared in advance by the selection signal 46 in the work phase (installation or maintenance or trial operation). As the selection signal 46, manual input or the work phase signal 26 of the network bay 23 can be used.

  The output is transmitted to the screen selection function 51. The selection function 51 can select an output signal to the display function 39 according to a signal from the external selection function 52 for manual selection and the manual selection function 44.

  Further, the failure occurrence site is specified by the diagnostic function included in the monitoring PC 5 based on the information from the control device 2. In the diagnosis function, by monitoring the trend of the process state measurement signal of the target generator in advance, for example, when the exhaust gas temperature rises and the high-temperature member metal temperature rises, combustion abnormality is occurring and the compressor outlet temperature or pressure If the condition is normal, information indicating that there is a high possibility that a problem has occurred in the nozzle of the combustor or the fuel system is presented, and the control logic setting value of the target part, for example, the fuel control valve or the control device is investigated In order to investigate damage caused by the generation of high-temperature gas, search instructions and methods for the combustor inner cylinder, transition piece, expansion turbine nozzle and bucket are retrieved from the storage device and displayed. The diagnosis has a similar diagnosis function especially in the center PC 9, and if further detailed examination is required, an engineer in the design or quality assurance department evaluates the data and adds the mail added to the center PC 9. By the function, an instruction can be given directly by transmitting the evaluation result.

  Hereinafter, an example of contents of each database will be described.

  FIG. 6 shows an example of the contents of the manual of the installation database 48. On the first screen, a moving image or a development view of the attachment procedure 53 of the target part is displayed. When an attachment portion of each element in the display development view is selected, a pipe or wiring connection procedure 54 is displayed. Furthermore, the tool type and number 55 used for connection, such as “M10 spanner and two hammers used” are displayed. For example, “four sets of M10 bolts, washers and nuts” are used for connection. The necessary parts type and the number 56 are displayed. Further, a management numerical value 57 such as a deviation or a clearance which is a criterion for determining completion of integration is displayed.

  In these displays, work priorities are set in advance. For example, priority is given to those that have a large number of work steps or those that require a small amount of work, but need to be mounted carefully. When an incorrect part is selected or when the same work is selected, a warning text is displayed or not displayed.

  FIG. 7 shows an example of the contents of a manual of the trial run database 49. First, the operation phase selection function 58 sets, for example, start-up, rotational speed increase, combined power generation, load increase or decrease, rated load, load interruption, runback that rapidly decreases the load, or trip that instantaneously eliminates the load. To do. The setting signal is transmitted to the setting guidance database 59, and adjustment guide information of hardware setting values such as a control setting value and a fuel valve servo gain is output to the comparison function 60 for each operation phase. Here, the setting item example corresponding to each operation phase is as follows.

  In (start-up), a purge operation for releasing the residual gas in the gas flow path in the plant to the outside, and ignition and warm-up adjustment for warming the equipment to reduce the thermal load after the fuel is supplied and ignited.

  (Increased speed) is set to a torque converter that starts and adjusts the rotational speed acceleration to avoid compressor surging and rotor resonance, and controls the rotational speed with an electric motor or prime mover until the turbine can operate autonomously. Adjustment.

  (Incorporation) Adjusting the speed of the circuit breaker synchronized with the power system after the rotation speed reaches the target, or adjusting the breaker switch at the same time as the synchronization.

  In (load increase or decrease), adjust the bias for fuel and atmospheric conditions, etc. for stable operation while increasing or decreasing the fuel, and adjust the governor settings for fuel switching timing and rotation speed control.

  In (Rating), adjustment of bias for fuel and atmospheric conditions, adjustment of mass ratio of fuel and air that governs combustion stability, and adjustment of exhaust temperature control line for control of estimation of combustion temperature based on exhaust temperature.

  In (load cut-off), fuel switching adjustment to stabilize the flame when the fuel is narrowed down rapidly, and minimum fuel amount adjustment that is the limit of flame loss.

  In (runback), the fuel-air ratio adjustment to maintain combustion stability in the process of rapidly reducing the load, and the aforementioned minimum fuel amount adjustment.

  Examples of (trip) include fuel valve adjustment that suppresses an increase in the number of revolutions associated with a rapid load decrease, and exhaust gas temperature adjustment that suppresses a rapid increase in exhaust temperature (ie, combustion temperature) due to excessive fuel injection according to the load.

  A process value measurement signal from the control device 2 is input to the comparison function 60, and the comparison signal is transmitted to the discriminator 62. If the difference from the planned numerical value is large, Returning to the guidance database 59, setting value adjustment is repeated. On the other hand, when the difference falls within an allowable range, adjustment result information can be presented by the display function.

  Further, when the trial driving support is selected, the voice data recording of the mobile device 12 is automatically set, and the on-site situation sound data is automatically collected.

  FIG. 8 shows an example of the content of the maintenance database 50 manual. First, a target part is selected by the part selection function 63. For example, the major class is a main machine, an auxiliary machine, or a utility machine. The middle class is a turbine or boiler or a generator in the main machine, a torque converter, a lubricating oil pump or a feed water pump in the auxiliary machine, and a water treatment apparatus or a cooling tower in the utility. Further, the subclass is a combustor or a turbine or a compressor. As an example, the flow of the main engine, the turbine and the combustor is illustrated. Information from the selection function 63 is transmitted to the maintenance guidance database 64. The database 64 includes a disassembly or assembling procedure 65 including information on the name and location of the target part, components, etc., an assembly clearance or allowable deviation management value 66 which is a reference when the target part is incorporated, and information on deterioration or damage status. A parts replacement determination reference value 67 indicating a use limit and a specific replacement site instruction 68 are set. Information selected in the database 64 is disclosed in the display function 39.

  FIG. 9 shows an example of the contents of the center PC 9. The image and audio data from the transmission / reception device 8 are transmitted to the image data combination function 69 and the real-time communication processing function 71, respectively. The output of the image data combination function 69 is transmitted to the 3D-CAD matching function 19.

  The 3D digital image database 20 is added to the matching function 19, and after being matched with the information from the combination function 69, it is output to the image measurement function 22 and the signal switching function 70. In the image data combination function 69, virtual coordinates on 3D coordinates are attached to each video end surface by superimposing imaging information from a plurality of directions of a target part on arbitrary coordinates, and attribute data for each line, surface, or corner. Contains the function of adding and combining. The matching function 19 uses the coordinate information from the image data combination function 69 based on the target part information and the reference coordinate or line or surface or corner information from the data recorded in advance in the 3D digital image database 20. The function of overlapping with the same part of is included.

  The image measurement function 22 measures the dimensions of the target part on the display screen, and outputs the measurement results to the measurement data storage and management function 72 and the switching function 70. On the other hand, the audio data is transmitted to the real-time communication processing function 71 together with the image data, and is transmitted from the processing function 71 to the switching function 70.

  The switching function 70 is transmitted to the real-time image display function 18 and the transmission information processing function 77.

  The real-time image display function 18 displays the information selected by the switching function 70. For example, when the 3D-CAD matching function 19 of the target plant is selected, an image combined with already prepared 3D-CAD information is displayed, and the difference between the actual field screen and the design information and the part attribute data are disclosed. can do. For example, when the image measurement function 22 is selected, the information of the measurement data storage and management function 72 is displayed, and the actual location information attribute data of the on-site equipment can be disclosed. For example, when the real-time communication processing function 71 is selected, the current on-site situation can be confirmed. The real-time communication processing function 71 is not particularly unidirectional, but bi-directional communication is possible, and enables a network meeting in which information is shared with the monitoring center 4 and the target site.

  Furthermore, when the on-site situation sound data described above is automatically received during the test operation, and a sound having a frequency different from the normal on-site situation sound data accumulated in the measurement data storage and management function 72 is generated. Automatically outputs alarm information.

  The content displayed on the real-time image display function 18 is transmitted to the monitoring PC 5 or the mobile device 12 via the transmission / reception device 8 by the transmission information processing function 77. Appropriate instructions can be given by disclosing the difference from the design information to the operator by combining the image information of the monitoring target equipment and the CAD information and transmitting the combined image.

  Further, the electronic tag data is transmitted to the work content selection function 74, information selected from the work navigation instruction function 21 set in advance is selected or extracted, and is transmitted to the write data attachment function 75.

  An image writing function 76 is added to the attachment function 75, and information necessary for work is overwritten, and only the on-screen position data of the information is transmitted to the transmission information processing function 77. The transmission information processing function 77 transmits work support information to the target site via the transmission / reception device 8.

  Not only the information from the work navigation instruction function 21 but also the maintenance information necessary for the work such as the information from the image measurement function 22 can be extracted by the information of the electronic tag and transmitted. The extraction can be performed by associating them in advance or by associating them with information of the monitoring target unit or the like.

  FIG. 10 shows an example of the contents of the 3D-CAD matching function 19. The signal from the image data combination function 69 and the signal from the 3D image database 20 are adjusted by the coordinate recognition function 79 so as to match on the same coordinates, and then the respective images are overlapped by the overlay function 80. . The superimposing function 80 receives the captured direction / distance / scale signal as the shooting method information of the image capturing device 13, matches the shooting point coordinates on the virtual space in the 3D image database 20, and performs 3D. -Perform the process of superimposing on the surface of the target region on CAD. The duplicate information is transmitted to the part-by-part difference determination function 81. The part-by-part difference discriminating function 81 is simultaneously inputted with information from the main part allowable difference database 82, and the part information that the difference deviates from the permissible range and maintenance is required is sent to the transmission information processing function. 77.

  FIG. 11 shows an example of the contents of the part-by-part difference discriminating function 81. The information from the superimposing function 80 is generated by the entire target device image recognition function 83, for example, in the case of a gas turbine generator, 3D data in which 3D-CAD data indicating the entire gas turbine and image data are superimposed is created. And transmitted to the non-permissible device coordinate recognition function 84. Information from the main part allowable difference database 82 is also input to the function 84. Based on these two pieces of information, the part where the outer shape change value due to deformation or deterioration deviates from the allowable value is recognized. Set on 3D data. The signal is transmitted to the part coordinate recognition function 85, generates a signal for displaying the corresponding part, and then transmitted to the local part enlargement instruction function 86. In the function 86, information obtained by enlarging the target portion on the image data is generated and transmitted to the photographing procedure control function 87. In the function 87, for example, when a photographing direction adjusting device is installed in the image capturing device 13, a direction instruction control signal of the corresponding device is displayed. A signal indicating the photographing method is transmitted to the transmission information processing function 77.

FIG. 12 shows an example of output information of the part-by-part difference determination function 81. The entire device display function 88, which is the first screen example, includes an entire target device image data display function 89 and a target device CAD display function 90. Furthermore, there is an image / CAD combination display function 91 with different position disclosure information in which the two images are overlapped and different portions are emphasized. The local image capturing control information disclosure function 92 that is the second screen example includes a determination part enlarged image display function 93 that displays a signal from the local part enlargement instruction function 86, and an imaging procedure in the image capturing device 13. For example, the information “photographed from a position at an angle φXXX ° and a distance XXY (mm) from the target part horizontal reference” is presented. For example, when the image capturing device 13 has an adjustment function, a control signal such as “horizontal direction α °, vertical direction β °, focus γ” is transmitted.

  FIG. 13 shows an example of the contents of the main part allowable difference database 82. For example, the bearing allowable wear thickness 94 has a function of instructing a bearing-side wear allowable value and a rotary shaft-side wear allowable value in an arbitrary rotary shaft bearing. For example, the blade allowable thickness reduction thickness 95 has a function of instructing an allowable thickness reduction value due to high-temperature gas that is likely to be generated at the turbine blade tip. For example, the transition piece allowable damage thickness 96 for introducing the gas turbine combustion gas into the turbine has a function of indicating a damage allowable value due to the combustion gas. For example, the sensor section disconnection 97 has all signal line arrangement information of the temperature or pressure sensor as data on CAD. Based on these pieces of information, the difference determination function 81 can select a part that needs repair and replacement, and include the information in the transmission information to the center PC 9.

FIG. 14 shows an example of the contents of the visual manual function 14 and the procedure error providing function. Each database may be on either the center side or the facility side, or both.
The mobile device 12 has a selection function 47, a selection function 51, a work item input function 98, and a display function 39. The center PC 9 has a procedure confirmation function 99, a determination device 100, a work location identification function 101, and a procedure error work information selection function 102. The work item input function 98 includes a plurality of examples of input from the mobile device 12, input from the center PC 9, and input from the monitoring PC 5.

  The output of the selection function 47 is switched to information of the installation database 48, the trial operation database 49, and the maintenance database 50 prepared in advance by the selection signal 46 in the work phase (installation or maintenance or trial operation).

  The output of the selection function 47 is transmitted to the screen selection function 51 and the procedure confirmation function 99. Information from the selection function 51 is transmitted to the work item input function 98 and the display function 39. In the work item input function 98, the operator or supervisor actually confirms the process along the work item and inputs it on the mobile device 12. The work item input function 98 may be provided in the center PC 9 and may have a function of confirming and inputting an operator's operation based on information from the image capturing device 13, which will be described later with reference to FIG.

  The information of the function 98 is transmitted to the procedure confirmation function 99, and together with the information of the selection function 47, the actual work and the manual procedure are collated by comparison and transmitted to the determiner 100. In the determination device 100, if the work progress is in accordance with the manual, confirmation information is transmitted to the display function 39 by “good” determination. On the other hand, when the work according to the manual is not performed or when the work result is inappropriate, it is transmitted to the work place specifying function 101 by “No Good” determination. The comparison with the manual procedure is based on the input indicating that the work item is completed from the mobile device 12, and the center PC 9 that has received the identification signal matches the manual work item. Compare. In the case of a continuous work procedure, the matches are compared in the order received. If the work item identification signal is not received in the manual order, there is a mismatch. Since the comparison is performed remotely, the accuracy of the procedure comparison can be improved by adding time information to the work item identification signal transmitted from the mobile device 12.

  The address information of the mobile device 12 is input to the work location specifying function 101, and the mobile device 12 of the sent information source is specified. Further, the signal of the work location specifying function 101 is transmitted to the procedure error work information selection function 102. The work location specifying function 101 can be omitted when a single mobile device 12 is used and a plurality of mobile devices 12 are not used. There are a plurality of methods for specifying the work location, and one is that the received data from which the error is extracted by the procedure error work information selection function 102 described later is received from the location from which the error was extracted. Specify the data address. As another specifying method, the work location data in which the correspondence between the address information of the mobile device 12 and the work location is recorded, the work location is extracted from the result of the procedure error work information selection function 102 described later, Address information corresponding to the work place can be specified.

  Information from the procedure confirmation function 99 is also input to the procedure error work information selection function 102, and a defect occurrence item in the work process is selected and transmitted to the display function 39. The transmission information is, for example, “Warning!”, “Problem occurrence step (Step 00x)”, “Error recovery information (See Manual No. 1.1.1) as shown in the procedure error information example 103 in the figure. ) "Etc.

  This error recovery information is information for recovering a procedure error, and a manual showing an error recovery procedure different from the manual operation procedure is prepared in a separate database. By transmitting the error recovery information together with the error information, it is possible to identify the error procedure and location, and to present a work procedure for recovering the procedure to the worker with the procedure error. A plurality of error recovery information can be selected. One of the error recovery information is error recovery information prepared in advance corresponding to the manual procedure in which the procedure error has occurred, and the other is the procedure transmitted from the mobile device 12 when the procedure error has occurred. Is error recovery information prepared in advance corresponding to.

After the error recovery information is displayed on the display function 39, the error recovery information is displayed manually or automatically, and the process returns to the work item input function 98 to accept the input of the work item. The procedure and the input procedure are confirmed, and the determination unit 100 repeats until “good” is determined. For example, if the steps A → B → C → D are performed in the order of steps A → B → D, the determination device 100 determines “No good”, and the procedure error information 103 is the manual No. 1.1.2 is displayed, and this manual No. 1.1.2 includes the work contents for returning to the previous step, Step B, and returning to the work of Step D performed. Yes. If the correct operation is performed with the procedure error information 103 and the determination unit 100 makes a “good” determination, the operation returns to the original operation B, so that the operation item input function 98 waits for input of steps C → D. It becomes.

  In this way, the plurality of mobile devices 12 have display means 39 for displaying manual work data in the database, and a work item input function 98 for inputting work status data that is the status of work performed by the worker, The monitoring PC 5 has receiving means for receiving work status data from one of the mobile devices and transmission means for transmitting the work status data to the monitoring center computer. The center PC 9 is input by one of the plurality of mobile devices. The procedure confirmation function 99 for comparing the work status data and the manual work data in the database and the result of comparison by the procedure confirmation function, if they do not match, specify the mobile device corresponding to the work location for the work that does not match If there is no match with the work location specifying function 101 to be performed, the procedure error information is sent to the mobile device. The monitoring system having transmitting means for transmitting, it can be simplified indication of error procedures. In addition, if there is a plurality of mobile devices and the monitoring center computer does not match as a result of the comparison by the procedure confirmation means, it is possible to identify a wide range of devices by identifying the mobile device corresponding to the work place for the work that does not match. Necessary information can be provided to a partner who needs to instruct a procedure in the workplace. In addition, since the procedure is not input by the supervisor who monitors the work, it is not necessary to grasp the entire work, and errors due to omission of monitoring can be eliminated.

  FIG. 15 is an example in which the center PC 9 has a work item input function 98. The description of the same part as in FIG. 14 is omitted. The plurality of mobile devices 12 have display means 39 for displaying manual work data in the database, and the monitoring PC 5 has an image capturing device 13 for capturing images of the monitoring target equipment, and transmits the captured images to the center PC 9. Is a system having means for receiving an image and a work item input function 98 for inputting work status data which is the status of work performed by a worker.

  The operation of the facility-side worker is confirmed based on the image information from the image capturing device 13, and work status data input by the center-side worker is received by the work item input function 98. In this way, since it is not necessary to input work status data from the mobile device 12 on site, it is possible to eliminate a procedure error due to an input error of a field worker, and it is necessary for a partner who needs to instruct a procedure in a wide range of workplaces. Can provide information.

  FIG. 16 shows an example in which the monitoring PC 5 has a work item input function 98. The description of the same part as in FIG. 14 is omitted. The work supervisor on the facility side confirms and inputs the operation of the worker on the facility side, and accepts work status data with the work item input function 98 of the monitoring PC 5.

  FIG. 17 is an example in which the monitoring PC 5 has the function of the center PC 9 of FIG. The description of the same part as in FIG. 14 is omitted. With this monitoring system, procedure errors can be confirmed on site.

  According to the embodiment described above, installation, trial operation, or maintenance work in a power plant can be supported from a monitoring center provided in a remote place using images, voice, electronic mail, and design data.

  Thereby, for example, even when the native language of the worker and the supporter is different, bidirectional communication can be smoothly performed.

  In addition, monitoring equipment that periodically collects input / output process value information and control signal information of the operation control device of the target facility, a plurality of mobile devices that form a local network with the device, and connection to the mobile device A work instruction can be transmitted in real time by a system comprising a simple image or voice input / output device and a monitoring server device that monitors information recorded in the monitoring device via a public line.

  In addition, the maintenance information of the inspection target part (for example, a visual manual such as part drawing, repair history, disassembly or assembly procedure), and the assembly or replacement allowable value of the target part and part (for example, clearance, A function for displaying the amount of wear), an allowable range display function for the process value information for evaluating the soundness of the target part, a digital image capturing function, and additional information on the information acquired by the function Necessary work information can be obtained without leaving the work site by any of the functions for recording (for example, handwritten memo random, sketch information, etc.).

  In addition, the automatic display function of maintenance information is provided to the target device by the function of receiving the signal from the electronic tag with a recording function previously installed in the necessary part of the target facility by wireless communication and selecting and disclosing the corresponding information. Necessary work information can be obtained without having to search.

  In addition, the electronic tag can eliminate artificial leakage of inspection or inspection by a function of updating inspection or repair history information input to the mobile device, for example, at the time of periodic inspection or repair.

  In addition, the display function of the mobile device, the monitoring server PC, and the center PC has a function of making both display screens the same, or a function of sharing each other's display information, for example, changing one point of interest (cursor) information Then, the function of moving the other cursor to the same coordinate can share both pieces of information, and the communication can be clarified.

  In addition, the function of communicating only the cursor position change information can increase the communication speed when using a line with a small communication capacity.

  In the above-described embodiment, the mobile device 12 communicates with the center PC 9 of the monitoring center 4 via the monitoring PC 5, but may be configured to communicate directly.

  Further, the mobile device 12 can be provided with the function of the monitoring PC 5 to directly communicate with the center PC 9.

  Moreover, it can also be set as the structure which has a database so that it may memorize | store not only the image information of the monitoring object equipment in the monitoring PC5 but in the mobile device 12.

  The functions of the monitoring PC 5, the center PC 9, the mobile device 12, and the like can be used by causing a computer to read a program having the functions. It is also possible to use a program having such a function by recording it on a recording medium and reading it into a computer.

  It is a proposal of a system suitable for supporting work in remote areas using images, voice, e-mails or design data, etc. Not only power generation equipment but also installation or trial operation of manufacturing plants, chemical plants, etc. and daily maintenance It can also be applied to work support for equipment incidental to work.

  DESCRIPTION OF SYMBOLS 1 ... Gas turbine generator, 2 ... Control apparatus, 3 ... HMI (human machine interface), 4 ... Monitoring center, 5 ... Monitoring PC, 6, 8 ... Transmission / reception device, 7 ... Public line, 9 ... Center PC, 10 ... Local LAN, 11 ... communication modem, 12 ... mobile device, 13 ... image capturing device, 14 ... visual manual function, 15 ... electronic tag, 16 ... digital image data, 17 ... image instruction function, 18 ... real time image display function, 19 ... 3D-CAD matching function, 20 ... 3D digital image database, 21 ... Work navigation instruction function, 22 ... Image measurement function, 23 ... Network bay, 24 ... Security device, 25 ... Switch, 26 ... Work phase signal, 27 ... Data distributor, 28 ... primary diagnosis function, 29, 39 ... display function, DESCRIPTION OF SYMBOLS 0 ... Process or control data recording device, 31 ... Image, audio | voice or mail data history management function, 32 ... Server function, 33 ... Image, audio | voice or mail data recording device, 34 ... Audio | voice capture device, 35 ... Memory | storage device, 36, 76 ... Image writing function, 37 ... Image layer overwriting function, 38 ... Image fitting function, 40 ... Mail writing function, 41 ... Mail saving function, 42 ... Visual manual database, 43 ... Electronic tag capture or overwriting function, 44 ... Manual栞 function, 45 ... processing history update function, 46 ... selection signal, 47 ... selection function, 48 ... installation database, 49 ... trial operation database, 50 ... maintenance database, 51 ... screen selection function, 52 ... external selection function, 53 ... installation Procedure 54 ... Connection procedure 55 ... Tool type and number of tools used 56 ... Component type and number of components, 57 ... management numerical values such as clearance, 58 ... operation phase selection function, 59 ... setting guidance database, 60 ... comparison function, 61 ... process or control data, 62 ... discriminator, 63 ... site selection function, 64: Maintenance guidance database, 65: Disassembly or assembly procedure, 66: Clearance or allowable deviation management value during assembly, 67 ... Component replacement judgment reference value, 68 ... Replacement part instruction, 69 ... Image data combination function, 70 ... Signal switching function 71 ... Real-time communication processing function, 72 ... Measurement data storage and management function, 73 ... Temporary storage database, 74 ... Work content selection function, 75 ... Write data attachment function, 77 ... Transmission information processing function, 79 ... Coordinate recognition function, 80 ... Overlay function, 81 ... Difference discrimination function for each part, 82 ... Main part allowable difference database 83: Target device whole image recognition function, 84 ... Non-permissible device coordinate recognition function, 85 ... Site coordinate recognition function, 86 ... Local site enlargement instruction function, 87 ... Imaging procedure control function, 88 ... Whole device display function, 89 ... Target device whole image data display function, 90 ... Target device CAD display function, 91 ... Image / CAD combination display function with difference position disclosure information, 92 ... Local image photographing control information disclosure function, 93 ... Determination part enlarged image display function 94 ... Allowable wear thickness of bearing, 95 ... Allowable blade thickness reduction, 96 ... Allowable damage thickness of transition piece, 97 ... Disconnection of sensor part, 98 ... Work item input function, 99 ... Procedure check function, 100 ... Judgment device 101 ... Work location identification function, 102 ... Procedure error work information selection function, 103 ... Procedure error information example.

Claims (6)

A database in which manuals of work performed by workers are recorded as manual work data;
Procedure confirmation means for comparing work status data, which is the status of work performed by workers, and manual work data in the database;
If the result of the comparison by the procedure confirmation means does not match, the work place confirmation means for identifying the mobile device corresponding to the work place for the work that does not match,
A monitoring center computer, comprising: transmission means for transmitting procedure error information to the mobile device when the two do not match. In the monitoring center computer according to claim 1,
Means for receiving information obtained by monitoring the facility to be monitored with an image;
A monitoring center computer comprising work item input means for inputting work status data which is a status of work performed by a worker. In the monitoring center computer according to claim 1 or 2,
A monitoring center computer comprising receiving means for receiving work status data used in the procedure confirmation means from one of the mobile devices. In the monitoring center computer according to any one of claims 1 to 3,
The monitoring center computer, wherein the transmitting means is transmitting means for transmitting information for recovering a procedure error. A monitoring computer that monitors the equipment to be monitored, a monitoring center computer that monitors information held by the monitoring computer via a communication line, and transmits information to the monitoring computer, and a plurality of computers connected to the monitoring computer via a communication line It has a mobile device and a database in which manuals of work performed by workers are recorded as manual work data.
The plurality of mobile devices are:
Display means for displaying manual operation data of the database;
Having work item input means for inputting work status data which is the status of work performed by workers;
The monitoring computer is
Receiving means for receiving work status data from one of the mobile devices;
Transmission means for transmitting the work status data to the monitoring center computer;
The monitoring center computer is
A procedure confirmation means for comparing the work status data inputted in one of the plurality of mobile devices and the manual work data of the database;
If the result of the comparison by the procedure confirmation means does not match, the work place confirmation means for identifying the mobile device corresponding to the work place for the work that does not match,
A monitoring system comprising: a transmission unit configured to transmit procedure error information to the mobile device when they do not match. A monitoring computer for monitoring the equipment to be monitored, a plurality of mobile devices connected to the monitoring computer via communication lines, and a database in which manuals of work performed by workers are recorded as manual work data,
The plurality of mobile devices are:
Display means for displaying manual operation data of the database;
Having work item input means for inputting work status data which is the status of work performed by workers;
The monitoring computer is
Receiving means for receiving work status data from one of the mobile devices;
A procedure confirmation means for comparing the work status data inputted in one of the plurality of mobile devices and the manual work data of the database;
If the result of the comparison by the procedure confirmation means does not match, the work place confirmation means for identifying the mobile device corresponding to the work place for the work that does not match,
A monitoring system comprising: a transmission unit configured to transmit procedure error information to the mobile device when they do not match.

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