JP6144571B2 - Plant management apparatus and plant management method - Google Patents

Description

  The present invention relates to a technique for managing a plant.

  A technique is known in which a plant control terminal monitors and controls equipment of a plurality of plants via a network (Patent Document 1). In addition, a technology is known in which a control device that controls a plant has a WWW (World Wide Web) server, and a man-machine interface device browses data of the control device via the Internet (Patent Document 2). In addition, a technique is known in which a portable terminal performs plant monitoring, operation, adjustment, and the like via a network (Patent Document 3).

JP 2002-34081 A JP 2001-134315 A JP 11-202931 A

  Even when the terminal device can communicate with a plurality of plants, the worker transmits a command to the specific plant through the terminal device. Therefore, when the command is transmitted to a plurality of plants, the work amount of the worker increases.

  In order to solve the above problems, a plant management apparatus according to one aspect of the present invention is connected to a plurality of control apparatuses that respectively control a plurality of plants via a network, and commands one of the plurality of control apparatuses. The plant management apparatus including a control unit that transmits command information to be received and receives information measured by any of the plurality of control devices, further includes a storage unit for storing the command information. When the control unit transmits the first command information to the first control device among the plurality of control devices, the control unit stores the first command information in the storage unit and obtains a first command information request specifying the first command information In this case, the first command information is read from the storage unit, and the first command information is transmitted to a second control device different from the first control device among the plurality of control devices.

  According to one aspect of the present invention, when an instruction is transmitted to a plurality of plants, the amount of work for an operator can be reduced.

The structure of the plant management system of an Example is shown. An instruction information registration process is shown. The command information provision process is shown.

  Embodiments of the present invention will be described below with reference to the drawings.

  The plant management system of this embodiment aims to stabilize power and improve maintainability of a power plant by applying a command for the power plant to another power plant.

  FIG. 1 shows a configuration of a plant management system of the embodiment.

  The plant management system includes power generation plants 2a, 2b, and 2c, a central power supply command station 20, and a portable terminal 11. The power plants 2a, 2b, and 2c and the central power supply command station 20 are connected via an external network 31.

  The power plant 2 a has a plurality of blocks 32. The block 32 includes a maintenance tool 3, an OPS (Operator Station) 4, and a plurality of control devices 7. The maintenance tool 3, the OPS 4, and the plurality of control devices 7 are connected via the plant network 5. The plant network 5 is a network using an optical cable, for example. Further, the maintenance tool 3 and the OPS 4 are connected to the maintenance network 6. The maintenance network 6 is, for example, a LAN (Local Area Network). Further, the plant network 5 is connected to the maintenance network 6 via the router 42. The maintenance network 6 is connected to the external network 31 via the router 41. The external network 31 is, for example, the Internet.

  The control device 7 is connected to the power generation facility, stores control software, and measures and controls the power generation facility according to the control software. The power generation equipment is, for example, a turbine, a boiler, a valve or the like for thermal power generation.

  The maintenance tool 3 performs maintenance of the control device 7 via the plant network 5. Here, the maintenance tool 3 transmits, to the control device 7, maintenance information indicating the configuration of the control software of the control device 7 and the parameter setting of the control software of the control device 7 based on the input by the worker (user). To do. The configuration of the control software is represented by, for example, a logical operation configuration. A plurality of maintenance tools 3 may be provided in one block 32.

  The OPS 4 monitors and instructs the power generation equipment in the block 32 via the plant network 5 and the control device 7. Here, the OPS 4 receives the monitoring information indicating the measurement result of the power generation facility by the control device 7 in the block 32 from the control device 7 and displays the monitoring information. The monitoring information is, for example, the temperature of the boiler or the rotational speed of the turbine. For example, the OPS 4 displays a warning when the monitoring information indicates an abnormality. The OPS 4 transmits instruction information indicating an instruction to the control device 7 based on the input by the worker. The instruction information is, for example, an instruction to open a steam valve and rotate the turbine, or an instruction to adjust the amount of generated power. A plurality of OPSs 4 may be provided in one block 32.

  In the following description, maintenance information and instruction information are collectively referred to as instruction information.

  In the power plants 2b and 2c, elements denoted by the same reference numerals as those of the power plant 2a are the same as or equivalent to the elements of the power plant 2a. The power plant 2b does not have one block 32 as compared with the power plant 2a. The power plant 2c has a block 32b instead of the block 32 as compared with the power plant 2b. The block 32b does not have the maintenance tool 3 and the OPS 4 compared to the block 32. In the following description, the alphabet may be omitted when it is not necessary to distinguish the elements by the alphabet of symbols.

  The central power supply command station 20 has a computer system 21. The computer system 21 is connected to the external network 31 via the router 43.

  The computer system 21 includes a control unit 65 and a storage unit 66.

  The storage unit 66 has a command information database 64. The command information database 64 stores command information transmitted to the control device 7.

  The control unit 65 includes a maintenance tool processing unit 61, an OPS processing unit 62, and a database management unit 63. The maintenance tool processing unit 61 executes the same processing as that of the maintenance tool 3. The computer system 21 stores a program similar to that of the maintenance tool 3, and implements the maintenance tool processing unit 61 according to this program. The OPS processing unit 62 executes the same processing as OPS4. The computer system 21 stores a program similar to the OPS 4 and realizes the OPS processing unit 62 according to this program.

  The database management unit 63 manages the instruction information database 64. The database management unit 63 manages the instruction information database 64. The command information is information transmitted from the maintenance tool 3, the OPS 4, the maintenance tool processing unit 61, the OPS processing unit 62, and the like to the control device 7. The database management unit 63 registers the command information transmitted to the control device 7 in the command information database 64, and transmits the command information in the command information database 64 to the request source in response to a request.

  The computer system 21 is a computer, for example. The control unit 65 is a microprocessor, for example. The storage unit 66 is a memory, for example. The memory stores programs and data. This program causes the microprocessor to function as the control unit 65. This program may be stored in a computer-readable medium or read out from the medium to the computer.

  Each of the maintenance tool 3 and the OPS 4 is, for example, a computer. The computer may include an input unit that receives input from an operator and a display unit that displays a screen.

  The computer system 21, the maintenance tool 3, and the OPS 4 can execute remote operations with each other. Thereby, the maintenance, monitoring, and instruction | indication of the power plant 2 can be performed from the outside of the power plant 2.

  The mobile terminal 11 is a tablet terminal or a smartphone. The mobile terminal 11 is connected to the external network 31 via a mobile phone line. When a wireless LAN is connected to the maintenance network 6, the mobile terminal 11 in the power plant 2 may be connected to the maintenance network 6 via the wireless LAN. In the case where a wireless LAN is connected in the central power supply command station 20, the mobile terminal 11 may be connected to the computer system 21 in the central power supply command station 20 via the wireless LAN. The portable terminal 11 can be easily added to the plant management system.

  The portable terminal 11 can execute remote operations of the computer system 21, the maintenance tool 3, and the OPS 4. Thereby, the portable terminal 11 can perform display and input similar to any one of the computer system 21, the maintenance tool 3, and the OPS 4, and can communicate with the control device 7 via the device. Therefore, maintenance, monitoring, and instruction of the power plant 2 can be performed regardless of the location of the worker. Note that the portable terminal 11 may have the same function as the maintenance tool processing unit 61 and the OPS processing unit 62 by storing the same program as the maintenance tool processing unit 61 and the OPS processing unit 62.

  When a plurality of workers access the computer system 21, the device gives an access right to the worker who last operated the device. Access to the maintenance tool 3 and OPS 4 is processed in the same manner as the computer system 21.

  Since the computer system 21 includes the maintenance tool processing unit 61 and the OPS processing unit 62, the maintenance tool 3 and the OPS 4 can be omitted as in the power generation plant 2c. Thereby, the cost and operator of the power plant 2 can be reduced. Further, by making the processing capacity of the computer system 21 higher than that of the maintenance tool 3 and the OPS 4, it is possible to perform maintenance, monitoring, and instructing of the plurality of power plants 2.

  Hereinafter, the operation of the database management unit 63 will be described.

  The database management unit 63 executes a command information registration process for registering command information in the command information database 64 and a command information providing process for providing command information in the command information database 64.

  FIG. 2 shows a command information registration process.

  This function is used when any of the functions of the maintenance tool processing unit 61, the OPS processing unit 62, the maintenance tool 3, and the OPS 4 generates command information based on an input from the operator and transmits the command information to the control device 7. Is called an instruction information generation function. This figure shows the operation of the database management unit 63, the command information generation function, and the control device 7.

  The command information generation function transmits command information to the control device 7 (S110). The command information generation function outputs command information to the database management unit 63 (S120). When the instruction information generation function is outside the computer system 21, the instruction information is transmitted to the database management unit 63 via the network. After that, when acquiring the command information, the database management unit 63 registers the command information in the command information database 64 (S130).

  The command information registration process has been described above. According to this process, the command information transmitted to the control device 7 in the power plants 2a, 2b, and 2c can be shared.

  The instruction information generation function transmits the instruction information to the control device 7 and, when the problem is improved by the instruction information, generates the defect information indicating the defect based on the input from the operator, and displays the defect information and the instruction information. You may transmit to the database management part 63. FIG. In this case, the database management unit 63 registers the defect information and the command information in the command information database 64 in association with each other.

  When any of the maintenance tool 3, the OPS 4, the maintenance tool processing unit 61, and the OPS processing unit 62 transmits command information to the control device 7, the database management unit 63 may relay the command information. Thereby, the database management unit 63 registers the received command information in the command information database 64.

  FIG. 3 shows a command information providing process.

  When any of the functions of the maintenance tool 3, the OPS 4, the maintenance tool processing unit 61, and the OPS processing unit 62 uses the command information in the command information database 64, this function is set as a command information use function. This figure shows the operation of the database management unit 63, the command information utilization function, and the control device 7.

  The command information utilization function outputs a request for browsing the command information database 64 to the database management unit 63 based on the input from the worker (S210). Thereby, the database management part 63 acquires a browsing request. When the instruction information utilization function is outside the computer system 21, a browsing request is transmitted to the database management unit 63 via the network. For example, the command information use function may specify a command information condition that is a command information condition and include the command information condition in the browsing request.

  Thereafter, the database management unit 63 extracts the instruction information from the instruction information database 64 based on the browsing request to obtain the extracted information, and outputs the extracted information to the instruction information utilization function (S220). The extracted information is, for example, a list of instruction information that meets the instruction information condition. In response to this, the instruction information utilization function acquires the extracted information and displays the extracted information.

  The command information condition indicates the type of command information such as maintenance information and instruction information. For example, the type of instruction information corresponds to the type of instruction information utilization function, and indicates whether it is the maintenance tool 3 or the maintenance tool processing unit 61, or the OPS 4 or OPS processing unit 62. Thereby, the database management part 63 can extract the command information corresponding to the type of the command information utilization function.

  The instruction information condition may be defect information. In this case, the instruction information utilization function designates defect information. The extracted information is command information corresponding to the specified defect information. Thereby, the database management part 63 can extract the command information corresponding to the malfunction which should be improved.

  Based on the extracted information, the command information utilization function accepts designation of command information by an input from an operator, and outputs a command information request for requesting transmission of the designated command information to the database management unit 63 (S230). Thereby, the database management part 63 acquires a command information request. Thereafter, the database management unit 63 acquires the command information specified by the command information request from the command information database 64, and outputs the acquired command information to the command information utilization function (S240). In response to this, the command information utilization function acquires the output command information and transmits the command information to the control device 7 (S250). The command information request may specify the control device 7. In this case, the database management unit 63 may send the designated command information directly to the designated control device 7. Further, the database management unit 63 may output the command information to one of the functions of the maintenance tool processing unit 61 and the OPS processing unit 62 according to the type, and the function may transmit the command information to the control device 7. The command information request may specify a plurality of control devices 7. The database manager 63 outputs the designated command information to the command information utilization function, so that the operator who operates the command information utilization function can confirm the transmission of the command information.

  The above is instruction information provision processing.

  Hereinafter, specific examples of the command information registration process and the command information provision process will be described.

  In response to a malfunction in the control device 7 in the power plant 2a, the operator remotely operates the maintenance tool processing unit 61 of the computer system 21 using the portable terminal 11, and receives command information indicating the configuration of the new control software of the control device 7. It is assumed that the problem is improved by creating and transmitting the command information to the control device 7. The maintenance tool processing unit 61 outputs the command information to the database management unit 63. As a result, the command information is registered in the command information database 64. Thereafter, when the operator remotely operates the maintenance tool processing unit 61 via the portable terminal 11, the maintenance tool processing unit 61 outputs a browsing request to the database management unit 63. The database management unit 63 acquires command information suitable for maintenance, and the maintenance tool processing unit 61 causes the mobile terminal 11 to display the acquired command information. The operator designates command information that has improved the defect in the displayed command information, and the maintenance tool processing unit 61 outputs a command information request to the database management unit 63. The database management unit 63 outputs the designated command information to the maintenance tool processing unit 61. The maintenance tool processing unit 61 acquires command information and transmits the command information to the control device 7 in the power plants 2b and 2c. Thereby, the worker can easily apply the improvement measures taken for the power plant 2a to the power plants 2b and 2c.

  According to this process, the command information transmitted to the control device 7 can be reused. As a result, it is possible to transmit the command information that improves the malfunction of a certain control device 7 to another control device 7. Therefore, when the same malfunction has occurred in a plurality of control devices 7, a plurality of blocks 32, and a plurality of power plants 2, after confirming the effect of the command information for one control device 7, another control device 7 can be easily applied. Thereby, the improvement of the malfunction of the power plant 2 can be made efficient. Further, not only the operator of the computer system 21 but also the operator of the maintenance tool 3 and OPS 4 in the power plant 2 and the operator of the portable terminal 11 can perform the instruction information registration process and the instruction information provision process.

  By setting the command information condition to the command information type, the database management unit 63 can extract the command information according to the command information utilization function type. By setting the instruction information condition as defect information, the database management unit 63 can extract the instruction information according to the defect to be dealt with.

  According to the present embodiment, the computer system 21 in the central power supply command center 20 can perform maintenance, monitoring, and instruction of the plurality of power plants 2. Thereby, the condition of the whole several power plant 2 can be confirmed, and the several power plant 2 can be controlled. Further, since the computer system 21 and the portable terminal 11 have the functions of the maintenance tool 3 and the OPS 4, the maintenance tool 3 and the OPS 4 can be omitted from the power plant 2. By applying the command information for the power plant 2 to other power plants 2, the maintainability of the plurality of power plants 2 can be improved. Further, the maintenance tool 3 or OPS 4 in the power plant 2 transmits command information to the control device 7 and transmits the command information to the computer system 21, so that even if a failure occurs in the maintenance tool 3 or OPS 4, the computer The power plant 2 can be controlled using the command information stored in the system 21.

  Further, maintenance, monitoring, and instruction of the power plant 2 can be performed from the computer system 21, the maintenance tool 3, and the OPS 4 outside the power plant 2. In addition, the operator can perform maintenance, monitoring, and instruction of the power plant 2 by operating the portable terminal 11 regardless of the place to operate. Thereby, the number of workers arranged in the plurality of power plants 2 can be reduced.

The techniques described in the above embodiments can also be expressed as follows.
(Expression 1)
It is connected to a plurality of control devices that respectively control a plurality of plants via a network, transmits command information instructing any of the plurality of control devices, and is measured by any of the plurality of control devices. In a plant management apparatus including a control unit that receives information,
A storage unit for storing the command information;
When the control unit transmits first command information to a first control device among the plurality of control devices, the control unit stores the first command information in the storage unit and designates the first command information. When acquiring a command information request, the first command information is read from the storage unit, and the first command information is transmitted to a second control device different from the first control device among the plurality of control devices.
A plant management apparatus characterized by that.
(Expression 2)
When the control unit acquires a first browsing request that is a request for browsing the storage unit based on an input from a user, the command includes the first command information from the storage unit based on the first browsing request Extracting the information as the first extracted information, displaying the first extracted information, receiving an input from a user according to the display, and acquiring the first command information request based on the received input;
The plant management apparatus according to expression 1.
(Expression 3)
When the control unit receives second command information indicating a command to the first control device from a terminal device connected to the plant management device via the network, the control unit stores the second command information. Save to the department,
The plant management apparatus according to expression 2.
(Expression 4)
When the control unit receives a second command information request specifying the second command information from the terminal device, the control unit reads the second command information from the storage unit and sends the second command information to the second control device. Send,
The plant management apparatus according to expression 3.
(Expression 5)
When the control unit receives a second browsing request from the terminal device, the control unit extracts command information including the second command information from the storage unit based on the second browsing request to obtain second extraction information, Sending the second extraction information to the terminal device to display the second extraction information on the terminal device, and receiving the second command information request from the terminal device;
The plant management apparatus according to expression 4.
(Expression 6)
The first browsing request indicates a type of the first command information,
The control unit extracts instruction information suitable for the type from the storage unit as the first extraction information.
The plant management apparatus according to expression 5.
(Expression 7)
The control unit generates defect information indicating information of a defect improved by the first instruction information, stores the defect information in association with the first instruction information,
The first browsing request indicates the defect information,
The control unit extracts command information associated with the defect information from the storage unit as the first extraction information.
The plant management apparatus according to Expression 6.
(Expression 8)
The command information indicates one command of maintenance, monitoring, and instruction of the plurality of control devices.
The plant management apparatus according to expression 7.
(Expression 9)
When the control unit receives a second command information request designating the second command information from the terminal device, the control unit reads the second command information from the storage unit, and the second control device via the terminal device Sending the second command information to
The plant management apparatus according to expression 3.
(Expression 10)
The terminal device is connected to the network via wireless communication;
The plant management apparatus according to any one of Expressions 1 to 9.
(Expression 11)
The terminal device is provided in one of the plurality of plants,
The plant management apparatus according to any one of Expressions 1 to 9.
(Expression 12)
A computer connected to a plurality of control devices that respectively control a plurality of plants via a network transmits command information for instructing any of the plurality of control devices, and the computer is controlled by any of the plurality of control devices. In a plant management method comprising receiving measured information,
The computer is
When the first command information is transmitted to the first control device among the plurality of control devices, the first command information is stored in the storage unit,
When a first command information request for designating the first command information is acquired based on an input from a user, the first command information is read from the storage unit, and the first control device is among the plurality of control devices. Transmitting the first command information to a second control device different from
A plant management method characterized by further comprising:

  The terms in the above expression will be described. The computer system 21 etc. may be called a plant management apparatus. The portable terminal 11, the maintenance tool 3, OPS4, etc. may be called a terminal device.

  The present invention is not limited to the above embodiments, and can be modified in various other forms without departing from the spirit of the present invention.

1: Plant management system 2, 2a, 2b, 2c: Power plant, 3: Maintenance tool, 4: OPS, 5: Plant network, 6: Maintenance network, 7: Control device, 11: Mobile terminal, 20: Central power supply Command Center, 21: Computer system, 31: External network, 32: Block, 41, 42, 43: Router, 61: Maintenance tool processing unit, 62: OPS processing unit, 63: Database management unit, 64: Command information database, 65: Control unit, 66: Storage unit

Claims (12)

It is connected to a plurality of control devices that respectively control a plurality of plants via a network, transmits command information instructing any of the plurality of control devices, and is measured by any of the plurality of control devices. In a plant management apparatus including a control unit that receives information,
When the command information generation function in the plant transmits the first command information to the first control device in the plurality of control devices, the first command information is transmitted to the plant management device. ,
The plant management device is
A storage unit for storing the command information;
When the control unit receives the first command information from the command information generation function , the control unit stores the first command information in the storage unit, and obtains a first command information request specifying the first command information The first command information is read from the storage unit, and the first command information is transmitted to a second control device different from the first control device among the plurality of control devices,
A plant management apparatus characterized by that. When the control unit acquires a first browsing request that is a request for browsing the storage unit based on an input from a user, the command includes the first command information from the storage unit based on the first browsing request Extracting the information as the first extracted information, displaying the first extracted information, receiving an input from a user according to the display, and acquiring the first command information request based on the received input;
The plant management apparatus according to claim 1. When the control unit receives second command information indicating a command to the first control device from a terminal device connected to the plant management device via the network, the control unit stores the second command information. Save to the department,
The plant management apparatus according to claim 2. When the control unit receives a second command information request specifying the second command information from the terminal device, the control unit reads the second command information from the storage unit and sends the second command information to the second control device. Send,
The plant management apparatus according to claim 3. When the control unit receives a second browsing request from the terminal device, the control unit extracts command information including the second command information from the storage unit based on the second browsing request to obtain second extraction information, Sending the second extraction information to the terminal device to display the second extraction information on the terminal device, and receiving the second command information request from the terminal device;
The plant management apparatus according to claim 4. The first browsing request indicates a type of the first command information,
The control unit extracts instruction information suitable for the type from the storage unit as the first extraction information.
The plant management apparatus according to claim 5. The control unit generates defect information indicating information of a defect improved by the first instruction information, stores the defect information in association with the first instruction information,
The first browsing request indicates the defect information,
The control unit extracts command information associated with the defect information from the storage unit as the first extraction information.
The plant management apparatus according to claim 6. The command information indicates one command of maintenance, monitoring, and instruction of the plurality of control devices.
The plant management apparatus according to claim 7. When the control unit receives a second command information request designating the second command information from the terminal device, the control unit reads the second command information from the storage unit, and the second control device via the terminal device Sending the second command information to
The plant management apparatus according to claim 3. The terminal device is connected to the network via wireless communication;
The plant management apparatus as described in any one of Claims 1 thru | or 9. The terminal device is provided in one of the plurality of plants,
The plant management apparatus as described in any one of Claims 1 thru | or 9. A computer connected to a plurality of control devices that respectively control a plurality of plants via a network transmits command information for instructing any of the plurality of control devices, and the computer is controlled by any of the plurality of control devices. In a plant management method comprising receiving measured information,
The computer is
When receiving the first command information transmitted from the command information generation function in the plant to the first control device among the plurality of control devices , the first command information is stored in the storage unit,
When a first command information request for designating the first command information is acquired based on an input from a user, the first command information is read from the storage unit, and the first control device is among the plurality of control devices. Transmitting the first command information to a second control device different from
A plant management method characterized by further comprising:

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