JP5017315B2 - Device replacement method for power generation monitoring and control system - Google Patents

Description

  The present invention relates to a method for replacing an existing computer and an existing PIO device with a new computer and a new PIO device, respectively, in a power generation monitoring control system installed in a power plant.

  The power generation monitoring control system has a computer, a PIO board, a display input device, and field equipment. The computer and the field device are connected via a PIO board, and the field device is monitored and controlled by a display input device connected to the computer.

  When replacing the existing computer and PIO board in the power generation monitoring control system with a new computer and PIO device, the operation of the power generation monitoring control system is stopped, and then the existing computer and PIO board are removed. Then, a new computer and a PIO board are carried in, and a new PIO board and a field device are connected (for example, refer patent document 1). Thereafter, the operation of the new computer and PIO board is checked.

Japanese Patent Laid-Open No. 10-228329

  However, if the operation of the newly installed computer and the PIO board is checked after the operation of the power generation monitoring control system is stopped, the operation stop time of the power generation monitoring control system becomes longer.

  Accordingly, the present invention has been made to solve the above-described problem, and when the computer and the PIO device already installed in the power generation monitoring and control system are replaced with a new computer and PIO device, the operation stop time of the power generation monitoring and control system is reduced. It aims at shortening.

In order to achieve the above object, an apparatus replacement method for a power generation monitoring control system according to the present invention includes an existing computer that performs display processing of equipment information from field equipment and input processing of operation information from an operator, An existing PIO device connected to the existing computer via a network and controlling input / output of a signal indicating the device information or the operation information between the existing computer and the field device, and extended from the field device An existing terminal block to which an external cable is connected, an existing wiring connecting the existing PIO device and the terminal block, and an existing PIO board that accommodates the existing PIO device, the existing terminal block, and the existing wiring inside DOO power generation monitoring the existing computer and the new PIO device each having a new computer and converting panel existing PIO device of the control system with a A device replacement process of the power generation monitoring and control system changing Ri, testing via the conversion panel in the new PIO device replacement unit the new computer and said new PIO device is connected via the new network device A first connection step for connecting the power generation unit, a confirmation step for confirming the operation of the replacement unit using the test apparatus after the first connection step, and stopping the operation of the power generation monitoring control system after the confirmation step. An existing device removal step of removing the wiring from the existing PIO device after the operation stopping step, removing the existing PIO device from the existing PIO board, and removing it together with the existing network and the existing computer; connect the existing wiring to the new PIO device via the conversion panel, the new PIO device the existing PI Characterized in that and a second connecting step inside a cabinet.

  ADVANTAGE OF THE INVENTION According to this invention, when replacing the computer and PIO apparatus which are already installed in the power generation monitoring control system with a new computer and PIO apparatus, the operation stop time of the power generation monitoring control system can be shortened.

It is a flowchart which shows the apparatus replacement | exchange method of the electric power generation monitoring control system which concerns on embodiment of this invention. It is a block diagram which shows the existing power generation monitoring control system. It is a block diagram which shows the state which connected the test apparatus to the replacement unit which has a new computer and a new PIO apparatus. It is a block diagram which shows the electric power generation monitoring control system after apparatus replacement.

  An embodiment of a device replacement method for a power generation monitoring control system according to the present invention will be described with reference to FIGS. FIG. 1 is a flowchart showing a device replacement method of the power generation monitoring control system according to the embodiment of the present invention. FIG. 2 is a block diagram showing an existing power generation monitoring control system. FIG. 3 is a block diagram showing a state in which a test apparatus is connected to a replacement unit having a new computer and a new PIO device. FIG. 4 is a block diagram showing the power generation monitoring control system after equipment replacement.

  First, the existing power generation monitoring control system 1 before equipment replacement will be described with reference to FIG.

  The existing power generation monitoring control system 1 includes an existing computer 110, a plurality of existing PIO boards 120a to 120c, a plurality of field devices 130a to 130c, and an existing display input device (not shown). The existing computer 110 is connected to a plurality of existing PIO boards 120 a to 120 c by an existing network 150. Moreover, each existing PIO board 120a-120c is connected to each field device 130a-130c by the external line cables 160a-160c, respectively.

  The existing computer 110 has a display processing unit, an input processing unit, and a data storage unit. The display processing unit is connected to the existing display input device and the data storage unit, and displays the device information from the field device 130a on the screen of the existing display input device. The input processing unit is connected to the existing display input device and the data storage unit, and inputs operation information based on the touch operation of the operator from the screen of the existing display input device.

  The on-site devices 130a to 130c are, for example, a control device for pumps and control rods, or measuring instruments when a nuclear power plant is taken as an example. For example, the field device 130a inputs a signal (operation signal) indicating operation information related to the control of the pump and the control rod from the existing PIO board 120a, or receives a signal (device signal) indicating device information such as a measurement value. It outputs to the board 120a.

  The existing PIO board 120a has an existing PIO device 121a, a terminal block 122a, and a wiring 123a. The existing PIO device 121a and the terminal block 122a are connected by a wiring 123a. The existing PIO device 121a is connected to the existing computer 110 via the existing network 140, and the terminal block 122a is connected to the field device 130a via the external cable 150a. The existing PIO board 120a plays a role of controlling operation signals and input / output of equipment signals between the existing computer 110 and the field equipment 130a. The existing PIO boards 120b and 120c are the same as the existing PIO board 120a.

  Next, a device replacement method for the power generation monitoring control system according to the present embodiment will be described. The devices to be replaced by this method are the existing computer 110, the existing PIO devices 121a to 121c, and the existing network 150.

  First, the replacement unit 3 shown in FIG. 3 is prepared (S1). The replacement unit 3 includes a new computer 210, a plurality of new PIO devices 221a to 221c, an existing display input device (not shown), and a new network 250.

  The new computer 210 is connected to a plurality of new PIO devices 221a to 221c by a new network 250. The new computer 210 has a new server 211 and a new client 212, and a new display operation device is connected to the new client.

  The new PIO devices 221a to 221c have conversion panels 224a to 224c, respectively. Here, as will be described later, the new PIO devices 221a to 221c and the field devices 130a to 130c are connected by the wires 123a to 123c, but the connectors of the wires 123a to 123c correspond to the adapters of the new PIO devices 221a to 221c. Not necessarily. Therefore, the conversion panels 224a to 224c have a function of a conversion adapter for connecting the connectors of the wirings 123a to 123c to the new PIO devices 221a to 221c. Therefore, when the connectors of the wirings 123a to 123c correspond to the adapters of the newly installed PIO devices 221a to 221c, the conversion panels 224a to 224c are not necessary.

  Next, as shown in FIG. 3, the conversion panel 224a and the test apparatus 270 are connected by the test cable 271 to connect the new PIO apparatus 221a and the test apparatus 270 (first connection step) (S2 ). Here, the test apparatus 270 can output a simulated signal equivalent to the apparatus signal output from the field devices 130a to 130c to the existing PIO devices 121a to 121c. In addition, the test apparatus 270 can perform input confirmation by inputting an operation signal output from the new computer 210 to the field devices 130a to 130c.

  After connecting the test device 270, the test device 270 causes the new PIO device 221a to output a simulated test signal equivalent to the device signal, and confirms device information based on the test signal from the screen of the new display input device. The operation of the new computer 210 and the new PIO device 221a is confirmed (confirmation step) (S3). In addition, operation information is output to the new PIO device 221a by a touch operation on the screen of the existing display input device, and the operation of the new computer 210 and the new PIO device 221a is confirmed by the test device 270 (confirmation process) (S3). ).

  Similarly, the new PIO devices 221b and 221c are connected to the test device 270 (S2), and the operation check of the new computer 210 and the new PIO devices 221b and 221c is performed (S3). Note that three test devices may be connected to the newly installed PIO devices 221a to 221c, respectively, and the operations of the newly installed computer 210 and the newly installed PIO devices 221a to 221c may be checked simultaneously.

  After the operation check, the operation of the existing power generation monitoring control system 1 is stopped (S4). After the operation is stopped, the wires 123a to 123c are removed from the existing PIO devices 121a to 121c, and the existing computer 110, the existing PIO devices 121a to 121c, and the existing network 150 are removed (S5). After the removal, by connecting the wirings 123a to 123c to the conversion panels 224a to 224c, respectively, the newly installed PIO devices 221a to 221c and the terminal blocks 122a to 122c are connected (second connection step) (S6).

  At the time of this connection, as shown in FIG. 4, the new PIO devices 221a to 221c are accommodated in the existing PIO boards 120a to 120c, and the power generation monitoring control system 2 after the device replacement is constructed. After the device replacement work is completed, the power generation monitoring control system 2 after the device replacement is operated (S7).

  Hereinafter, effects of the device replacement method of the power generation monitoring control system according to the present embodiment will be described.

  The operation of the new computer 210 and the new PIO devices 221a to 221c is not confirmed by checking the operation of the new computer 210 and the new PIO devices 221a to 221c after the device replacement. Since the confirmation is performed, the operation stop time of the power generation monitoring control system due to the equipment replacement work of the existing power generation monitoring control system 1 can be reduced.

  Moreover, the existing PIO devices in the existing PIO boards 120a to 120c are removed without removing the entire existing PIO boards 120a to 120c. Therefore, the housings of the existing PIO boards 120a to 120c, the terminal blocks 122a to 122c, and the wirings 123a to 123c are not replaced, and the replacement cost can be reduced.

DESCRIPTION OF SYMBOLS 1 ... Existing power generation monitoring control system, 2 ... Power generation monitoring control system after apparatus replacement, 3 ... Replacement unit, 110 ... Existing computer, 120a-120c ... Existing PIO board, 121a-121c ... Existing PIO device, 122a-122c ... Terminal block, 123a to 123c ... Wiring, 130a to 130c ... Multiple field devices, 150 ... Existing network, 160a to 160c ... External cable, 210 ... New computer, 220a to 220c ... New PIO board, 221a to 221c ... New PIO Device, 224a to 224c ... Conversion panel, 250 ... New network, 270 ... Test device, 271 ... Test cable

Claims (2)

An existing computer that performs display processing of device information from field devices and input of operation information from operators;
An existing PIO device connected to the existing computer via an existing network and controlling input / output of signals indicating the device information or the operation information between the existing computer and the field device;
An existing terminal block to which an external cable extending from the field device is connected;
Existing wiring connecting the existing PIO device and the terminal block;
An existing PIO board that houses the existing PIO device, the existing terminal block, and the existing wiring;
A power generation monitoring and control system for replacing the existing computer and the existing PIO device with a new computer and a new PIO device having a conversion panel, respectively,
A first connection step of connecting a test device to the new PIO device of the replacement unit having the new computer and the new PIO device connected via a new network via the conversion panel ;
A confirmation step of performing an operation confirmation of the replacement unit using the test apparatus after the first connection step;
An operation stop step of stopping the operation of the power generation monitoring control system after the confirmation step;
Removing the existing wiring from the existing PIO device after the operation stop step, taking out the existing PIO device from the existing PIO board, and removing it together with the existing network and the existing computer;
A second connection step of connecting the existing wiring to the new PIO device via the conversion panel , and storing the new PIO device in the existing PIO board ;
A device replacement method for a power generation monitoring and control system, comprising:   2. The device replacement method for a power generation monitoring control system according to claim 1, wherein, in the confirmation step, the test apparatus outputs a signal indicating the device information from the field device in a simulated manner.

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