JPS6136809A - Decentralized hierarchy controller of power plant - Google Patents

Abstract

PURPOSE:To attain a simulation test even in an operation mode of a power plant by providing a transmission output signal suppressing means which suppresses the transmission output of an operation signal sent from a computer to the power plant and setting the cutting information on the transmission output signal. CONSTITUTION:A simulation test is given by a computer 1 to a turbine operation program 11 while a turbine is operated manually by means of an operation board 4. In this case, an operator changes the cutting information (e) on the transmission output signal related to the turbine operation through a conversational console 7 by a cutting indication via a transmission output signal control means 14. Thus the simulation of the program 11 is carried out. Then an operation output signal (d) is delivered to a transmission output means 12 by the program 11. The means 12 gives the transmission end information (g) to the program 11. The output processing of the signal (d) is completed with the information (g) by the program 11.

Description

[Detailed Description of the Invention] C. Technical Field of the Invention] The present invention provides a power generation plant with a plurality of digital control devices that control each control group, a computer that comprehensively monitors and controls the digital control devices, and a computer that controls the digital control devices. The present invention relates to a distributed hierarchical control device for a power generation plant having a manually operated operation panel.

[Technical background of the invention and its problems] In recent power generation plants, as the scope of automation by computers has expanded, control signals are no longer directly output from computers to power generation plants as in the past. Operation signals are output to digital control devices installed in each control group, and actual control is performed by the digital control devices, and computers have come to perform general monitoring and control of power plants.

In such power plants, a computer that monitors and controls the entire power plant generally outputs operation signals to a digital control device using a transmission line. On the other hand, even in such a power generation plant, a control panel that can be directly operated manually is required, and during computer adjustment, the plant is operated by manual operation using the control panel and via a digital control device. If a simulation test is performed using a computer in such a case, the operation signal from the computer will be output to the digital control device through the transmission line, which will affect the manual operation of the power plant. That is, in the case of a power generation plant, it is operated 24/7 without taking any breaks for a certain period of time. Therefore, the computer that monitors and controls the power plant in general and the digital control device that performs individual control cannot be completely separated from the power plant during that time. During the operating period of the power generation plant system, there may be cases where it is desired to perform correction processing such as deletion, change, or addition of a part of the program that comprehensively monitors and controls the power generation plant. In that case, it is dangerous to suddenly operate the power plant with the modified program, and therefore it is necessary to confirm whether the modified program operates as planned. At this time, since it is not possible to check the operation using an actual power generation plant, a simulation test will be performed using a computer. Therefore, the digital control device is switched to manual operation mode and a simulation test is performed using a computer, but recently, the higher-level computer and the lower-level digital control device are connected by a transmission line, so only the signals related to the simulation are used. difficult to cut.

As a result, simulation-based operation signals from the computer were sometimes output to the digital control device via the transmission line, which affected the operation of the power plant, making it impossible to conduct simulation tests of the overall monitoring and control function in the computer.

[Object of the Invention] The present invention enables simulation tests on a computer by suppressing the transmission output of operation signals from a computer even when a plurality of digital control devices installed in each control group of a power generation plant are in operation. The purpose of the present invention is to provide a distributed hierarchical control device for a power generation plant that enables the following.

[Summary of the Invention] For this reason, the present invention provides a transmission output signal suppressing means for suppressing the transmission output of an operation signal from a computer to a power generation plant, and sets transmission output signal cut information therein, thereby achieving comprehensive monitoring control. A feature of the system is that it is possible to select whether or not to output an operation signal based on the program to the power generation plant.

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

FIG. 1 shows a block configuration diagram of a distributed hierarchical control system for a power generation plant according to an embodiment of the present invention, in which 1 is a computer for overall monitoring and control of the power plant, and 2 is a computer 1.
This is a transmission line connecting the digital control bag W3 and the digital control device 3, and the digital control device 3 is installed for each control group.

4 is a control panel operated by an operator during manual operation, and 5 is a power generation plant.

Figure 2 shows a specific configuration diagram inside the computer 1.
0 is a plant state determining means for determining the plant state necessary to operate the plant according to a predetermined procedure based on the process actual input a and the process transmission input; 11
12 is a transmission output means for outputting a transmission signal to a transmission line; 13 is a transmission output signal suppression means for determining whether transmission output of a transmission output signal is possible; , 14 is a transmission output signal management means.

15 is a transmission output signal cut information table that collects transmission output signal cut information for each transmission output signal, and 6 and 7 are for displaying and changing transmission output signal cut information for setting transmission output signal cut information according to operator instructions. CR of
T-display and dialog console.

With the above configuration, the operation program 11 outputs the operation output signal d to the transmission output means 12 based on the command C of the plant state determination means 10. As shown in FIG. 3, the transmission output means 12 generates transmission output signal cut information e for the transmission output signal requested from the transmission output signal cut information table 15.
(300), and determines whether or not to transmit and output the operation output signal d (301). If the transmission output signal cut information e is a transmission instruction (N in 301), the operation output signal d is transmitted to the digital control device 3 through the transmission path 2 (302), and then a transmission completion notification g is notified to the operation program 11. (303). Further, if the transmission output signal cut information e indicates a cut instruction (Y in 301), the operation output signal d is not transmitted and output.

A transmission completion notification g' is sent (304). The operation program 11 completes the output processing of the operation output signal d by receiving the transmission completion notification g' from the transmission output means 12. That is, the operation program 11 can proceed to the next operation by obtaining the transmission completion notification g when the simulation test is not in progress and by obtaining the transmission completion notification g' during the simulation test.

Next, in order to describe the transmission output signal management means 14, the transmission output signal management means 14 will be activated from the dialog console 7.The transmission output signal management means 14 will be explained as shown in FIG. Then, the transmission output signal cut information e' is extracted and the current status is displayed on the CRT display 6 (400). The operator refers to the displayed content and notifies the transmission output signal management means 14 of new transmission output signal cut information regarding whether to output or cut each operation signal one by one through the dialog console 7 (401).

The transmission output signal management means 14 determines whether a transmission output cut instruction has been issued by the operator for each operation signal (402), and if a transmission output cut instruction has been issued, the transmission output signal, that is, the operation output signal is A "cut instruction" is issued (403), and new transmission output signal cut information f is saved in the transmission output signal cut information table 15 (404). On the other hand, in the case of a transmission instruction, the transmission output signal, that is, the operation output signal is set as a "transmission instruction" (405), and new transmission output signal cut information f is stored in the table 15 (404).

For example, if we consider a case where a simulation test of the operation program 11 related to turbine operation is performed by the computer 1 when the turbine is being operated manually by operating the operation panel 4, Transmission of the operation output signal d to the digital control device 3 must be cut off. Therefore, the operator changes the transmission output signal cut information e regarding the turbine operation into a cut instruction via the transmission output signal management means 14 from the dialog console 7. and,
An operation program 11 related to turbine operation is simulated. Through the simulation, the operation program 11 outputs the operation output signal d to the transmission output means 12. Since the transmission output signal cut information e is a cut instruction, the transmission output means 12 does not transmit and output the operation output signal d, and notifies the operation program 11 of a transmission completion notification g. The operation program 11 completes outputting the operation output signal d upon receiving the transmission completion notification g. In this way, the computer 1 can perform automated simulations regarding the turbine during manual operation of the turbine.

In the above embodiment, only the computer 1 is provided with the transmission output signal suppression means 13, but as shown in FIG. The output signal cut information e is set in the table 33 through the transmission path 2, and the control signal output means 32 determines whether or not to output the operation output signal i transmitted from the computer 1 to the power generation plant as a control signal. The determination may be made based on the signal cut information J. In this case, the transmission output signal suppressing means may be provided only on the digital control device 3 side. By determining whether or not to cut the operation output signal 1 transmitted from the computer 1 using the digital control device 3,
Calculator 1 and digital control bag! It will be possible to conduct simulation tests in a range including 3.

[Effects of the Invention] As described above, according to the present invention, even when a power generation plant is manually operated by a digital control device, a simulation test including an operation program can be performed on a host computer.

[Brief explanation of drawings]

Fig. 1 is a block diagram of a distributed hierarchical control device for a power generation plant showing an embodiment of the present invention, Fig. 2 is a functional block diagram showing the inside of the computer shown in Fig. 1, and Fig. 3 is a transmission output means shown in Fig. 2. FIG. 4 is a flowchart showing the procedure of the transmission output signal management means of FIG. 2, and FIG. 5 is a block diagram showing another embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Computer, 2... Transmission line, 3 Digital control device, 4... Operation panel, 5... Power generation plant, 6...
CRT display, 7...dialogue console, 10...
Plant status determination means, 11...operation program, 1
2... Transmission output means, 13... Transmission output signal suppression means, 14... Transmission output signal management means, 15... Transmission output signal cut information table, 31... Transmission input means, 32... - Control signal output means, 33...Transmission output signal cut information table. Figure 1 Figure 2 Figure 3 Figure 4 Figure 5

Claims (2)

[Claims] (1) A computer that performs general monitoring and control of the power generation plant, a plurality of digital control devices installed for each control group of the power generation plant, a transmission line that connects the computer and the digital control device, and a general monitoring and control of the computer. In a distributed hierarchical control device for a power generation plant, which is equipped with an operation panel for manually modifying functions and directly issuing control commands to the digital control device, the transmission output of operation signals output to the power generation plant is suppressed within the computer. 1. A distributed hierarchical control device for a power generation plant, characterized in that a transmission output signal suppressing means is provided to inhibit the transmission output of an operation signal to the power generation plant during a simulation test of the comprehensive monitoring control function in the computer. (2) A distributed hierarchical control device for a power generation plant according to claim 1, wherein the transmission output signal suppressing means is provided on the digital control device side.