JPS63133823A - Interlocking device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Field of Industrial Application] This invention is particularly applicable to the protection of the main machinery (turbine generator) and its auxiliary machinery (boilers, condensers, various pumps, etc.) of power plants such as thermal power plants. The present invention relates to an interlock device for achieving this.

[Conventional technology]

FIG. 2 is a block diagram showing a conventional example of an interlock device. In the figure, ■ is an interlock panel, 2 is a monitoring operation panel, 3 is a field box, and 4 is a control center. The interlock panel 1 receives commands from the monitoring operation panel 2 and signals from the field box 3. The output is given to each unit of the control center 4.

and \, the bowl is set to "manual J" with the changeover switch on the monitoring operation panel 2
In the case of (21a), when the operation switch 22at is set to "open", the open side entry limit switch 3 at the site
1a and torque limit switch), the relay 113 of the interface control panel 1 operates, and the contactor 4a of the unit 1 of the control center 4 operates at its contact point, opening the electric valve (not shown). Driven to the side.

On the other hand, if the changeover switch is set to "Auto J (21b),"
When a physical quantity detection switch (for example, flow rate, pressure, etc.) 33a normally installed in the field box 3 is activated, the relay 11e is activated to operate the relay 11a'i and drive the electric valve to the open side. Note that the same circuit as above is used for the closing side of the electric valve, that is, the switch 22b, '8-5
! -t, 32b, relay 11c, llf, and contactor 4b are provided. Also, the position of the electric valve (fully open, fully closed is the entry limit switch 31a, 3
1b, and in the example shown, the indicator light 23a (R: red) or 23b of the monitoring operation panel 2 is detected via the relay 11b and the lid.
(G:a) lights up.

[Problem that the invention seeks to solve]

Normally, in large-scale plants such as thermal or nuclear power plants, the number of auxiliary equipment ranges from several hundred to several thousand, the number of interlock panels ranges from 30 to 50, and the number of cable cores gathered on the interlock panel. Since the number of lines becomes large, ranging from 5,000 to tens of thousands of lines, the following problems arise.

b) Cost increases due to increase in the number of interlock panels and cables.

4) Circuit changes are generally unavoidable once a plant is commissioned, and as automation progresses, the number of changes will increase. However, in the conventional circuit using relays as shown in Figure 2, each time the circuit is changed, workers are needed to add relays and change the wiring, and workers to install additional cables, resulting in additional costs. is difficult.

c) As the number of circuits and functions increases, the number of relays and terminals increases, and as a result, the incidence of poor contact of relay contacts and loosening of terminal screws increases, which causes a decrease in plant reliability. .

Therefore, it is an object of the present invention to solve the above-mentioned problems and provide a low-cost and highly reliable interlock device.

[Means for solving problems]

When the interlock device fIt is constituted by a digital control device, it is converted into a 311, and these three digital control devices and their input and output sections are connected via a remote input and output device &.

[Effect]

By using a digital control device such as a programmable controller (PC), it is possible to perform the above-mentioned auxiliary equipment operation, control of the entire plant, and interlock device, and the reliability can be improved by triplexing the control device. , and by connecting its input and output sections via remote input and output devices, the number of cables can be reduced.

〔Example〕

If it is composed of a digital control unit (CPU),
For example, three CPUIAs are installed to ensure high reliability.◇The monitoring operation panel 2 and field box 3 are equipped with these three CPUIAs.
, IB, and IC, each with three remote inputs,
Output devices 24a, 24b.

24C and remote input device i 34 a e 34
b -34ct- is provided, and all input and output contacts of the monitoring operation panel 2 and the field box 3 are connected to it. ζ\, for example, if there is only one "manual" contact, remote input/output devices 24a and 24b, as shown in the figure.

It is passed to 24C by wiring, but if there are three "manual" contacts, it is preferable to pass them independently to remote input and output devices [24a, 24bs24c].

In addition, the cables between the control devices IA, IB, and IC and the monitoring operation panel 2 and field box 3 are duplicated (loop connection), so even if a break occurs at one location, the cables are connected to another cable in the loop. Signals can be exchanged through the route. This is to ensure reliability, and duplication is not necessarily required. Note that the remote device provided in each part is provided to save the number of cables, and is used as a remote input device or a remote output device depending on whether it is input or output to the digital control devices IA, IB, and Ic. The reason why 24b and 24cllJ% are used as input and output devices is that they include both input and output.

The same wiring as above is also performed for the control center that controls the auxiliary equipment. That is, assuming that there are control centers A to N, the output of the CPU is connected in a loop from the A control center 4 to the N control center 6, and is triplexed. Each control center has remote output devices 41a to 41c, 51a to 51.
c, 61a to 61c... are installed in three units each corresponding to CPUIA to IC, and their output is 2 out of 3.
Judgment devices 42, 52, . . . make a majority decision, and a command is output to the corresponding contactor via each command distributor 43, 53, .

Thus, digital control device, remote person.

By using a triplex configuration using output devices, the interlock section can be made smaller and the number of cables can be saved.

〔Effect of the invention〕

According to this invention, the following effects can be expected.

1) Since the digital control device is used for centralized processing, depending on the memory capacity and the scale of the plant, in the extreme it is possible to install an interlock panel on only one side, resulting in miniaturization and Cost reduction can be achieved.

2) Since the remote input/output device can be freely installed in a place with a large number of input/output points (for example, a supervisory control panel) away from the main body of the control device, the wiring between the switch or lamp and the remote input/output device can be short. In addition, since the cable between the control device and the remote input/output device is about 4 cores per cable, the total number of cores in the cable shown in Figure 1 is about 100, which is negligible and small compared to the conventional method. It becomes a cost.

3) Even if a circuit change occurs during plant trial operation, it can be easily dealt with by changing the software inside the digital control device, so the cost of 1 hour for the change can be significantly saved.

4) In the conventional method, the number of circuits increased by two functions, and the number of relays and terminals also increased, but this invention increases the number of circuits and terminals without adding anything within the capacity of the digital control device or remote input/output device. Capable of absorbing additional functionality.

Originally, digital 1IILJ control equipment has a small number of parts and has no moving parts, so it is highly reliable, but in this case, we decided to use a triplex system, which greatly increases the reliability of the system. Become.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a block diagram showing a conventional example of an interlock device. Code explanation 1...Interlock board, IA, IB, IC
---Digital control device, 1la-11f...
...Relay, 2...Indigo control panel, 3...
...Site box, 4...Control center, 4
a, 4b...Contactor, 21a, 21b, 2
2a, 22b+31a, 31b+32 a, 32 b
t 33 a - 33 b "Salary-switch, 24a,
24b, 24c...Remote input/output device, 3
4a, 34b, 34c... remote input device,
41a, 41b, 41c, 51a, 51b. 51 Ct 61 a, 6 l b, 6 l
c--Remote output device, 42.52...
2/3 judgment device, 43゜53... command distributor.

Claims (1)

[Claims] The interlock device for protecting the main engine or auxiliary equipment of a power generation plant is composed of digital control devices, and three of these devices are installed in a triplex manner, and these three digital control devices and their input and output sections are An interlock device characterized in that the devices are connected to each other via remote input and output devices.