KR19990017014A - I / O device of radiation monitoring control module - Google Patents

Abstract

The input / output device of the radiation monitoring control module according to the present invention is provided with a 7-segment decoder to convert the BCD signal output from the digital output card of the simulation system into a 7-segment signal so that it can be displayed on the numeric display device. The key input unit is configured to be interfaced with the simulation system without a separate power supply by being driven by 5VDC and 24VDC power sources used in the simulation system.

Therefore, by changing the input and output signal of the radiation monitoring control module to a digital input and output signal by the input and output device of the radiation monitoring control module according to the present invention, while the modeling program of the radiation monitoring control system in the simulation computer is performed, A good interface can be obtained.

Description

I / O device of radiation monitoring control module

The present invention relates to a radiation monitoring control module of a radiation monitoring control system, and more particularly, to an input and output device of a radiation monitoring control module in which an input and output method is changed to enable input and output of a simulator input and output system of a power plant.

1 is a system block diagram showing the configuration of a general radiation monitoring control system.

As shown in Figure 1, the radiation monitoring control system of the nuclear power plant is a power supply device for supplying DC power to the radiation monitoring control module (RM-23A) (100) and the radiation monitoring control module 100 provided in the control panel room. (20), a radiation monitoring apparatus (not shown) provided in the nuclear reactor building for monitoring the radiation, and a microprocessor (RM-80) (10) for processing and transmitting the radiation monitoring results to the radiation monitoring control module (100). Is made of.

In this case, the radiation monitoring control module 100 provides an analog output value of 4-20 mA, and the front panel of the control module controls a number display, a plurality of LEDs indicating channel status, control keys, data input keys, and front panel instruments. It consists of a control board.

The radiation monitoring control module 100 of the radiation monitoring control system having such a configuration communicates independently with the microprocessor 10 and the radiation monitoring apparatus and monitors radiation levels, alarms, and operating states generated at each site of the power plant.

The numerical indicator attached to the front panel of the radiation monitoring control module 100 selects and displays the radiation signal value transmitted last of the signals transmitted from the microprocessor 10, and three LEDs of the front panel LEDs emit radiation. Indicates the operation status of the monitoring control module. In addition, the operation status and alarm condition of each channel of the radiation monitoring control module are indicated and indicated on the 12 LEDs of the radiation monitoring control module, and a plurality of push keys (control key, data input key) convert the data of the microprocessor. .

At this time, the microprocessor 10 and the radiation monitoring device (not shown) are installed at the site where the reactor facility is installed, not the control room. Therefore, there are the following problems in applying the radiation monitoring control module in order to realize the perfect function of the simulator.

First, the radiation monitoring control module 100 is a dedicated product used in connection with the microprocessor 10 in the field, and there is a fundamental difference from the control range of the simulation computer excluding the device in the field. Second, the radiation monitoring control module 100 Because control module of each module is used for data processing to communicate with the analog signal value of the site, it cannot be directly connected to the simulator input / output system. Finally, the operating values of the numerical display and data entry keys of the radiation monitoring control module could not be freely implemented as the operator wanted to use in the simulation computer.

Accordingly, an object of the present invention is to solve the conventional problems, and an object thereof is to change an input / output signal type of a radiation monitoring control module so as to easily interface with a simulator input / output system. It is to provide.

In order to achieve the above object, the input / output device of the radiation monitoring control module according to the present invention is a radiation monitoring control module having a display unit for displaying an operation state and a numeric display unit for displaying a radiation monitoring value and a key input unit. And a 7-segment decoder which converts the digital signal output from the simulation system into a 7-segment signal and displays the number on the numeric display.

In addition, in the input and output device of the radiation monitoring control module according to the present invention, the radiation monitoring control module is characterized in that it is driven by receiving the power applied to the simulation system.

1 is a system block diagram showing the configuration of a general radiation monitoring control system,

Figure 2 is a block diagram showing a numeric display of the radiation monitoring control module having an input and output device according to the present invention,

3 is a block diagram showing the configuration of the LED and the key input unit of the radiation monitoring control module having an input and output device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: microprocessor, 20: power supply,

100: radiation monitoring control module, 110: numeric display

111: 7-segment display section, 112: 7-segment decoder section,

120: display unit, 130: key input unit,

120a, 130a: Subboard.

Hereinafter, with reference to the accompanying drawings, the configuration and operation and effect according to a preferred embodiment of the present invention will be described in detail.

First, the radiation monitoring system according to the present invention comprises a radiation monitoring control module, a simulation system for simulating the operation and operation of the radiation monitoring control module, wherein the simulation system performs input and output of the radiation monitoring control module and data. Simulation input and output device is provided.

At this time, the radiation monitoring control module for performing the interface with the simulation input and output device is shown in Figures 2 and 3, Figure 2 is a block diagram showing the configuration of the numeric display of the radiation monitoring control module according to the present invention, 3 is a block diagram showing the configuration of the LED and key input unit of the radiation monitoring control module according to the present invention.

First, the numeric display 110 of the radiation monitoring control module according to the present invention, as shown in Figure 2, 7-segment decoder unit for receiving the BCD code signal from the simulator output card to convert into a 7-segment (segment) signal And a 7-segment display section 111 for displaying the 7-segment signal converted by the 7-segment decoder section 112.

Instead of receiving the 4-20 mA analog signal value output from the microprocessor 10 by the numerical display 110 of the radiation monitoring control module having such a configuration, the digital signal D0 output from the simulation output card is output. The input signal is converted into a 7-segment signal to display a radiation monitoring value on the 7-segment display unit 111. Therefore, the interface with the simulation output device is enabled by using the same 7-segment display section 111 as in the prior art.

On the other hand, Figure 3 is a block diagram showing the configuration of the display unit 120 and the key input unit 130 of the radiation monitoring control module according to the present invention.

As shown in FIG. 3, the 15 LEDs and 10 lamps constituting the display unit 120 of the radiation monitoring control module according to the present invention are operating states and respective channels of the radiation monitoring control module like conventional LEDs and lamps. Indicates the operation status and alarm condition.

At this time, each LED 121 and the lamp 122 is turned on by receiving the drive signal (L0: 24VDC) output from the digital output card, the driving voltage of each LED 121 and the lamp 122 is separately controlled radiation monitoring The module 100 is interfaced with the simulation computer by the sub-board 120a to be driven by a voltage of 24 [VDC] used in the simulation computer of the simulation system without a power supply for supplying power to the module 100.

In addition, the key input unit 130 is provided on the front panel of the radiation monitoring control module 100 receives the operation signal by the operator and transmits it to the microprocessor 10 provided in the reactor facility is installed, the key according to the present invention Unlike the prior art, each key of the input unit 130 is not modularized, but is connected to a single signal line through the sub-board 130a so that the channel operation signal DI is applied to the digital input card of the simulation input / output device according to the channel operation. Will be provided. And each key of the key input unit 130 is operated by applying the +5 [V DC] voltage used in the simulation computer without a separate power supply like the LED 121 and the lamp 122 of the display unit 120 .

In this configuration, each control block is manufactured by installing three PCB boards, and a terminal terminal for cable connection (not shown) is installed at the rear to easily connect with the simulator input / output system to interface with the simulator input / output system.

As described above, the input / output device of the radiation monitoring control module according to the present invention includes a 7-segment decoder so that the BCD signal output from the digital output card of the simulation system can be converted into a 7-segment signal and displayed on the numeric display. Each LED, lamp, and key input unit of the display unit is driven by applying +5 [VDC] and +24 [VDC] power used in the simulation system to be able to interface with the simulation system without a separate power supply.

Therefore, by changing the input and output signal of the radiation monitoring control module to a digital input and output signal by the input and output device of the radiation monitoring control module according to the present invention, while the modeling program of the radiation monitoring control system in the simulation computer is performed, A good interface can be obtained.

Claims (2)

In the radiation monitoring control module having a display unit for displaying the operation state and a numeric display and key input unit for displaying the radiation monitoring value, A simulation system for simulating an operating state of the radiation monitoring control module; And a 7-segment decoder for converting the digital signal output from the simulation system into a 7-segment signal and displaying the same on the numeric display. The input and output device of a radiation monitoring control module according to claim 1, wherein the radiation monitoring control module is driven by being supplied with power applied to the simulation system.