KR200426630Y1 - Master CPU structure - Google Patents

Abstract

The present invention relates to a master CPU dual structure of a digital reduced-capacity switchgear for monitoring the operation status of substations. In particular, it is connected to a communication line to transmit and receive data in the RS-485 method, and a lamp control module of a field information processing panel and a mosaic device. The master CPU of the mosaic device, which designates the sending / receiving address of the data so that the switch control module can normally communicate data, has a dual structure of the main CPU means and the auxiliary CPU means, and monitors the operation status of the main CPU means currently in operation. The control means automatically configures the auxiliary CPU means when an abnormality occurs in the main CPU means, so that even when the main CPU means of the master CPU fails, the auxiliary CPU means having a redundant structure immediately functions as the main CPU means. As a replacement, the entire mosaic system operates smoothly It relates to a master CPU redundancy of the digital miniature mosaic switchgear for substation operating condition monitoring to monitor the operating status normally.

Field equipment, substation, monitoring, mosaic device, main CPU means, auxiliary CPU means, control means,

Description

Master CPU structure of digital miniature switchgear for monitoring substation operation status {Master CPU structure}

1 is a view showing the overall configuration of the digital reduced-type mosaic switchgear for monitoring the substation operating state to which the present invention is applied.

2 is a view showing a mosaic device to which the present invention is applied.

3 is a view showing a detailed configuration of a mosaic device to which the present invention is applied.

Figure 4 is a block diagram showing the configuration of a master CPU of the present invention.

Figure 5 is a cross-sectional view showing the structure of the master CPU of the present invention.

Explanation of symbols for main parts of the drawings

1: field equipment, 2: field information processing group,

3: RTU-FPD, 4: RTU-MPD,

5: mosaic device, 6: optical cable,

7: light converter, 11: equipment alarm contact,

12: equipment status contact, 13: equipment control contact,

21: a first field input module, 22: a second field input module,

23: field output module, 51: master CPU,

100: main CPU means, 101: main CPU board,

104: main CPU, 200: auxiliary CPU means,

300: control means,

The present invention relates to a master CPU redundancy structure of a digital reduced-type mosaic switchgear for monitoring the operation status of substations. In particular, even when the main CPU means of the master CPU fail, the auxiliary CPU means having a redundancy structure immediately functions as the main CPU means. As a replacement, it is related to the master CPU redundancy structure of the digital reduced-capacity switchgear for substation operation status monitoring, which allows the entire mosaic system to operate smoothly to monitor the substation operation status normally.

 In general, electricity used in each home or office is provided by substations installed in each region.

In other words, the substation is a facility that is installed for the distribution of voltage or current and the distribution of power in the process of sending the power produced by the power plant to the customer through the transmission line or distribution line, the substation is a field equipment for 154KV, 23KV It is divided and supplied to each load (consumer) through a 23KV substation.

In addition, each substation is provided with a plurality of circuit breakers to cut the line to protect the facility in the event of a short circuit or ground fault while supplying electricity to the load side.

As described above, the substation is equipped with a very complicated facility for stably supplying electricity to the customer, and monitors the operation state of various devices such as a circuit breaker installed in the substation in advance to detect and prepare for the signs of failure or Monitoring systems are being provided to quickly recover from failures.

Conventional monitoring system is configured to monitor the field equipment operation status of the substation in the main management system by connecting each device, that is, various circuit breakers and other devices installed in the site and the main management system with independent cables.

However, in the related art, since the master CPU controlling the overall monitoring operation of the monitoring system is implemented by one CPU, when the CPU fails, the entire monitoring system cannot be operated normally. As the system is stopped, control of the substation becomes difficult, resulting in a large power failure.

Therefore, the present invention for solving the above problems is connected to the communication line to transmit and receive data in the RS-485 method, so that the lamp control module and the switch control module of the field information processing panel and the mosaic device can communicate the data normally. The master CPU of the mosaic device designating the transmission / reception address has a dual structure of the main CPU means and the auxiliary CPU means, and an abnormality has occurred in the main CPU means by the control means for monitoring the operation status of the main CPU means currently in operation. When the main CPU means of the master CPU is broken, the auxiliary CPU means having a redundant structure immediately replaces the function of the main CPU means, so that the entire mosaic system operates smoothly. Substation operating status to monitor the operating status normally The master CPU redundancy of the digital reduced mosaic distribution board for the city in order to provide.

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings, Figures 1 to 5 are as follows.

1 to 3 show a digital reduced-type mosaic switchboard to which the present invention is applied,

Substation field equipment (1);

Receives the relay operation and alarm provided from the field device (1), field equipment state detection signal and the like and transmits to the RTU-FPD (3) and the mosaic device (5), RTU-FPD (3) or mosaic device (5) A field information processing unit (2) for supplying a field device control signal transmitted from the field device to the field device (1);

An RTU-FPD (3) for transmitting various signals transmitted from the field information processing board (2) to a main management center (SCADA) through an RTU-MPD (4);

The front panel is formed to reduce the wiring state of the field device (1) on the front side to be seen at a glance, the alarm of the substation provided from the field information processing panel (2) connected to the field information processing panel (2) and the optical cable (6), A mosaic device 5 which lights various lamps installed on the front panel according to the status and control signal and counts and displays the number of operation of the circuit breaker; It consists of.

In addition, the field device (1) is a facility alarm contact point (11) to operate in order to alarm the abnormal operation of the various equipment installed in the substation, facility state contact point (12) for outputting the operating state of the various equipment installed in the substation; And a facility control contact point 13 for driving the field facility in accordance with a control signal supplied from the field information processing board 2,

The field information processing unit 2 includes a first field input module 21 for transmitting the output signal of the facility alarm contact point 11 to the RTU-FPD 3 and the mosaic device 5 through the optical cable 6; A second field input module 22 for transmitting the output signal of the facility state contact 12 to the RTU-FPD 3 and the mosaic device 5 through the optical cable 6, and the RTU-FPD 3 or the mosaic; It is composed of a field output module 23 for supplying the control signal transmitted from the device 5 to the facility control contact (13).

The optical cable 6 is provided with an optical converter 7 for converting data to be communicated into an optical signal.

On the other hand, the mosaic device 5,

It is connected to the communication line to transmit and receive data in the RS-485 method, and the data so that the lamp control module 57 and the switch control module 58 of the field information processing panel 2 and the mosaic device 5 can normally communicate data. A master CPU 51 specifying a transmission / reception address of

An operation switch 52 provided on the front panel and composed of a plurality of switches for controlling various functions of the mosaic device 5,

Communication alarm lamps 53 which are installed at the upper and lower ends of the front panel and used for monitoring abnormal conditions of field equipment,

It is installed at the breaker position of the field equipment reduced on the front panel, and the control switch 54 for controlling the operation of the breaker,

A display lamp 55 installed on the front panel to correspond to the field apparatus displayed on the front panel and displaying an operation state of the corresponding apparatus;

A lamp control module 57 which communicates with the field information processing unit 2 through the master CPU 51 to control lighting of the display lamp 55 according to the status signal transmitted from the field information processing unit 2;

In accordance with the operation of the control switch 54 is composed of a switch control module 58 for transmitting a field device control signal to the field information processing panel 2 through the master CPU (51).

In this way, the digital miniature switchgear

When an operation state and an abnormal state of the circuit breaker installed in the field device 1 occur, the facility alarm contact point 11 and the facility state contact point 12 operate correspondingly, and the operation signal is transmitted to the field information processing unit 2. Supplied to the first field input module 21 and the second field input module 22, the first and second field input module (21, 22) is a facility alarm contact point 11 and a facility state contact (12) The signal supplied from the optical cable 6 is transmitted.

The data transmitted from the first and second field input modules 21 and 22 is converted into an optical signal by the optical converter 7 and transmitted for a predetermined distance, and then converted into digital data again. Is supplied to the master CPU (51).

The master CPU 51 supplies an input signal to the corresponding lamp control module 57 to control the communication alarm lamp 53 and the display lamp 55 to light up, thereby operating or alarming the field device 1. Is displayed as it is on the installation diagram formed on the front panel of the mosaic device 5.

In addition, the operation state of the breaker generated in the field device 1 is counted and stored supplied to the meta device 56 by the master CPU 51, the operation frequency information of the breaker stored in the meta device 56 is As the user operates the operation switch 52, it can be confirmed.

On the other hand, by operating the control switch 54 provided in the mosaic device 5 it is possible to remotely control the breaker of the field device (1).

That is, when the user turns on the specific control switch 54 provided in the mosaic device 5, the control signal is supplied to the master CPU 51 through the switch control module 58, and the master CPU 51 The control signal is supplied to the field output module 23 of the field information processing board 2 through the optical cable 6, and the field output module 23 transmits the control signal received from the mosaic device 5 to the facility control contact point ( 13) The circuit breaker installed at the site is remotely controlled as it is supplied and driven.

Meanwhile, in the present invention, the master CPU 51 of the mosaic device 5 configured as described above is designed to have a redundant structure as the main CPU means 100 and the auxiliary CPU means 200, as shown in FIGS. 4 and 5. When the abnormality occurs in the main CPU means 100 by the control means 300 for monitoring the operation state of the main CPU means 100 currently in operation, the auxiliary CPU means 200 is configured to operate automatically.

The main CPU means 100 is connected to the communication line on the main CPU board 101 mounted inside the case 400, the field control panel (2) and the lamp control module 57 of the mosaic device in the RS-485 method And a plurality of communication units 102 communicating data with the switch control module 58, an I / O data processing unit 103 for processing data input and output through the communication unit 102, and the I / O data processing unit ( A main CPU 104 which designates the input / output address of the input / output data signal-processed by 103 is formed,

The auxiliary CPU means 200 is connected to the communication line on the auxiliary CPU board 201 mounted inside the case 400 to have the same structure as the main CPU means 100, RS-485 method field information processing panel (2) ) And a plurality of communication units 202 for communicating data with the lamp control module 57 and the switch control module 58 of the mosaic device, and an I / O data processing unit for processing data input / output through the communication unit 202. 203 and an auxiliary CPU 204 which designates the input / output address of the input / output data signal-processed by the I / O data processing unit 203,

The control means 300 monitors the operation state of the main CPU 104 or the auxiliary CPU 204 currently operating on the control board 303, and if an abnormality occurs in the currently operating CPU, the currently operating CPU. A selection control unit 301 for activating another CPU after stopping the display, and a display / keypad 302 which displays an operating state of the currently operating CPUs 104 and 204 and serves as a key input means for CPU control. To configure.

The main CPU board 101, the auxiliary CPU board 201, and the control board 303 are sequentially stacked and mounted inside the case 400 as shown in FIG. 5.

Referring to the operation of the present invention configured as described above is as follows.

Initial operation When the main CPU means 100 of the master CPU 51 is in operation, the communication unit 102 of the main CPU means 100 is connected to the communication line and the field information processing board 2 and the mosaic device in the RS-485 manner. Data is communicated with the lamp control module 57 and the switch control module 58, and the I / O data processing unit 103 processes data inputted and outputted through the communication unit 102, and the main CPU 104 controls the data. The field information processing panel 2, which designates the input / output address of the input / output data signaled by the I / O data processing unit 103, and the lamp control module 57 and the switch control module 58 can communicate with each other.

At this time, the selection control unit 301 of the control means 300 monitors the operation state of the main CPU 104, and if the abnormality is detected in the operation of the main CPU 104, the selection control unit 301 immediately. Stops the operation of the main CPU 104 and operates the auxiliary CPU 204 of the auxiliary CPU means 200. FIG.

When the auxiliary CPU 204 operates, all data transmission and reception are performed through the communication unit 202 of the auxiliary CPU means 200, so that the mosaic device 5 operates normally to monitor the operation state of the substation.

Using the master CPU 51 of the present invention having a redundant structure as described above, even if the main CPU means 100 currently in operation fails, the auxiliary CPU means 200 immediately operates the main CPU means 100. Since it replaces the function, it is possible to prevent the operation of the mosaic system caused by the failure of the master CPU 51, the main CPU means (100) after operating the auxiliary CPU means 200 when the main CPU means ( The fault of 100) can be restored and the unit can be started again.

As described above, the present invention is connected to a communication line and transmits and receives data by RS-485 method, and transmits / receives an address of data so that the field information processing panel and the lamp control module and the switch control module of the mosaic device can normally communicate data. The master CPU of the designated mosaic device has a dual structure of the main CPU means and the auxiliary CPU means, and is automatically assisted when an abnormality occurs in the main CPU means by a control means for monitoring the operation status of the main CPU means currently in operation. As the CPU means is configured to operate, even when the main CPU means of the master CPU fail, the redundant CPU means immediately replaces the functions of the main CPU means, so that the entire mosaic system operates smoothly and the substation operation status is normal. To monitor the operation of substations It is expected to provide a master CPU redundancy structure for digital reduced mosaic switchboards.

Claims (2)

Receives the relay operation and the alarm provided from the field device (1), the field equipment status detection signal and the like is transmitted to the mosaic device (5), and the field device control signal transmitted from the mosaic device (5) to the field device (1) A field information processing unit (2) to supply; The front panel is formed to reduce the wiring state of the field device (1) on the front side so that it can be seen at a glance, and is connected to the communication line to transmit and receive data in the RS-485 method, and the field information processing panel (2) and the mosaic device (5) Substation operating status monitoring configured to include a mosaic device 5 including a master CPU 51 for specifying a transmission / reception address of data so that the lamp control module 57 and the switch control module 58 can normally communicate data. In the digital miniature switchgear for The master CPU 51 is designed to have a redundant structure with the main CPU means 100 and the auxiliary CPU means 200, and is controlled by the control means 300 for monitoring the operation state of the main CPU means 100 currently in operation. The master CPU dual structure of the digital reduced-type mosaic switchgear for substation operation status monitoring, characterized in that the auxiliary CPU means 200 is automatically configured to operate when an abnormality occurs in the CPU means (100). According to claim 1, wherein the main CPU means 100 is connected to the communication line on the main CPU board 101 mounted inside the case 400 of the field information processing panel 2 and the mosaic device in the RS-485 method A plurality of communication units 102 communicating data with the lamp control module 57 and the switch control module 58, an I / O data processing unit 103 for processing data input / output through the communication unit 102, and The main CPU 104 which designates the input / output address of the input / output data signal-processed by the I / O data processing part 103 is formed, The auxiliary CPU means 200 is connected to the communication line on the auxiliary CPU board 201 mounted inside the case 400 to have the same structure as the main CPU means 100, RS-485 method field information processing panel (2) ) And a plurality of communication units 202 for communicating data with the lamp control module 57 and the switch control module 58 of the mosaic device, and an I / O data processing unit for processing data input / output through the communication unit 202. 203 and an auxiliary CPU 204 which designates the input / output address of the input / output data signal-processed by the I / O data processing unit 203, The control means 300 monitors the operation state of the main CPU 104 or the auxiliary CPU 204 currently operating on the control board 303, and if an abnormality occurs in the currently operating CPU, And a selection controller 301 for operating the other CPU after stopping, and a display / keypad 302 which displays an operation state of the currently operating CPUs 104 and 204 and serves as a key input means for controlling the CPU. Master CPU redundancy structure of the digital reduced-capacity switchgear for monitoring the operation status of substations.

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