KR0132449Y1 - Communication device - Google Patents

Abstract

The present invention relates to a communication device of the air circuit breaker, and in the past, most of the conventional circuit breaker does not have a communication device, even if there is a communication device adopts a commercial communication method or has a unique communication configuration of the manufacturer, so that it varies depending on the user's environment There was a problem that could not be utilized. The present invention devised a communication device of the air circuit breaker that can be selected and utilized according to the size or complexity of the system to solve the conventional problems.

Description

Communication device of air circuit breaker

Figure 1 (a) is a block diagram showing the configuration of the air circuit breaker according to an embodiment of the present invention.

(b) is the detailed circuit diagram of a control part in (a) of FIG.

Figure 2 (a) is a block diagram showing the configuration of the air circuit breaker according to another embodiment of the present invention.

(b) is a detailed circuit diagram of the communication apparatus in (a) of FIG.

Figure 3 (a) is a block diagram showing the configuration of the air circuit breaker according to another embodiment of the present invention.

(b) is a detailed circuit diagram of the communication apparatus in (a) of FIG.

* Explanation of symbols for main parts of the drawings

1,11 microprocessor 2: power supply

3: signal processing device 4,13: communication driver (SCI)

5: Trip device 6: Communication driver (RS-232)

7: Photo coupler 8: Communication driver (RS-485)

9: power supply unit 10: air circuit breaker

12: address setting section 14: communication driver

15: communication gate array 20: PC

30,40: communication device 50: adapter card

The present invention relates to a communication device of the air circuit breaker, and more particularly, to a communication device of the air circuit breaker to enable the configuration of the three types of communication network to be able to select the appropriate configuration according to the size or complexity of the system.

Most of the industrial systems currently in use or on the market are designed to form a communication network around PCs or independent masters. The air circuit breaker, which is an essential device of the switchboard, is also absolutely necessary for the communication function. If the communication function is provided, the user can collect and review the information of various lines from the central monitoring panel, and check the fault status, the state before the breakdown and the setting values of the breaker. Can effectively detect the power.

However, most of the conventional air circuit breakers do not have a communication function or even have a communication function, and usually adopt a commercial communication method (current loop, RS-422, RS485, etc.) or have a manufacturer's own communication configuration. There was a problem that can not be utilized in various ways.

An object of the present invention is to provide a communication device of the air circuit breaker that can be selected and utilized according to the size or complexity of the system to solve the conventional problems. Hereinafter, described in detail with reference to FIGS. 1 to 3 attached to an embodiment of the present invention.

(A) and (b) of FIG. 1 are block diagrams showing the configuration of the air circuit breaker according to an embodiment of the present invention. As shown therein, the microprocessor 1 and the distribution line ( A transformer C1-C4 connected to R, S, T, and N to supply power to the power supply unit 2, and a power supply unit receiving power from the transformer C1-C4 to supply power to each part of the system. (2) and the output of the current detecting transformer C5-C8 for measuring the current flowing through the distribution lines R, S, T, and N, and the output of the current detecting transformer C5-C8 accordingly. A signal processing device 3 for converting the signal into the microprocessor 1 and outputting the signal to the microprocessor 1, a communication driver 4 (SCI) for transferring a signal between the microprocessor 1 and the PC 20, and the microprocessor The control unit 10-1 comprising a trip device 5 for shorting or opening the distribution lines R, S, T, and N according to the control signal of (1). Chakdoen connected to the communication cable to the air circuit breaker 10, the air circuit breaker (10) constitutes the distribution line to the PC 20 is capable of Remote monitoring and control.

Referring to the accompanying drawings with respect to the operation of an embodiment of the present invention configured as described above in detail as follows.

The user who wants to operate alone with one air circuit breaker 10 connects the PC 20 to the air circuit breaker 10 equipped with the control unit 10-1 as shown in FIG. Will be used together.

First, the power supply unit 2, which is supplied with power from the transformers C1-C4 connected to the distribution lines R, S, T, and N, supplies power appropriate to each part of the system. The current detecting transformer C5-C8 detects a current flowing in the distribution lines R, S, T, and N, and outputs it to the signal processing device 3, where the signal processing device 3 detects the detected current. Is converted into a signal accordingly and transmitted to the microprocessor 1. The microprocessor 1 then controls the trip device 5 according to the content of the input signal to short-circuit or open the distribution lines R, S, T, and N. At this time, the operation state and the current state of the air circuit breaker 10 is transmitted to the PC 20 through the communication driver 4 (SCI).

Further, when a user sends a control signal through the PC 20 to adjust the air circuit breaker 10, the signal is transmitted to the microprocessor 1 through the communication driver 4 (SCI), the microprocessor (1) Controls the system according to the content of the input signal.

Therefore, the user can monitor and control the air circuit breaker 10 using the PC 20 even at a long distance.

(A) and (b) of FIG. 2 are block diagrams showing the configuration of the air circuit breaker according to another embodiment of the present invention, and as shown therein, the signal from the air circuit breaker 10 A communication driver for transmitting a signal from the communication driver 8 (RS-485) or a signal from the communication driver 8 (RS-485) through the photo coupler 7 and transmitting it to the air circuit breaker 10 ( 6) transmits a signal from the communication driver 6 (RS-232) through the RS-232 and the photo coupler 7 to the PC 20, or transmits a signal from the PC 20 to the photo coupler 7 To a communication driver 8 (RS-485) for transmitting to the communication driver 6 (RS-232) and a power supply unit 9 for supplying appropriate power to the communication drivers 6 and 8, respectively. Air circuit breaker 10 is equipped with the communication device 30 made up, the communication device 30 is mounted and the air interrupter Is connected to 10 and a communication cable constitutes an air circuit breaker 10 to the PC 20 is capable of Remote monitoring and control.

Referring to the accompanying drawings with respect to the operation of another embodiment of the present invention configured as described above will be described in detail.

If a user wants to operate several air circuit breakers 10 connected to one PC 20, that is, a user who needs a multi-drop or wants to operate a communication distance farther away is shown in FIG. The communication device 30 configured as described above is mounted on the air circuit breaker 10 and the PC 20, respectively, and then connected by a communication cable.

In addition, since the communication driver 6 (RS-232) has a short communication distance, the communication driver 6 (RS-232) is used in connection with the communication driver 8 (RS-485) having a longer communication distance.

First, the power supply unit 9 supplies power suitable for the communication drivers 6 and 8, respectively. Then, when the user sends a control signal using the PC 20 to adjust the air circuit breaker 10, the signal is a communication driver 6 (RS-232) of the communication device 30 mounted on the PC 20 The signal is transmitted to the communication driver 8 (RS-485) through the photo coupler (7). The communication driver 8 (RS-485) receiving the signal transfers it to the communication driver 8 (RS-485) of the communication device 30 mounted on the air circuit breaker 10.

The communication driver 8 (RS-485) receiving the signal transfers it to the communication driver 6 (RS-232) through the photo coupler 7, and the communication driver 6 (RS-232) receives it. It delivers to the communication driver 4 (SCI) of the air circuit breaker 10.

At this time, since a signal is transmitted between the communication driver 6 (RS-232) and the communication driver 8 (RS-485) by the photo coupler 7, it is insulated from each other. In addition, the operation state of the air circuit breaker 10 or the current situation is transmitted to the PC 20 in the reverse order of the above-described path.

Therefore, the user can monitor and control several air circuit breakers 10 using the PC 20 by mounting the communication device 30.

(A) and (b) of FIG. 3 are block diagrams showing the configuration of the air circuit breaker according to another embodiment of the present invention. As shown therein, the microprocessor 11 and the communication address for controlling the overall system, The address setting unit 12 for setting, the communication driver 13 (SCI) for transmitting a signal between the air circuit breaker 10 and the microprocessor 11, the microprocessor 11 and PC 20 Communication driver 14 for transmitting a signal between the communication driver 14 and the communication gate array 15 for the communication distance and communication speed to further increase the communication speed when receiving a signal between the microprocessor 11 The air circuit breaker 10 equipped with the communication device 40 and the adapter card 50 are mounted and connected to the air circuit breaker 10 via a communication cable to monitor the distance of the air circuit breaker 10. Composed of 20) All.

Referring to the accompanying drawings with respect to the operation of another embodiment of the present invention configured as described above in detail as follows.

First, the adapter card 50 is mounted on the PC 20 to interface with the communication gate array 15. Then, the communication setting is set using the address setting unit 12.

In this state, when the user sends a control signal through the PC 20 to adjust the air circuit breaker 10, it is transmitted to the communication driver 4 through the adapter card (50).

The communication driver 14 receiving the signal transfers it to the microprocessor 11 through the communication gate array 15, and the communication speed is increased through the communication gate array 15.

The microprocessor 11 which receives the signal outputs a control signal for controlling the system according to the input signal, which is transmitted to the air circuit breaker 10 through the communication driver 13 (SCI).

The signal from the air circuit breaker 10 is also transmitted to the microprocessor 11 through the communication driver 13 (SCI), and the microprocessor 11 transmits an output signal according to the input signal to the communication gate array 15. And transmits to PC 20 through communication driver 14. At this time, the signal is insulated due to the pulse transformer or the like of the communication driver 14.

Therefore, the user can control more air circuit breakers 10 in the state where the communication speed and distance are increased by using the PC by mounting the communication device 40.

As described in detail above, the present invention can select an appropriate configuration according to the size or complexity of the system, that is, the user's environment, so that the air circuit breaker can be effectively monitored and controlled.

Claims (3)

A microprocessor (1) for controlling the overall system, a transformer (C1-C4) connected to the distribution lines (R, S, T, N) and supplying power to the power supply unit (2), and the transformer (C1-C4) A power supply unit (2) for receiving power from the power supply unit and supplying power to each system, a current detecting transformer (C5-C8) for measuring a current flowing through the distribution lines (R, S, T, and N), The signal processing device 3 converts the output of the current detecting transformer C5-C8 into a corresponding signal and outputs the signal to the microprocessor 1, and a signal between the microprocessor 1 and the PC 20. Control unit 10-consisting of a communication driver (4) (SCI) for transmission and a trip device (5) for shorting or opening the distribution lines (R, S, T, N) in accordance with the control signal of the microprocessor (1). 1) A built-in air circuit breaker 10 and the air circuit breaker 10 are connected by a communication cable to prevent the remote monitoring and control of the distribution line. Communication device of the air circuit breaker, characterized in that composed of the seed (20). The signal from the air circuit breaker 10 is transmitted to the communication driver 8 (RS-485) through the photo coupler 7, or the signal from the communication driver 8 (RS-485) is transferred to the photo coupler 7; The communication driver 6 (RS-232) for receiving it and transmitting it to the air circuit breaker 10, and the signal from the communication driver 6 (RS-232) through the photo coupler 7 PC 20 A communication driver 8 (RS-485) which transmits the signal from the PC 20 to the communication driver 6 (RS-232) via the photo coupler 7, and the communication driver 6, The air circuit breaker 10 equipped with the communication device 30 which consists of the power supply part 9 which supplies each suitable power to 8), The communication device 30 is equipped, and also communicates with the air circuit breaker 10. Lifting vehicle, characterized in that consisting of the PC 20 that can be remotely monitored and controlled by the circuit breaker 10 is connected by a cable The communication apparatus on the group. A microprocessor 11 for controlling the overall system, an address setting unit 12 for setting a communication address, and a communication driver 13 for transmitting a signal between the circuit breaker 10 and the microprocessor 11 (SCI). ), A communication driver 14 for transmitting a signal between the microprocessor 11 and the PC 20, and a communication distance and communication when exchanging a signal between the communication driver 14 and the microprocessor 11. The air circuit breaker 10 equipped with the communication device 40 which consists of the communication gate array 15 for speeding up further is equipped with the communication device 40 which consists of the communication gate array 15 for speeding up further. Is equipped with an adapter card 50 and connected to the air circuit breaker 10 by a communication cable, the air circuit breaker comprising a PC 20 capable of remote monitoring of the air circuit breaker 10. Communication device.