KR100442301B1 - Electronic Molded Case Circuit Breakers - Google Patents

Abstract

The present invention relates to a circuit breaker for electronic wiring which has a high reliability by reducing the setting error by configuring a setting value adjusting means for tripping the circuit breaker as a digital button input type having a display window, the detecting means for detecting a current value flowing in a circuit; Rectifying and amplifying means for rectifying and amplifying the current value; A / D conversion means for digitally converting the amplified signal; control means for comparing the digitally converted value with a set characteristic value and outputting a cutoff signal when an overload occurs and a cutoff signal The trip unit for tripping the opening and closing mechanism of the breaker according to; a display window for the user to check the current setting value and a characteristic setting unit having an up / down button as an input means for adjusting the set value.

Description

Electronic Molded Case Circuit Breakers

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic wiring breaker, and more particularly, to an electronic wiring breaker having high reliability by configuring setting means for adjusting a setting value for tripping a circuit breaker with a digital button input type having a display window.

In general, a molded case circuit breaker (MCCB) is an assembly of a switch mechanism, a trip device, and the like integrated into a container of an insulator, and manually opens or closes a circuit in a normal use state, or operates an electric device outside the insulator container. It is a device that can be opened and closed from a distance by a device, etc., and also cuts off the circuit automatically in case of overload or short circuit.

Such circuit breakers can be broadly classified into thermal-electronic using bimetal and magnet, fully electronic using oil dash port, and electronic using electronic devices according to the method of tripping the circuit breaker.

Circuit breakers using electronic trip devices provide constant characteristics without being affected by ambient temperature or mounting methods.

In addition, there is a tendency of increasing demand centering on important equipment and high-end equipment with the advantage that there is little characteristic difference between products compared to other trip devices and provides an alarm signal for overload that cannot be implemented in other trip devices.

Hereinafter, a circuit breaker of the related art will be described with reference to the accompanying drawings.

1 is a block diagram illustrating a circuit breaker for a conventional electronic wiring.

The conventional circuit breaker for electronic wiring has a R-phase CT (Current Transformer) output section 1a, a S-phase CT output section 1b, and a T-phase CT output section that detects currents R, S, and T flowing through the circuit. 1c), a rectifier 2 for full-wave rectifying the detected current of the phase, an amplifier 3 for amplifying the rectified waveform, and an A / D converter 4 for converting the amplified waveform into a digital signal. And a microprocessor (5) for comparing and controlling the set characteristic value and the signal input from the A / D converter (4) to output a cutoff signal when an overload occurs, and an opening / closing mechanism part of the breaker under the control of the microprocessor (5). A tripping section 6 for tripping a circuit, a characteristic setting section 8 for setting a desired characteristic value by a dial adjustment method, and an R, S, T phase CT output section 1a (1b) having a setting value such as a short circuit current or more. Instantaneous output for outputting the signal to the trip unit 6 without passing through the microprocessor 5 when there is an output of It consists of the detection part 7 and the electrostatic power source part 9 for driving a PCB.

Referring to the operation of the electronic wiring breaker of the prior art as follows.

First, the current flowing through the load is detected by the R, S, and T phase CT output units 1a, 1b, and 1c.

Subsequently, after the detected signal is rectified by the rectifying unit 2, the amplifying unit 3 is inverted and amplified at a constant ratio, and the A / D converter 4 converts the digital signal into a digital signal.

The signal converted into the digital value by the A / D conversion unit 4 is input to the microprocessor 5 and the input signal is compared with the value set by the characteristic setting unit 8 by the user's selection and dial adjustment. As a result, the breaker is tripped by selectively driving the trip coil of the trip part 6.

In the event of an accident such as a short circuit, the amplified signal is immediately detected by the instantaneous detection unit 7 to drive the trip unit 6 to prevent the spread of the accident.

Here, the characteristic setting unit 8 of the prior art for setting the characteristic is a method in which the user turns the dial to set the characteristic value, in the dial adjustment method, the adjustment value is changed depending on the mechanical wear of the dial and the user's adjustment position. There is a possibility of error.

However, such a conventional circuit breaker for electronic wiring has the following problems.

In the case of using the dial-type characteristic setting unit, there is a problem in that the variation occurs somewhat depending on the adjustment position of the user, and the desired characteristic value is not reproduced when the adjustment position of the user is changed.

This increases the likelihood of error in the device and reduces its reliability.

The present invention is to solve the problem of the electronic circuit breaker of the prior art in which the characteristic value is adjusted by the dial adjustment method, and the setting error of the setting value for tripping the circuit breaker is constituted by a digital button input type having a display window. The purpose of the present invention is to provide a circuit breaker for electronic wiring, which reduces reliability.

1 is a configuration block diagram of a conventional circuit breaker for electronic wiring

Figure 2 is a block diagram of the configuration of the electronic circuit breaker according to the present invention

3 is an operation flowchart of an electronic wiring breaker according to the present invention.

4 is an interrupt operation flowchart of the electronic circuit breaker according to the present invention.

Explanation of symbols for the main parts of the drawings

21a. R phase CT output 21b. S-phase CT output

21c. T-phase CT output 22. Rectifier

23. Amplifying unit 24. A / D conversion unit

25. Microprocessor 26. Trip section

27. Instantaneous detection unit 28. LCD characteristic setting unit

29. Power failure source

Electronic circuit breaker according to the present invention for achieving the above object is a detection means for detecting a current value flowing in the circuit; rectifying / amplifying means for rectifying and amplifying the detected current value; A / D for digital conversion of the amplified signal Control means for comparing the digitally converted value and the set characteristic value to output a cutoff signal in the event of an overload and a trip unit for tripping the opening and closing mechanism of the breaker according to the cutoff signal; and a display window for the user to check the current set value; It characterized in that it comprises a feature setting unit having an up / down button as an input means for adjusting the set value.

Hereinafter, an electronic circuit breaker having an LCD display window according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram illustrating a circuit breaker for an electronic wiring according to the present invention.

Electronic circuit breaker according to the present invention is to configure the display window using the LCD (Liquid Crystal Display) device, the characteristic setting unit to display each setting value on the display window and the user to input the selection value using the digital button while watching this This excludes the occurrence of mechanical wear and error due to location.

The overall configuration is as follows.

First, the R-phase CT (Current Transformer) output unit 21a, the S-phase CT output unit 21b, and the T-phase CT output unit 21c for detecting the R-phase, S-phase, and T-phase currents flowing through the circuit are detected. A rectifier 22 for full-wave rectifying the current of each phase, an amplifier 23 for amplifying the rectified waveform, an A / D converter 24 for converting the amplified waveform into a digital signal, and a set characteristic value Control means for comparing and controlling the signals input from the A / D converter 24 and outputting a cutoff signal when an overload occurs, that is, the microprocessor 25 and the microprocessor 25 under the control of the opening / closing mechanism of the circuit breaker. A trip part 26 for tripping, an LCD characteristic setting part 28 for setting a desired characteristic value by a digital button input method with an adjustment value display window, and R, S, and T phase CT output above a set value such as a short circuit current. When there are outputs of the sections 21a, 21b and 21c, the output to the trip section 26 does not go through the microprocessor 25. An instantaneous detection unit 27 for outputting a call, and an electrostatic source unit 29 for driving a PCB.

Here, the LCD characteristic setting unit 28 includes the rated current adjustment display window 28a, the rated current time adjustment display window 28b, the short time current adjustment display window 28c, and the short time time adjustment display window 28d, respectively. And a step-up adjustment value display window 28e in which step-by-step adjustment values are displayed, an adjustment value up button 28f and an adjustment value down button 28g for inputting the adjustment value of the user.

Naturally, the position, shape, and type of display value of the display window of the LCD characteristic setting unit 28 according to the present invention can be modified without being limited as in the embodiment.

Of course, the adjustment value up button 28f and the adjustment value down button 28g may naturally vary in form and type.

Referring to the operation of the electronic wiring breaker according to the present invention as follows.

The circuit breaker can be divided into instantaneous operation, short time operation, long time operation, and so on.

Instantaneous operation is an operation to cut off the huge accidental current (kA unit) flowing along the converter in the shortest time as soon as possible, and usually has a blocking time of about 200msec.

Short-time operation refers to having a trip time in proportion to the multiple range of the current value when an overcurrent of several times the rated current flows.

First, the user completes the adjustment of the characteristic value by using the adjustment value up button 28f and the adjustment value down button 28g while confirming that each setting value is displayed on the display window of the LCD characteristic setting unit 28.

For example, in the case of provisional adjustment of the rated current, the dial method requires the user to place the dial between 0.5 times and 0.6 times when the setting is 0.5 times. However, in the case of the present invention, the adjustment value of each LCD display window is confirmed. While the user's selection is adjusted and entered, accurate setting is possible.

When the adjustment of the characteristic value is completed as described above, the operation is performed as follows.

The current flowing through the load is detected by the R, S, and T phase CT output units 21a, 21b, 21c.

Subsequently, the rectified part 22 rectifies the detected signal, inverts and amplifies it at a constant rate using the amplifier 23, and converts the digital signal into an A / D converter 24.

The signal converted into the digital value by the A / D converter 24 is input to the microprocessor 25 and the input signal is compared with the value set by the LCD characteristic setting unit 28 by the user's selection and according to the comparison result. The breaker is tripped by selectively driving the trip coil of the trip part 26.

3 is an operation flowchart of the electronic wiring breaker according to the present invention, Figure 4 is an interrupt operation flowchart of the electronic wiring breaker according to the present invention.

When the electronic wiring breaker according to the present invention is powered on to the wiring breaker, the wiring breaker proceeds to an initialization routine (S1).

Subsequently, adjustment is made according to the user's selection using the LCD characteristic setting unit 28. (S2)

Then, it is determined whether the set period value is 40 or 33. (S3) Then, it is determined whether one cycle has elapsed based on the set period value.

If it is determined that one cycle has passed, the maximum phase is detected (S5).

As a result of the detection of the maximum phase, it is determined whether the maximum phase is 110% or more (S6).

If it is determined that the maximum phase is 110% or more (overloaded), the trip time of the circuit breaker is calculated (S7).

Subsequently, it is determined whether the flag is applied (S8), and if it is the flag as a result of the determination, the output is sent to the trip unit 26 to control the trip coil to cut off the converter. At this time, the trip coil is generally operated so that the crossbar is lined and the link mechanism is operated to block the converter.

When the interrupt routine occurs during the wiring breaker operation, as shown in FIG. 4, an initialization routine is performed (S10) and it is determined whether the sample count is larger than the set period value (S11).

Here, whether the sample count SC is greater than the set period value determines whether the set period has expired, and the sample count is a number arbitrarily set by the operator and can be changed as necessary.

As a result of the determination, if the sample count SC is larger than the period value, the sample count is set to 0, and R, S, and T become the rms RMS (S12).

Steps S13 to S19 of FIG. 4 show an RMS calculation routine.

Such an electronic wiring breaker according to the present invention has the following effects.

The characteristic setting unit is configured to include the adjustment value display window using the LCD, and the input of the adjustment value is implemented by the up-down button method to prevent the occurrence of the adjustment error.

This ensures accurate characteristics, increases the load and line protection of the breaker and increases the reliability of the equipment.

Claims (2)

Detection means for detecting a current value flowing in the circuit; Rectifying / amplifying means for rectifying and amplifying the detected current value; A / D conversion means for digitally converting the amplified signal; A control means for comparing the digitally converted value with a set characteristic value and outputting a cutoff signal when an overload occurs, and a trip part for tripping the opening / closing mechanism of the breaker according to the cutoff signal; And a plurality of display windows including a step-wise adjustment value display window for displaying each step adjustment value so that the user can check the current setting value, and a characteristic setting unit having an up / down button as an input means for adjusting the setting value. Electronic wiring breaker. The display device of claim 1, wherein the characteristic setting unit comprises a rated current adjustment display window, a rated current time adjustment display window, a short time current adjustment display window, and a short time time adjustment display window, and each display window is configured as an LCD. Circuit breaker for electronic wiring.