KR0157865B1 - Overload test apparatus - Google Patents

Abstract

The present invention relates to an overload test apparatus, and has conventionally been configured to detect only an operation time, so there is a problem in that the magnitude of the fault current and the fault type according to the fault cannot be confirmed.

In view of the conventional problems, the present invention configures a communication unit separately in the overload test apparatus so that the magnitude of the fault current and the fault current can be transmitted, and the display unit and the fault display unit detect the operation time and then detect the fault current and the fault. It is effective to know the type and operation time.

Description

Overload Tester

1 is a block diagram of a conventional overload test apparatus.

FIG. 2 is a flow chart of detecting the time characteristic of FIG.

3 is a block diagram of the overload test apparatus of the present invention.

4 is an operation flowchart of detecting the time characteristic of FIG.

* Explanation of symbols for main parts of the drawings

10: overload test device 11: setting unit

12 display unit 13 central processing unit

14: digital / analog converter 15: signal selector

16: analog unit 17: second communication unit

18: accident type display unit 20: relay

21: central processing unit 22: overload signal processing unit

23: ground fault signal processing unit 24: time characteristic detection unit

25: first communication unit 30: computer

The present invention relates to an overload test apparatus, and in particular, to send a signal corresponding to a high load current to the relay (digital relay) to the overload test device to detect the operation completion signal of the relay in the overload test apparatus to make it suitable for the detection of time characteristics. An overload test apparatus.

In the conventional overload test apparatus, as shown in FIG. 1 of the accompanying drawings, the setting unit 11 for setting the test current magnitude, and the display unit 12 for displaying the magnification of the load current by the setting unit 11 And a central processing unit (13) for controlling the entire system of the overload test apparatus in accordance with an input signal from the setting unit (11), and digital from the central processing unit (13) by the setting unit (11). A digital / analog converter 14 for converting a signal into an analog signal and an analog signal from the digital / analog converter 14 are overloaded, OS, ground, and external (EXT) according to the test method of the relay. A signal selector 15 which can be converted into a signal, and an analog unit 16 which transmits the signal selected by the signal selector 15 to the input of the relay 20 by the output terminals 01-03. Overload test device 10 is configured, including the relay 20 is the output of the analog unit 16 Overload (OS) and ground fault (GS) input (I1, I2) through the central processing unit (21) for controlling the entire relay in accordance with the output signal, and the output terminals (01,02) from the analog unit 16 Time-limiting characteristics (operation time) of the relay 20 by the signals processed by the overload and ground fault signal processing units 22 and 23 that process and output the signals. ) A time characteristic detection unit 24 for detecting a result and inputting the result to the central processing unit 13 in the overload test apparatus 10.

In the conventional overload test apparatus configured as described above, as shown in the flowchart of operation of FIG. 2, the overload signal determined by the setting unit 11 is first calculated by the central processing unit 13 and then converted into a digital signal. 14).

Accordingly, the digital signal is converted into an analog signal by the digital / analog converter 14 and input to the signal selector 15, and the sak signal selector 15 is an overload (OS) signal or ground fault ( Since the GS) signal, the ground (GS) signal, and the external (EXT) signal are selected and output, the output signal selected by the signal selector 15 is output to the output terminal of the overload test apparatus 10 through the analog unit 16. 01-03).

Subsequently, when the output terminals 01-03 of the overload test apparatus 10 and the input terminals I1 and I2 of the relay 20 are connected, the central processing unit 21, the overload signal processor 22, and the ground signal The processor 23 supplies the test current corresponding to the actual load current.

Accordingly, when the relay 20 completes the time characteristic through the time characteristic detector 24, the central processing unit 13 of the overload test apparatus 10 may detect the operation time of the detected signal. 12) the operation time can be displayed.

However, since the conventional overload test apparatus is configured to detect only an operation time, there is a problem in that the fault flow due to the magnitude of the fault current and the fault cannot be confirmed.

In view of the conventional problems, the present invention configures a communication unit separately in the overload test apparatus to transmit the magnitude of the fault current and the type of fault, and configures the display unit and the fault display unit to detect the operation time, and then the fault current and the fault. Invented an overload test apparatus to know the type and operation time, and will be described in detail below based on the accompanying drawings of the present invention.

3 is a block diagram of an overload test apparatus according to the present invention. As shown therein, a setting unit 11 for setting a test current magnitude and a signal selection and a magnitude of a test current from the setting unit 11 are digital values. The central processing unit 13 for calculating and outputting the digital signal, the digital / analog converting unit 14 for converting the digital signal from the central processing unit 13 into an analog signal, and the digital / analog converting unit 14 A signal selector 15 for converting the analog signal of the signal into an overload (OS), ground (GS), and external (EXT) signal according to the test method of the relay; The analog unit 16 is converted into a predetermined size and input to the relay 20 through the output terminal 01-03 of the overload test apparatus 10, and the analog unit 16 in the overload test apparatus 10 Central processing to control the entire relay according to the output signal Overload and ground fault signal processing unit for processing and outputting the overload (OS) and ground fault (GS) signals input (I1, I2) through the teeth 21 and the output terminals (01,02) of the overload test apparatus 10. The overload test apparatus 10 detects the results of the time characteristic (operation time) of the relay 20 by the signals processed by the overload and ground fault signal processing units 22 and 23, respectively. After detecting the operation time of the time-limiting characteristic detection unit 24 and the relay 20 inside the central processing unit 13 therein, the fault current, the type of accident, and the operation time of the overload test device ( 10 and the first communication unit 25 for transmission so as to interface with the fault current, and the fault current and the central processing unit 13 of the overload test apparatus 10 through the first communication unit 25 of the relay battery 20. After detecting the operation time by the second communication unit 17 and the central processing unit 13 which transmits the operation time, the fixed current and the operation time are determined. Display is composed of incident type display unit 18 to display the display section 12, and a type of accident.

The operation and effect of the present invention configured as described above will be described with reference to FIG. 3 and FIG.

First, the overload test apparatus 10 sets the magnitude of the fault current by the setting unit 11 so as to match the rating of the relay 20, and the magnitude of the set current corresponds to the analog size understood by the central processing unit 13. After performing the calculation with the digital value, it is input to the digital / analog converter 14.

Accordingly, the calculated digital value is converted into an AC sine wave voltage by the digital / analog converter 14, and the sine wave voltage is connected to the signal selector 15 so as to be output to the analog unit 16. .

Here, the signal selector 15 may be output according to the test type of the relay 20, and the external terminal unit 01-03 may be separately used so that the signal may be used externally as well as the input signal of the relay 20. Installed. That is, since the signal selector 15 selects and outputs an overload (OS) signal, a ground fault (GS) signal, and an external (EXT) signal, the output signal selected by the signal selector 15 is an analog unit 16. It is applied to the output terminal (01-03) of the overload test device 10 through.

In this way, the signal output from the output terminal (01-03) of the overload test device 10 is transmitted to the input terminal (I1, I2) of the relay 20, this input signal is each overload of the relay 20 The central processing unit 21 of the relay 20 performs calculation so that the signal processing unit 22 and the ground fault signal processing unit 23 can convert the analog value into the digital value, and determine the overload according to the characteristics of the relay 20, That is, when the relay 20 has completed the operation time through the time characteristic detector 24, the central processing unit 13 of the overload test apparatus 10 may detect the operation time based on the detected signal. The device 10 stops the operation and detects the operation time.

In this case, the first communication unit 25 of the relay 20 transmits the magnitude of the fault current and the type of accident to the second communication unit 17 of the overload test apparatus 10, thereby providing central processing embedded in the overload test apparatus 10. The device 13 makes it possible to display the fault current on the display unit 12 with this transmitted data as well as to display the accident type on the accident type display unit 18.

In addition, the computer 30 is interfaced with the relay 20 to obtain all the information on the relay characteristics.

As described in detail above, the present invention may separately configure a communication unit in the overload test apparatus so as to transmit the magnitude of the fault current and the type of fault, and configure the display unit and the fault display unit to detect the operation time, and then detect the fault current, the fault type, and the like. It is effective to know the operation time.

Claims (1)

A setting unit 11 for setting the test current magnitude and the signal selection, a central processing unit 13 for calculating and outputting the magnitude of the test current from the setting unit 11 as a digital value, and the central processing unit ( The digital / analog converter 14 for converting the digital signal from the digital signal 13 into an analog signal, and the analog signal from the digital / analog converter 14 are overloaded (OS) and ground fault (GS) according to the test method of the relay. ), An output terminal of the overload test apparatus 10 by converting the signal selected by the signal selector 15 and the signal selected by the signal selector 15 into a predetermined size. Analog unit 16 to input to the relay 20 through the; and, the central processing unit 21 for controlling the entire relay in accordance with the signal output from the analog unit 16 in the overload test device 10, Inputs I1 and I2 through output terminals 01 and 02 of the overload test apparatus 10. Is limited by the signals processed by the overload and ground fault signal processing units 22 and 23 for processing and outputting the overload (OS) and ground fault (GS) signals, and the overload and ground fault signal processing units 22 and 23. In the overload test apparatus for detecting the operating time of the relay 20 and inputting it to the central processing unit 13 in the overload test apparatus 10, the characteristic detector 24 detects the operating time of the relay 20. The first communication unit 25 transmits a fault current, an accident type, and an operation time so that the computer 30 can interface with the overload test apparatus 10, and the first communication unit 25 of the relay 20. The second communication unit 17 for transmitting the fixed current and the operating time to the central processing unit 13 of the overload test device 10 through the, and detecting the operating time by the central processing unit 13 and the fault current and Display unit 12 for displaying the operation time, and accident type display unit 18 for displaying the type of accident Overload test apparatus, characterized in that configured as.