Earth leakage breaker and method for controlling earth leakage breaker

1 . An earth leakage breaker formed between three-phase electrical lines and a single-phase load connected to two electrical lines of the three-phase electrical lines, the earth leakage breaker comprising: a zero-phase current detection unit for detecting a zero-phase current generated in a zero current transformer formed in the three-phase electrical lines; a voltage detection unit for detecting a voltage from each of the two electrical lines; a trip unit for tripping contact points between the two electrical lines and the single-phase load when a trip signal is inputted; and a control unit which, when the zero-phase current is detected by the zero-phase current detection unit, detects an electrical line, in which the voltage has dropped by a predetermined level or more, from the two electrical lines based on the voltage detection result of the voltage detection unit, and which generates the trip signal and outputs the trip signal to the trip unit when the electrical line in which the voltage has dropped by a predetermined level or more exists. 2 . The earth leakage breaker of claim 1 , wherein the control unit is configured to, based on whether the detected zero-phase current is greater than or equal to a predetermined set value, detect an electrical line in which voltage has dropped by a predetermined level or more according to the voltage detection result and generate the trip signal based on the electrical line detection result to output the trip signal. 3 . The earth leakage breaker of claim 1 , wherein the control unit is configured to, when the detected zero-phase current is less than a set value, which is a predetermined specific current value, determine whether the detected zero-phase current is caused by electric leakage, and when the zero-phase current is caused by electric leakage, generate the trip signal regardless of the electrical line detection result to output the trip signal. 4 . The earth leakage breaker of claim 3 , wherein the zero-phase current detection unit comprises a sensitivity selection circuit, wherein the sensitivity selection circuit comprises a fixed connection resistance, a plurality of selective connection resistances, and a selection switch, and is configured to convert a zero-phase current inputted from the zero current transformer into a voltage signal based on a resistance value determined by a composite resistance of any one selective connection resistance selected by the selection switch and the fixed connection resistance, and wherein the control unit is configured to determine whether the zero-phase current is generated by electric leakage by comparing a threshold value, which is a specific voltage value determined according to the composite resistance, with a voltage value of the converted voltage signal. 5 . The earth leakage breaker of claim 4 , wherein the control unit is configured to calculate a voltage value corresponding to the set value according to the composite resistance, and determine whether the detected zero-phase current is less than the set value based on a result of comparing the voltage value converted by the sensitivity selection circuit with the voltage value corresponding to the set value. 6 . A method for controlling an earth leakage breaker formed between three-phase electrical lines and a single-phase load connected to two electrical lines of the three-phase electrical lines, the method comprising: a first step of detecting a zero-phase current generated in a zero current transformer formed in the three-phase electrical lines; a second step of detecting whether electric leakage or ground fault has occurred according to whether the detected zero-phase current is greater than or equal to a predetermined set value; a third step of detecting voltages of each of the two electrical lines when ground fault is detected as a result of the detection in the second step; a fourth step of detecting whether there is an electrical line in which voltage has dropped by predetermined level or more based on a result of the voltage detection in the third step; and a fifth step of tripping contact points between the two electrical lines and the single-phase load based on a result of the detection in the fourth step. 7 . The method of claim 6 , wherein the second step further comprises: a second-1 step of tripping the contact points between the two electrical lines and the single-phase load when electric leakage is detected in the second step. 8 . The method of claim 6 , wherein the fifth step further comprises: a fifth-1 step of delaying tripping for a predetermined time when an electrical line in which voltage has dropped by a predetermined level or more is detected in the fourth step. 9 . The method of claim 6 , wherein the second step is a step of, when a magnitude of the detected zero-phase current is greater than or equal to a predetermined set value, determining that the zero-phase current is caused by ground fault, and when the magnitude of the detected zero-phase current is less than the predetermined set value, determining whether electric leakage has occurred by comparing a predetermined threshold value for determining whether electric leakage has occurred with a voltage value of a voltage signal according to the magnitude of the detected zero-phase current. 10 . An earth leakage breaker system, comprising: at least one single-phase load supplied with power from two electrical lines among three-phase electrical lines; at least one trip unit formed between a single-phase load and two electrical lines supplying power to the single-phase load and configured to trip contact points between the single-phase load and the two electrical lines supplying power to the single-phase load upon receiving a trip control signal; and a system control unit connected to a zero current transformer formed on the three-phase electrical lines and configured to receive a result of detecting voltages of electrical lines connected to each of single-phase loads from the at least one trip unit to thereby transmit the trip control signal to a part of the at least one trip unit based on the received voltage detection result. 11 . The earth leakage breaker system of claim 10 , wherein the trip unit comprises: a communication unit to perform communication connection with the system control unit; a voltage detection unit to detect voltages of each of two electrical lines supplying power to a single-phase load; and a blocking unit to trip contact points between the single-phase load and the two electrical lines supplying power to the single-phase load, and wherein the communication unit is configured to transmit a voltage detection result of the voltage detection unit to the system control unit, and upon receiving the trip control signal from the system control unit, input the received trip control signal to the blocking unit. 12 . The earth leakage breaker system of claim 10 , wherein the system control unit is configured to, when a magnitude of the detected zero-phase current is determined to be greater than or equal to a set value by comparing the magnitude of the detected zero-phase current with the predetermined set value, detect a voltage detection unit which has detected voltage dropped by a predetermined level or more based on voltage detection results received from each of the trip units to thereby transmit a trip control signal to a trip unit corresponding to the detected voltage detection unit. 13 . The earth leakage breaker system of claim 10 , wherein the system control unit is configured to, when a magnitude of the detected zero-phase current is determined to be less than a set value by compari