KR100483932B1 - Over Load Breaker having Sensitivity Adjustment Function - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overload circuit breaker having a sensitivity adjustment function, and more particularly, to an overload circuit breaker capable of adjusting sensitivity for determining the trip current amount of an overload circuit breaker used in various businesses, buildings, and homes.

 According to the present invention, when excessive current continuously flows as in the case of a short circuit, the present invention is quickly cut off, and even when the initial current is large, such as an inrush current, when the holding time is short, the movable contact can be normally maintained "on". In addition, the present invention provides an overload circuit breaker having a sensitivity adjustment function capable of adjusting sensitivity according to site conditions. To this end, the present invention provides a trip means comprising a first capacitor charged by a rectifier circuit connected to a power line, a switching element and a trip mechanism coil connected in series with the first capacitor, and a first transistor for triggering the switching element. A reference diode having a rectifier coupled to a power line, a rectifier for rectifying the output of the rectifier, a second capacitor connected to the rectifier, and a reference terminal connected to the rectifier and the second capacitor, a reference terminal of the reference diode and ground It consists of a variable resistor connected between, and a third capacitor connected between the first transistor of the electrical trip means and the cathode of the reference diode. Accordingly, in the present invention, the first diode of the trip means is turned on while the reference diode is turned on only when the excessive current duration corresponding to the value set by the reference diode and the variable resistor has elapsed, so that the current of the first capacitor flows through the trip mechanism coil. Therefore, tripping is performed only in the case of short circuit or abnormality in which an excessive current flows with an arbitrarily set duration as a variable resistor, and it is possible to protect the line or the facility, and to set the operating sensitivity and convenience. It works.

Description

Overload Breaker having Sensitivity Adjustment Function

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overload circuit breaker having a sensitivity adjustment function, and more particularly, to an overload circuit breaker capable of adjusting the sensitivity of the trip current amount of the overload circuit breaker used in various businesses, buildings, and homes.

As is well known, an overload circuit breaker is a power device that automatically cuts off a circuit when an overload or a short circuit occurs, and a representative form thereof is illustrated in FIGS. 1 and 2.

That is, it is a thermodynamic type such as an ODP (Oil Dash Pot) as shown in FIG. 1 or a direct heat dissipation type as shown in FIGS. 2 a) and b).

The ODP type overload circuit breaker overcomes the elasticity of the braking spring 101 by magnetizing the movable core 100 by the magnetic force generated by the current flowing through the current coil 106 when the current flowing through the load is excessive. ), And thus the magnetization force is increased to suck the movable iron piece 103 so that the tripping contact is turned off while the latch 104 is operated accordingly. Therefore, this has the advantage that the trip contact can be driven by a relatively simple structure when an overload occurs, while the braking oil 105 filled inside with the heat generated by the excessive current flows and the viscosity decreases, so the repetition is repeated. In use, there is a problem in that the reliability of operation decreases as the function of the braking oil 105 gradually decreases and reacts sensitively, and in particular, whether or not operation is caused by a magnetic force determined by the voltage and the amount of current flowing through the current coil 106. Since it is determined depending on the current, there is a problem in that the inrush current of the load and the excessive current due to the short circuit cannot be distinguished.

In addition, in the thermal overload circuit breaker shown in FIG. 2 a), a current flows in the bimetal 200, and a trip bar 201 is disposed adjacent to each other, so that an inrush current or short-circuit current flows in the bimetal 200. Since the bimetal 200 is deformed by a broken line as shown by a broken line, the trip is operated. In addition, in the heat dissipation type as shown in FIG. 2 b), the inrush current or the excessive current flows directly to the heater 202, and the bimetal 203 is heated and deformed more sensitively by the heat generated by the heater 202. As a result, the trip bar 204 is driven. Therefore, this may be a way to improve sensitivity. However, the trip operation by ODP (Oil Dash Pot) as shown in FIG. 1 listed above is due to a combination of magnetic force and spring and braking oil acting according to the magnitude of voltage and current, as shown in FIG. The thermal trip operation is a combination of heat generation, heat conduction, and bimetal reaction force. Therefore, if excessive power flows due to the prescribed inrush value or short-circuit, the contact is turned off. Since the flow width of the power supply voltage is irregular due to different types and different power conditions, if the trip is determined only by the prescribed inrush current or short circuit current, the trip will be tripped at any time. There is a problem such as a fire accident or a burnout accident occurs.

Accordingly, since a load having a large inrush current cuts off the power by turning off the power contact in the same way as the state of the overload current due to a short circuit, the power is frequently cut off unnecessarily. There is a tendency to avoid the use, causing problems such as causing inconvenience in use, difficult operation of the electrical equipment, and difficult to protect the electrical equipment and the line.

In addition, the power supply voltage and current capacity supplied to such electric installations or lines have large ups and downs depending on the site, and therefore, the operating characteristics of the overload breaker manufactured by the general design are often inadequate.

 The purpose of the present invention is to solve this problem, if excessive current continuously flows as in the case of a short circuit, it is quickly cut off, and even if the initial time is large, such as inrush current, if the holding time is short, the movable contact normally " In addition to maintaining the "on" state, and to provide an overload circuit breaker having a sensitivity adjustment function that can be adjusted according to the site circumstances.

An object of the present invention is a trip means comprising a first capacitor charged by a rectifying circuit connected to a power supply line, a switching element and a trip mechanism coil connected in series with the first capacitor, and a first transistor for triggering the switching element. A reference diode having a rectifier coupled to the power supply line, a rectifier for rectifying the output of the rectifier, a second capacitor connected to the rectifier, a reference terminal connected to the rectifier and the second capacitor, a reference terminal of the reference diode, It consists of a variable resistor connected between the ground and a third capacitor connected between the first transistor of the electrical trip means and the cathode of the reference diode. Accordingly, in the present invention, the first diode of the trip means is turned on while the reference diode is turned on only when the excessive current duration corresponding to the value set by the reference diode and the variable resistor has elapsed, so that the current of the first capacitor flows through the trip mechanism coil. Therefore, the trip is performed only in the case of short circuit or equipment abnormality in which an overcurrent with an arbitrarily set duration is set by the variable resistor, which protects the line or equipment, as well as enables to set the operating sensitivity and convenience. . This invention will be described in detail with reference to the accompanying drawings in FIG.

 As can be seen from the above, the present invention provides a first capacitor 2 charged by a rectifier circuit 1 connected to power lines L1 and L2, and a switching element connected in series with the first capacitor 2. 5) and a tripping means 10 composed of a trip mechanism coil 6, a first transistor 8 having a trigger terminal 7 of the switching element 5 connected to the base, and a current transformer coupled to the power supply line L1. Between the rectifier 13 connected to the 16, the second capacitor 14 connected to the rectifier 13, the reference diode 12 connected thereto, and the reference terminal R and the ground. The variable resistor 15 connected to the anode terminal A of the reference diode 12 is connected to the ground, and the cathode terminal K is connected to the base of the trip means 10 via the third capacitor 11.

In the present invention as described above, the rated voltage is supplied to the power lines (L1, L2), when the normal power supply to the load is generated an initial inrush current several times the rated current by the load, according to the current transformer ( The high voltage generated by 16 is rectified by the rectifier 13 to charge the second capacitor 14. At this time, since the second capacitor 14 is not sufficiently charged by the current flowing during the normal initial inrush current holding time of the electrical equipment, the second capacitor 14 passes through the variable resistor 15 and is supplied to the reference terminal R of the reference diode 12. The voltage that is set is lower than the set voltage. That is, in all cases, such as capacitive loads or combined resistive and capacitive loads, the initial inrush current of the load reaches several times the normal load current, but its holding time is short and it is normalized quickly. It is not possible to charge 14) above a certain level so that the reference diode 12 remains turned off. Therefore, the base of the first transistor 8 is in a state where a high level potential is applied to maintain the turn-off state, and a trigger signal is not applied to the trigger terminal 7 of the switching element 5. Since there is no current flow in the trip mechanism coil 6, the current flowing to the load is normally supplied to operate normally. When the line is shorted or the electric equipment is shorted from this operation process or the initial operation, excessive current flows. Unlike the inrush current generated by the load, the excessive current flows continuously without decreasing the current. . Therefore, this raises the output voltage of the current transformer 16, is rectified by the second rectifier circuit 13, and the second capacitor 14 is charged to a predetermined level or more, and thus the variable resistor 15 The voltage applied to the reference terminal R of the reference diode 12 also exceeds the set reference voltage and is turned on from the cathode K of the reference diode 12 toward the anode A. Accordingly, the power supply current can flow from the base of the first transistor 8 to the ground via the condenser 11 and the reference diode 12, and the power supply current is connected to the emitter and the collector of the first transistor 8. Since it flows to the trigger terminal 7 of the switching element 5, the switching element 5 is triggered, and thus the charges charged in the first capacitor 2 are transferred to the switching element 5 and the trip mechanism coil 6. The contact 17 is turned off. Therefore, the power supply to the load is stopped until the user turns the power back on, thereby preventing damage to the electric line or the electric equipment due to excessive current such as a short circuit, and fire.

In addition, in the present invention, when the power supply voltage is low, there may be a case where the voltage for charging the second capacitor 13 is low even in the case of an excessive current due to a short circuit of the converter or an abnormality of the equipment. In this case, the variable resistor 15 By largely adjusting the value of), the voltage of the second capacitor 14 is applied to the reference diode 12 almost unchanged without being lowered. Accordingly, even when the charging voltage of the second capacitor 14 is insufficient, the voltage applied to the reference terminal R of the reference diode 12 is substantially increased, so that the reference diode 12 is turned on and the first diode 12 is turned on. The trigger of the switching element 5 by the one transistor 8 may be triggered, and accordingly, a trip operation may be implemented to cause the contact 17 to be turned off.

In addition, the present invention reduces the value of the variable resistor 15 in contrast to the case described above in case the inrush current holding time is rather long due to the characteristics of the equipment connected to the line. As the charging voltage of the capacitor 14 is sufficiently raised to increase the voltage applied to the reference terminal R of the reference diode 12, the reference diode 12 is turned on and the first transistor 8 as described above is turned on. The trigger of the switching element 5 is to be implemented, and accordingly a trip operation may be implemented to cause the contact 17 to be turned off.

In addition, in the present invention, it is possible to operate the overload circuit breaker having an ideal sensitivity by adjusting the variable resistor 15 to be optimized in accordance with the various conditions as described above.

In the present invention, the triac is used as the switching element 5, but in addition, various switching elements 5 such as an SCR, an electronic relay, and a large power FET may be used.

In this way, the present invention does not operate at the initial inrush current generated during the initial operation of various loads such as inductive loads, resistive and inductive composite loads, and can cause the trip operation to be performed only when excessive current is generated due to an electrical accident such as a short circuit. It is possible to greatly improve the reliability of the operation.

In addition, the present invention can adjust the sensitivity so that the trip operation is performed in an optimal state even when the power supply voltage in the field is low or the initial inrush current holding time of the electrical equipment is relatively long, so that the ideal operating characteristics optimized for the field conditions By providing an overload circuit breaker having a useful effect that can be widely applied conveniently.

1 is an explanatory diagram showing the operation of the ODP type overload circuit breaker.

Figure 2 a), b) is an explanatory view showing the operation of the thermal overload circuit breaker.

Figure 3 is an overload circuit breaker having a sensitivity adjustment function according to the present invention.

* Explanation of symbols for the main parts of the drawings

L1, L2: power supply line 1: rectifier circuit

2,14,11: 1st, 2nd, 3rd capacitor 5: switching element

6: Trip mechanism coil 7: Trigger terminal

8: first transistor 10: trip means

 12: Reference diode 13: Rectifier

15: Variable resistance 16: Current transformer

17: contact A: anode

K: cathode R: reference

Claims (2)

A first capacitor (2) charged by the rectifier circuit (1) connected to the power lines (L1, L2), a switching element (5) and a trip mechanism coil (6) connected in series with the first capacitor (2); A trip means (10) comprising a first transistor (8) having a trigger terminal (7) of the switching element (5) connected to a base, and a rectifier (13) connected to a current transformer (16) coupled to a power supply line (L1); The second capacitor 14 connected to the rectifier 13, the reference diode 12 connected to the reference terminal R connected thereto, and the anode terminal A of the reference diode 12 are connected to ground and the cathode terminal is connected. An overload breaker having a sensitivity adjustment function (K) is connected to the base of the trip means (10) via a third capacitor (11). The method of claim 1,  An overload circuit breaker having a sensitivity adjustment function, characterized in that a variable resistor (15) connected between the reference terminal (R) of the reference diode (12) and a ground is provided.