KR20120090872A - Standby power autoswitching - ground fault circuit interrupters - Google Patents

Abstract

PURPOSE: A standby power auto-switching ground fault circuit interrupter is provided to save costs and energy by performing both a standby power auto-switching function and an earth leakage breaker function. CONSTITUTION: A leak current sensing unit(30) comprises a zero-phase current transformer(31) and an integrated circuit a(32). An output signal is applied to an interlock circuit(20) according to a sensed leak current for operating a trip coil. A load current sensing unit(40) comprises a transformer(41) and an integrated circuit b(42) for sensing standby current flowing in a load device. A switching device(10) comprises the interlock circuit, the trip coil, a return coil, a moving element, and a fixed element(11).

Description

Standby power autoswitching-Ground fault circuit interrupters

The present invention detects the leakage current generated by the load device connected to the outlet and cuts off the power when leakage current occurs to detect the function of the ground fault circuit interrupter (GFCI) and load current usage to protect the human body by using a load current of less than a certain current. The present invention relates to a standby power cut-off type pluggable earth leakage breaker which cuts off the power of an outlet to prevent standby power from occurring in a load facility. More specifically, it supplies and cuts power to a general outlet (circuits open and closed). There is a stator and a movable part, and there is a mechanism to open and close it, and there is a device for detecting leakage current and a device for detecting load current.When a leakage current occurs or the load current is below a certain value, an output signal is sent to the integrated circuit (IC) to trip the unit. It is an outlet having a structure to trip by an electronic coil (E-Mag) that is a trip unit. In addition, the LED is installed to indicate the leakage current and standby power cut-off operation, and it is equipped with an initialization switch, which is an operation button for shutting off the power, and shuts off the power with the initialization switch. to be.

Conventional pluggable circuit breaker is a method of opening the circuit manually and returning it manually according to whether leakage current of load equipment connected to the outlet is generated, and detecting leakage current by using image modulator (ZCT), The output signal of the current transformer is sent to the integrated circuit (IC) to turn off the power to the trip unit (Trip Unit). The present invention is further equipped with a current transformer (CT) which is a device for monitoring the current of the load device in addition to the function of the conventional plug-in earth leakage circuit breaker, the output signal of the current transformer to a separate integrated circuit (IC) It is an outlet that cuts off standby power of load equipment by cutting off power to trip unit when the current flowing to send and load is below a certain value.

Existing plug-in earth leakage circuit breakers detect only leakage current of the load device, and thus have a disadvantage in that standby power is continuously consumed even when the load device is not used. In order to solve this problem, an additional load current sensing device including a current transformer and a separate integrated circuit is additionally provided, and an apparatus for blocking standby power when not using a load device is provided.

Existing standby power cut-off outlet uses a single-pole relay (Relay), which is a risk of electric shock to the user. Therefore, in the present invention, it is intended to prevent the occurrence of electric shock by providing a bipolar blocking method in which the stator and the mover are blocked for each phase.

It is an object of the present invention to provide a function of inserting a function of interrupting standby power to a plug-in type earth leakage circuit breaker and simultaneously securing the safety of a user by shutting off the positive electrodes.

In order to provide a standby power cut-off type plug-in earth leakage breaker, in the present invention, a current transformer (ZCT) and a current transformer (CT) are used to detect a leakage current in the image current transformer (ZCT) and use a load device in the current transformer (CT). When the current is sensed and the leakage current is detected or the standby current below the set value is detected, the integrated circuit (IC) connected to each of the current transformer and the current transformer outputs a signal, and the mechanism is opened by the electromagnetic coil to open the actuator and the stator. Has a structure to trip so that is spaced apart.

In addition, in the switchgear device for blocking the anode, the mover takes the form of a switch and uses two electronic coils (E-Mag) to open and close it. In the case of opening, the other E-Mag pushes the other side of the mover to open. In order to allow two E-Mags to operate independently of each other, an interlock circuit is added to the PCB to prevent the transition to the next operation or state until the end of the current operation and state. For this purpose, the mover is made of phosphor bronze with good tension or metal with similar properties.

According to the present invention, there is a standby power cut-off function and an earth leakage breaker function, thereby providing a cost-saving effect by installing only one that was previously installed separately in each home. In addition, there is an effect that can contribute to energy saving by cutting off the standby power.

1. External schematic diagram of the present invention.
2. Schematic diagram of the present invention.
Figure 3 is a flow chart for opening the leakage current in the present invention.
Figure 4 is a flow chart to open when the standby power generation in the present invention.
5 is a flow chart to be closed in the present invention.
6. Opening and closing mechanism included in the present invention.
Figure 7. Closing operation of the opening and closing mechanism included in the present invention.
8. Opening operation of the opening and closing mechanism included in the present invention.
9. Operation flow chart of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a diagram showing an external schematic of the present invention. As shown, the outside of the present invention includes a switching switch 53, the indicator 54, the initialization switch 55 and the load power supply 51.

The switching switch 53 selects whether to use the standby power cutoff function or not to use the function of the present invention. When the switching switch 53 is set to "sleep" to perform the standby power blocking function, and when placed in the "always" to prevent the standby power blocking function. This is to prevent the power of the load device from being cut off when the load that requires minute power is connected to the present invention.

The indicator 54 serves to inform the user when the leakage current is detected and the circuit is opened or when the circuit is opened to cut off the standby power. In order to close the circuit of the present invention while the indicator 54 is turned on, the present invention is operated by using the initialization switch 55. Since the operation of the indicator 54 is a known technique, it is not included in the circuit diagram of the present invention and will be omitted in the detailed description.

2 shows a schematic view of the invention. As shown, the present invention is largely composed of the switchgear mechanism 10, the leakage current detection unit 30 and the load current detection unit 40. The leakage current detector 30 includes an image current transformer 31 and an integrated circuit a32 to detect a leakage current flowing to the load. When the leakage current is detected by the leakage current detection unit 30, the output signal is sent to the interlock circuit 20 to operate the trip electronic coil 17 to open the circuit.

The load current detecting unit 40 includes a current transformer 41 and an integrated circuit b 42 to sense a standby current flowing to the load. When the load current detection unit 40 detects a standby current below a predetermined value, the output signal is sent to the interlock circuit 20 to operate the trip electronic coil 17 to open the circuit.

The switchgear device 10 is composed of an interlock circuit 20, a trip electromagnetic coil 17, a return electromagnetic coil 18, and a mover 12 and a stator 11. The interlock circuit 20 performs a function of preventing the two electronic coils 17 and 18 from moving to the next operation or state until the end of the current operation and state in order to operate independently of each other. The operation of the opening and closing mechanism 10 will be described in detail below.

As shown, the changeover switch 53 serves to connect the load current sensing unit 40 and the interlock circuit 20. When the switching switch 53 is connected, the present invention detects standby power to perform standby function, and when the switching switch 53 is not connected, the present invention only functions to cut off leakage current regardless of standby power. To perform. The change-over switch 53 is for preventing the circuit from being opened even when the load device connected to the present invention is normally operated when the electronic device with extremely low power consumption is connected alone.

FIG. 3 is a flowchart of opening a leakage current in the present invention, FIG. 4 is a flowchart of opening a standby power in the present invention, and FIG. As shown in FIG. 3, the integrated circuit a32 receives a current signal from the image current transformer 31 and determines that a leakage current has occurred in the load when the value is greater than or equal to a specific value. When a leakage current occurs in the load, the integrated circuit a32 sends a signal to the interlock circuit 20 to operate the trip electronic coil 17 to open the circuit.

As shown in FIG. 4, the integrated circuit b42 receives a current signal from the current transformer 41 and determines that standby power is generated due to the load when its value is equal to or less than a specific value. When standby power is generated in the load device, the integrated circuit b 42 sends a signal to the interlock circuit 20 to operate the trip electronic coil 17 to open the circuit.

As shown in Fig. 5, when switching to closed in the open circuit state of the present invention, the user operates the initialization switch 55. When the initialization switch 55 is operated, the integrated circuit b 42 sends a signal to the interlock circuit 20 to operate the return electronic coil 18 to close the circuit.

Figure 6 is a switchgear device included in the present invention, Figure 7 is a closing operation of the switchgear device included in the present invention, Figure 8 is a view showing the opening operation of the switchgear device included in the present invention. . As shown, the opening and closing mechanism 10 includes a stator 11 to which power is supplied, a mover 12 to maintain contact with the stator 11 or to maintain a short circuit, and a mover support shaft 15. The core 16 for applying the force to the movable member fixing member 14, the movable member 12 to maintain the contact with the stator 11, and the core for applying the force such that the movable member 12 is short-circuited with the stator 11. A trip electromagnetic coil 17 including 19, a return electromagnetic coil 18 including a core 19 for forcing the mover 12 to contact the stator 11, and an interlock circuit 20. do.

The interlock circuit 20 performs a function of preventing the two electronic coils 17 and 18 from moving to the next operation or state until the end of the current operation and state in order to operate independently of each other. When the user operates the initialization switch 55 to return the circuit, the integrated circuit b 42 moves the return electronic coil 18 through the interlock circuit 20 so that the mover 12 contacts the stator 11. In this process, when the leakage current is sensed or the standby power is sensed, the trip electronic coil 17 can be operated. In this case, the mover 12 may be deformed by the force on both sides. The interlock circuit 20 serves to prevent deformation of the mover 12 by preventing the return electromagnetic coil 18 and the trip electronic coil 17 from operating at the same time.

The mover 12 is connected to the mover support shaft 15 of the mover fixing member 14 to be rotated, and maintains contact with the stator 11 by the spring 16. The spring 16 serves to keep the mover 12 in contact with the stator 11 at a sufficient pressure. In order to apply such a force, the mover 12 may use a predetermined tension.

9 is a view showing an operation flowchart of the present invention. As shown, the present invention is a step 61 of measuring the output current value of the image current transformer 31, the step of detecting the leakage current by determining whether the output current value of the image current transformer 31 is more than a predetermined current value (62) measuring the output current value of the current transformer 41 when the leakage current is not detected; determining whether the output current value of the current transformer 41 is equal to or less than a predetermined current value to detect standby power; Step 64 and step 65 of opening the circuit by operating the trip electronic coil 17 when a leakage current or standby power is detected.

In step 62 of detecting the leakage current by determining whether the output current value of the image current transformer 31 is greater than or equal to the constant current value, the circuit is opened when the output current value is greater than or equal to the constant current value, and when the output current value is less than or equal to the constant current value, Proceeding to step 63, the output current value of step 41) is measured. In the step 64 of detecting the standby power by determining whether the output current value of the current transformer 41 is equal to or less than a predetermined current value, when the standby power is not detected, the output current value of the image current transformer 31 is measured. Return to step 61.

10 ... Opening and closing mechanism 11 ... Stator
12 ... operator 13 ... contact
14 ... Motor Fixing Member 15 ... Motor Support Shaft
16.Spring 17.Trip electromagnetic coil
18.Return Electromagnetic Coil 19 ... Core
20: Interlock circuit 30: Leakage current detection unit
31.Image current transformer 32 ... Integrated circuit a
40 Load current sensing unit 41 Current transformer
42 Integrated circuit b 51 Load power supply
52 Power supply 53 Switch
54 Indicator light 55 Reset switch

Claims (7)

An earth leakage circuit breaker that protects the human body by shutting off power when a leakage current occurs, comprising an integrated circuit a 32 that measures the output current values of the image current transformer 31 and the current current transformer 31 to determine whether the current is equal to or greater than a predetermined current value. Leakage current detection unit 30;
A load current sensing unit 40 composed of an integrated circuit b 42 that measures the current of the current transformer 41 and the current of the current transformer 41 to determine whether the current is less than or equal to a predetermined current value;
A trip electronic coil 17 for receiving signals from the leakage current detection unit 30 and the load current detection unit 40 to separate the mover 12 from the stator 11;
A return electromagnetic coil 18 contacting the mover 12 to the stator 11;
An initialization switch (55) connected to enable the integrated circuit (42) to operate the return electromagnetic coil (18); And
An interlock circuit 20 connected to the trip electron coil 17 and the return electron coil 18 to prevent the trip electron coil 17 and the return electron coil 18 from operating at the same time;
Standby power cut-off type pluggable circuit breaker, characterized in that to block the leakage current and standby power of the load device. The method of claim 1,
The load current detecting unit 40 includes a switching switch 53 before the trip electronic coil 17 and the return electronic coil 18 are connected to the interlock circuit 20. Standby power cut-off type plug-in earth leakage breaker, characterized in that to cut off the power. The method of claim 1,
Standby characterized in that the trip electromagnetic coil 17 and the return electromagnetic coil 17 for operating the movable element 12 and the movable element 12 are composed of two, respectively, to cut off the leakage current and standby power of the load device. Power car breaker plug-in earth leakage breaker. The method of claim 1,
The interlock circuit 20 is configured to include an indicator (54) to inform the operating state to the outside, standby power cut-off type pluggable circuit breaker, characterized in that to cut off the leakage current and standby power of the load device. In the earth leakage breaker that protects the human body by shutting off the power when leakage current occurs,
Measuring an output current value of the image current transformer 31;
Determining whether the output current value of the image current transformer 31 is equal to or greater than a predetermined current value and detecting a leakage current (62);
Measuring (63) an output current value of the current transformer (41) when no leakage current is detected;
Detecting (64) standby power by determining whether an output current value of the current transformer (41) is equal to or less than a predetermined current value; And
A step 65 of opening the circuit by operating the trip electronic coil 17 when a leakage current or standby power is detected;
Standby power cut-off type pluggable earth leakage blocking method characterized in that it is configured to block the leakage current and standby power of the load device. 6. The method of claim 5,
Determining whether the output current value of the image current transformer 31 is greater than or equal to the constant current value, and detecting the leakage current (62) may open the circuit when the output current value is greater than or equal to the constant current value, and the current transformer 41 when the output current value is less than or equal to the constant current value. Standby power cut-off type plug-in leakage-breaking method characterized in that it comprises the step of measuring the output current value of) to cut off the leakage current and standby power of the load device. 6. The method of claim 5,
In step 64 of detecting the standby power by determining whether the output current value of the current transformer 41 is equal to or less than a predetermined current value, measuring the output current value of the image current transformer 31 when the standby power is not detected (61). The standby power cut-off type pluggable earth leakage blocking method comprising a return to a) and cut off the leakage current and standby power of the load device.

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