KR20090045787A - Circuit breaker - Google Patents

Abstract

An earth leakage breaker is disclosed. According to the earth leakage breaker according to the present invention, the assembly method of the instruction lever is made of a method of inserting a rotating shaft into the ring of the base, unlike the conventional technique of adding a rivet. In addition, the assembly method of the trip lever is made of a method of linearly inserting along the engaging projection of the base, unlike the conventional technique of adding a rivet. Therefore, there is no addition of a part called rivets, thereby saving costs. In addition, assembly time is reduced due to the addition of parts. In addition, due to the relationship between the trip lever and the linear movement along the base, the rotational structure of the trip lever is no longer used, thereby eliminating the vulnerability.

Earth leakage breaker, trip lever, guide groove, rivet

Description

Earth leakage breaker {CIRCUIT BREAKER}

The present invention relates to an earth leakage circuit breaker, which is an industrial electrical device used for the purpose of protecting wires, opening and closing loads, and interrupting short circuits. The present invention relates to an electronic circuit breaker of an earth leakage circuit breaker that is easy to reduce cost and assemble, while minimizing the number of components of the electronic circuit breaker to be implemented.

In general, an earth leakage breaker is an assembly of switchgear, trip device, etc. in an insulated container, which can open and close the electric current by manual or electrical operation, and automatically cut off the current in the event of an overload, disconnection or short circuit. Say. This circuit breaker detects abnormal current in case of leakage current or ground fault, human electric shock and short circuit current, and plays an important role to protect the equipment and life of the load by breaking the circuit quickly.

1 is a perspective view of a general earth leakage breaker. Referring to FIG. 1, a ground fault circuit breaker is installed on a cover 1 and a case 2 and an upper surface of the cover 1 to form an outer shape, and a ground fault to display a normal / leakage state. A display window 4, an earth leakage test button 5 for preliminary inspection, and a trip test button 6 are constituted.

FIG. 2 is a cross-sectional view II-II of FIG. 1. 2, in the cover 1 and the case 2 of the ground fault circuit breaker, a ground fault detecting unit 7 for detecting a leakage current generated in a load and an electrical signal are driven according to the signal of the ground fault detecting unit 7. The electronic device section 8, the opening / closing mechanism section 9 which is mechanically driven by the electronic section 8 to cut off the circuit, and the overcurrent and short circuit current detection section 10 for detecting overcurrent or short circuit current in addition to the leakage current. And a fire extinguishing unit 11 for quickly extinguishing the arc generated between the contacts, a power supply side terminal block 12, a load side terminal block 13, and the like.

FIG. 3 is a view illustrating an electronic device unit, an opening / closing mechanism unit, and a handle of FIG. 2, FIG. 4 is a plan view of FIG. 3, FIG. 5 is a cross-sectional view of section V-V of FIG. 4, and FIG. A diagram showing a short circuit operation state.

3 to 5, the electronic device 8 includes a base 20 forming an outer shape, a trip coil 21 annularly formed along the inside of the base 20, and a trip coil 21 inside the trip coil 21. Fixed core 22 fixedly installed, movable core 23 driven left and right to selectively contact or separate from fixed core 22, and integrally formed with movable core 23 through the center of fixed core 22 And a movable pin 24 driven left and right with the movable core 23, a trip lever 25 rotatably installed in contact with one end of the movable pin 24, and a rotation shaft of the trip lever 25. A trip lever spring 26 fitted to the 25a to apply a torsional force, an instruction lever 27 installed opposite to the other end of the movable pin 24 and pivoted together when the movable pin 24 protrudes; An instruction lever spring 28 which is provided on the rotation shaft 27a of the 27 to add a torsional force for returning when the instruction lever 27 rotates to one side; Is configured to include a magnet 29, such as is provided in the circumference of that core 23 is added the magnetic force so as to maintain a the movable core 23 contacts the fixed core 22 state.

Hereinafter, the operation of the earth leakage breaker consisting of the above components will be described.

Referring to FIG. 2, when an abnormal current such as a short circuit, a ground fault, or a human body electric shock occurs from a load side, a current transformer (ZCT: Zero Current Transformer) built in the ground fault detection unit 7 detects this and disconnects a circuit from an integrated circuit. Judge. When it is determined that the fault current is transmitted to the electronic device section 8, the electronic device section 8 quickly drives the opening and closing mechanism 9 to cut off the circuit.

5 and 6, more specifically, the electronic device 8 applies a current to the trip coil 21 when an abnormal current is generated, and the current applied to the trip coil 21 causes the magnetic force of the magnet 29 to be reduced. Offset.

At this time, as the magnetic force of the magnet 29 is canceled by the elastic force of the trip lever spring 26, the trip lever 25 is in contact with the pivot pin 25a while rotating clockwise in the drawing about the pivot shaft 25a. ) Is pushed to the left in the drawing, the movable core 23 is separated from the fixed core (22).

In addition, since the electronic lever unit 8 (see FIG. 3) and the opening / closing mechanism unit 9 (see FIG. 3) are interlocked as the trip lever 25 is rotated, the crossbar 14 is rotated due to the rotation of the trip lever 25. 2 is rotated to one side, the opening and closing mechanism 9 is tripped.

In addition, as the movable pin 24 is pushed to the left side, the instruction lever 27 rotates clockwise in the drawing about the pivot shaft 27a while compressing the instruction lever spring 28. At this time, the red portion of the display panel 27b is displayed on the ground fault display window 4 (refer to FIG. 1) formed on the cover 1 (see FIG. 1) to indicate to the user that leakage current, ground fault, or human electric shock has occurred.

On the other hand, when the cause of abnormal current on the load side is removed and the handle 3 is reset in the OFF direction in order to reuse the circuit breaker, the opening / closing mechanism 9 (see FIG. 2) is engaged with the catch 25b of the trip lever 25. 4), the trip lever 25 rotates counterclockwise in the drawing.

At this time, as the movable pin 24 is pushed to the right by the magnetic force of the magnet 29 and the elastic force of the movable pin spring 24a inserted into the outer circumference of the movable pin 24, the movable core 23 is fixed to the fixed core 22. Is in close contact.

In addition, the instruction lever 27 is rotated counterclockwise in the drawing by the elastic force of the instruction lever spring 28 to reduce to the state of FIG.

At this time, the green part of the display panel 27b is displayed on the ground fault display window 4 (see FIG. 1) formed on the cover 1 (see FIG. 1) to inform the user that the breaker is operating normally.

On the other hand, the conventional ground fault circuit breaker is a rotational movement of the instruction lever 27 and the trip lever 25 by the circuit breaker and the ground fault display operation by the separation and close contact of the movable core 23 and the fixed core 22 of the electromagnetic shielding portion. Achieves To this end, the rivet R is inserted into the pivot shaft 27a of the instruction lever 27 and the pivot shaft 25a of the trip lever 25. Thus, as the rivet R is inserted to implement the rotational movement of the instruction lever 27 and the trip lever 25, the price increases due to the addition of parts. In addition, the assembly labor is increased according to the addition of parts. In addition, the pivot shaft 27a of the instruction lever 27 into which the rivet R is inserted and the pivot shaft 25a portion of the trip lever 25 are structurally weak.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a structurally robust earth leakage circuit breaker, which eliminates cost increase and assembly deterioration due to excessive parts.

An earth leakage circuit breaker according to the present invention for achieving the above object, the electronic device unit having a trip lever for linear movement; And an opening / closing mechanism part driven by the electronic device part to cut off a circuit.

The electronic device unit may include: a base having the trip lever installed in a linear motion; An instruction lever rotatably installed on the base, the instruction lever rotating along a rotation axis as the trip lever is linearly moved; An instruction lever spring fitted to a rotation shaft of the instruction lever to add a torsional force for returning upon rotation; And a trip lever spring having one end installed at the base and the other end installed at the trip lever to provide a return force for returning during the linear movement of the trip lever.

A coupling protrusion inserted into the guide groove of the trip lever is formed at the front of the base, and the guide groove is formed to protrude to a predetermined length inward in the guide groove.

In addition, a guide wall for forming a space in which one end of the trip lever spring is installed is protruded from the lower side of the coupling protrusion toward the front of the base, and the rotation shaft of the instruction lever is rotatably inserted into the side of the base. It is preferable that one side of the ring is formed.

An insertion protrusion is inserted into the other end of the trip lever spring on the side of the trip lever, and a sliding protrusion is formed on the rear side of the trip lever.

According to the earth leakage breaker according to the embodiment of the present invention described above, the assembling method of the instruction lever is made of a method of inserting a rotating shaft into the ring of the base, unlike the conventional technique of adding a rivet. In addition, the assembly method of the trip lever is made of a method of linearly inserting along the engaging projection of the base, unlike the conventional technique of adding a rivet. Therefore, there is no addition of a part called rivets, thereby saving costs. In addition, assembly time is reduced due to the addition of parts. In addition, due to the relationship between the trip lever and the linear movement along the base, the rotational structure of the trip lever is no longer used, thereby eliminating the vulnerability.

Hereinafter, an earth leakage breaker according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 7 is a view showing an extract of a handle, an opening and closing mechanism, and an electronic device of an earth leakage breaker according to an embodiment of the present invention. FIG. 8 is an exploded perspective view of the electronic device of FIG. 7, and FIG. FIG. 10 is a view showing the trip lever of FIG. 8, FIG. 11 is a view showing the rear surface of the trip lever of FIG. 10, and FIG. 12 is a view showing the indication lever of FIG. 8.

Referring to FIG. 7, an earth leakage breaker according to an exemplary embodiment of the present invention includes a handle 3 that opens and closes a circuit, an electronic device 100 that is driven electronically when an abnormal current is generated, and an electronic device 8. It is configured to include an opening and closing mechanism (9) and the like that is driven to cut the circuit.

Referring to FIG. 8, the electronic device 100 includes a base 110 forming an outer shape, a trip lever 120 installed in a linear motion on the base 110, and a base 110 rotatably installed. As the trip lever 120 linearly moves, the instructing lever 150 pivots along the pivot shaft 151 and the pivot shaft 151 of the instruction lever 150 to add a torsional force for returning when pivoting. Trip lever spring 140 and one end is installed on the base 110 and the other end is installed on the trip lever 120 to provide a return force for the return movement during the linear movement of the trip lever 120 (130) It is configured to include.

Referring to FIG. 9, two coupling protrusions 111 inserted into the guide grooves 121 of the trip lever 120 are formed to protrude from two at a predetermined interval on the front of the base 110. In addition, a guide wall 113 forming a space in which one end of the trip reverse spring 130 is installed is formed to protrude from the front side of the base 110 below the coupling protrusion 111.

A side 112 of the base 110 is formed with a ring 112 that is open at one side such that the instruction lever 150 and the rotation shaft 151 are rotatably inserted. The rotating groove 151a of the rotation shaft 151 is inserted into the broken portion 112a of the ring 112.

Referring to FIG. 10, a guide groove 121 into which the coupling protrusion 111 of the base 110 is inserted is formed at the front of the trip lever 120.

The upper and lower surfaces of the guide groove 121 is formed with a predetermined length in the guide protrusion 122 to prevent the inserted coupling protrusion 111 from escaping from the guide groove 121 during linear movement.

The insertion lever 123 is inserted into the other end of the trip lever spring 130 on the side of the trip lever 120.

Referring to FIG. 11, a sliding protrusion 126 is formed on the rear surface of the trip lever 120 to reduce mutual friction between the inserted coupling protrusion 111 and the base 110.

Referring to FIG. 12, the instruction lever 150 includes a rotation shaft 151 rotatably coupled to the ring 112 of the base 110 and a display panel 152 informing a user whether an abnormal current occurs. .

Rotating grooves 151a are formed at both sides of the pivot shaft 151 to be inserted into the broken portion 112a of the ring 112. The display panel 152 is divided into a green portion painted green to indicate a normal state and a red portion painted red to indicate an abnormal state.

FIG. 13 is a diagram illustrating a short circuit operating state of the electronic device of FIG. 7, and FIG. 14 is a diagram illustrating a normal state of the electronic device of FIG. 7.

13 and 14, the electronic device 100 applies a current to a trip coil (not shown) when an abnormal current occurs, and the current applied to the trip coil cancels the magnetic force of the magnet (not shown). At this time, by the restoring force of the trip lever spring 140, the trip lever 120 is linearly moved to the left side along the guide groove 121 of the base 120, while pushing the lower side of the instruction lever 150. As a result, as the instruction lever 150 rotates clockwise, a red portion of the display panel 152 of the instruction lever 150 appears on the ground fault display window (not shown), so that a leakage current, ground fault, or human electric shock accident occurs to the user. Will be displayed.

On the other hand, when the cause of abnormal current on the load side is removed and the handle 3 (see FIG. 7) is reset in the OFF direction to reuse the breaker, the opening / closing mechanism 9 (see FIG. 7) pushes the trip lever 120 to trip. The lever 25 linearly moves to the right in the drawing.

In addition, the instruction lever 150 is rotated clockwise in the drawing by the elastic force of the instruction lever spring 140 to reduce to the state of FIG.

At this time, the green portion of the display plate 152 of the indication lever 150 appears on the short-circuit display window (not shown) to inform the user that the breaker is operating normally.

According to the earth leakage breaker according to the exemplary embodiment of the present invention described above, the assembly method of the instruction lever 150 is different from the conventional technique of adding a rivet, and the rotation shaft 151 is connected to the ring 112 of the base 110. It is made by inserting.

In addition, the assembly method of the trip lever 150 is made of a method of linearly inserting along the guide groove 121 of the base 110, unlike the conventional technique of adding a rivet.

Therefore, there is no addition of a part called rivets, thereby saving costs. In addition, assembly time is reduced due to the addition of parts. In addition, due to the relationship between the trip lever and the linear movement along the base, the rotational structure of the trip lever is no longer used, thereby eliminating the vulnerability.

1 is a perspective view of a general earth leakage breaker,

FIG. 2 is a cross-sectional view II-II of FIG. 1;

3 is a view showing an extract of the electronic device portion, the opening and closing mechanism portion and the handle of FIG.

4 is a plan view of FIG.

5 is a view showing a cross-section V-V of FIG.

FIG. 6 is a diagram illustrating a short circuit operating state of FIG. 5; FIG.

7 is a view showing an extract of the handle, the opening and closing mechanism portion and the electronic device portion of the circuit breaker according to an embodiment of the present invention;

8 is an exploded perspective view of the electronic device of FIG. 7;

9 is a view showing the base of FIG. 8,

10 is a view showing the trip lever of FIG. 8,

FIG. 11 is a view illustrating a rear surface of the trip lever of FIG. 10;

12 is a view showing an indication lever of FIG. 8;

FIG. 13 is a circuit diagram illustrating an electrical leakage operation state of the electronic device of FIG. 7;

14 is a view illustrating a normal state of the electronic device of FIG. 7.

<Explanation of symbols for the main parts of the drawings>

100: electronic device 110: base

120: trip lever 130: trip lever spring

140: indicating lever spring 150: indicating lever

151: rotating shaft 152: display panel

Claims (8)

An electronic device having a trip lever for linear movement; And And an opening / closing mechanism part driven by the electronic device part to cut off a circuit. The method of claim 1, wherein the electronic device unit, A base on which the trip lever is installed to linearly move; An instruction lever rotatably installed on the base, the instruction lever rotating along a rotation axis as the trip lever is linearly moved; An instruction lever spring fitted to a rotation shaft of the instruction lever to add a torsional force for returning upon rotation; And And a trip lever spring having one end installed at the base and the other end installed at the trip lever to provide a return force for returning when the trip lever is linearly moved. 3. The earth leakage breaker according to claim 2, wherein a coupling protrusion is inserted into the guide groove of the trip lever at the front of the base. The earth leakage breaker according to claim 3, wherein the guide groove has a guide protrusion protruding at a predetermined length inward. The earth leakage breaker of claim 3, wherein a guide wall forming a space in which one end of the trip lever spring is installed is protruded under the coupling protrusion in front of the base. The ground fault circuit breaker of claim 2, wherein a side of the base has a ring that is open at one side to which the pivot shaft of the instruction lever is rotatably inserted. The earth leakage circuit breaker of claim 2, wherein an insertion protrusion is inserted into the other end of the trip lever spring on a side of the trip lever. The earth leakage breaker of claim 2, wherein a sliding protrusion is formed on a rear surface of the trip lever.

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