KR102277161B1 - power-side and load-side integrated earth leakage circuit breaker using electric wire - Google Patents

Abstract

The present invention provides a power-side and load-side integrated earth leakage circuit breaker using an extension wire, which has a simplified configuration, quickly blocks the flow of current when an overcurrent occurs, and improves the safety of use and space utilization. The power-side and load-side integrated earth leakage circuit breaker includes: a housing unit which has a power input terminal on the front side and a load output terminal on the rear side; a movable switching unit which is provided with a connecting plate; a crossbar; a trip unit; a latch unit which presses down the crossbar; a handle unit of which the lower end is connected to a pressing member; an earth leakage detecting and blocking unit which includes a solenoid; an extension wire which is extended along the front-rear direction on the inner lower side of the housing unit; and an extended input terminal.

Description

Power-side and load-side integrated earth leakage circuit breaker using electric wire

The present invention relates to a power supply-side load-side integrated earth leakage breaker using an extension wire, and more particularly, the power-side load-side using an extension wire with improved safety and space utilization by quickly blocking the flow of current when an overcurrent occurs while simplifying the configuration. It is related to an integrated circuit breaker.

In general, when an overcurrent exceeding the set value flows or a short circuit occurs in the circuit, the circuit breaker quickly switches the opening/closing operation of the electric line to block the current flow, thereby preventing damage to the electrical appliances and lines connected to the load. it is a device Such a circuit breaker is driven by manual or automatic operation, and preferably can be operated so that the current is automatically short-circuited when an overcurrent occurs.

Here, conventionally, a bimetal type circuit breaker has been disclosed that uses two metal plates having different coefficients of thermal expansion by pasting them and bending toward a smaller coefficient of thermal expansion when heat due to overcurrent is applied. In such a bimetal type circuit breaker, resistance is generated when current is supplied to a circuit, and the bimetal is heated, and when an excessive current exceeding a predetermined standard flows, the bimetal is bent and a tripping unit adjacent to the circuit is driven. And, the contact terminal coupled to the lower portion of the bimetal is spaced apart from the input terminal, and is driven in a structure in which the flow of current is blocked.

However, the conventional bimetal type circuit breaker has a problem in that the current cannot be immediately blocked and delayed due to the generation of time for the bimetal to deform. Moreover, as the rate at which the current is cut off is relatively delayed, there is a problem that not only components inside the circuit breaker but also electrical appliances and lines connected to the load side may be damaged.

Accordingly, in some cases, a zero-phase current transformer type circuit breaker has been disclosed that controls the trip bar to be driven through a signal transmitted when an overcurrent occurs. Such an image current transformer type circuit breaker may include components such as an image current transformer, a solenoid unit, and a printed circuit board.

Meanwhile, FIG. 1 is an exemplary view showing the wiring structure of a conventional circuit breaker.

As shown in FIG. 1, in the prior art, when the circuit breaker 1 is placed in a narrow space such as inside the street light flasher 2, in general, either one of the power supply side 1a and the load side 1b of the circuit breaker 1 moves upward. placed, but the other is placed downward.

And, the ends of the wires 3 and 4 are respectively electrically connected to the power supply side 1a and the load side 1b of the circuit breaker 1, and are disposed on the upper side of the power supply side 1a and the load side 1b of the circuit breaker 1 The electric wire 3 connected to any one of the circuit breaker 1 is arranged to surround the outside of the housing 1c of the circuit breaker 1 and is connected to the outside from the inside of the casing of the street light flasher 2 .

However, in the conventional circuit breaker (1), the power supply side (1a) and the load side (1b) are respectively arranged at the upper side and the lower side, so that the volume occupied by the wires (3, 4) when placed in a narrow space such as the inside of the street light flasher (2) There was a problem in that space utilization was decreased due to the increase.

In addition, when connecting wires to the power supply side (1a) and the load side (1b) of the circuit breaker 1 disposed in a narrow space such as the inside of the street light flasher 2, workability is reduced, and the required wire length is increased, resulting in economic efficiency. There was a problem with lowering.

Korea Registered Utility Model No. 20-0341427

In order to solve the above problems, the present invention is to provide a power-side load-side integrated earth leakage breaker using an extension wire with improved safety and space utilization by quickly blocking the flow of current when an overcurrent occurs while simplifying the configuration. make it a task

In order to solve the above problems, the present invention provides a housing portion provided with a power input terminal on the front side and a load output terminal on the rear side is spaced apart from the power input terminal; It is disposed for selective power connection between the power input terminal and the load output terminal, and the power input terminal is contact-connected to the front end, but a movable switching having a connecting plate portion that provides elastic restoring force to the upper side so as to be selectively spaced apart. part; a cross bar having a light oil portion having an opening to cross the front end of the connecting plate on one side and being elastically supported upward through an elastic means provided at the lower end; a trip part disposed opposite to the rear side of the crossbar and rotated back and forth around the lower end, and having an inclined step protruding forward in the front part; a latch part having a front end disposed to face the upper surface of the crossbar, the rear end being supported in contact with the upper surface of the inclined step, and pressing the crossbar downward; a handle part coupled to the housing part so as to be rotated back and forth, and connected to a lower end of a pressing member that moves up and down to press the latch part downward according to a rotation direction; an earth leakage detection and interruption unit electrically connected to the movable switching unit and including a solenoid having a plunger engaged with the trip unit; an extension wire having a front end connected to the power input terminal and extending along the front-rear direction on the inner lower side of the housing; and an extension input terminal connected to the rear end of the extension wire, the extension input terminal being disposed on the rear side of the housing part and spaced apart from the load output terminal by a step in up-down and front-back directions, wherein the load output terminal is located on the rear side of the housing part A load-side insertion groove is formed with an inner contour corresponding to the outer contour of the load output terminal to be inserted, and a load-side communication hole is formed through the front-rear direction to insert the load-side external wire at the rear side of the load-side insertion groove, and the load side A screw for fixing a load-side external wire inserted into the load output terminal is inserted through the cover portion opposite to the upper side of the insertion groove, and a load-side screw insertion hole is formed through the up-down direction so as to be fastened to the load output terminal, At the rear end of the housing part, the extension-side insertion groove is disposed behind the load-side insertion groove and has an inner contour corresponding to the outer contour of the extended input terminal so that the extended input terminal is inserted at a position stepped up and down from the load-side insertion groove. is formed, and a power-side communication hole is formed through a front-rear direction to insert a power-side external wire into the rear side of the extension-side insertion groove, and the lower end formed to be stepped on the rear side of the cover part is arranged to cover the upper side of the power-side communication hole, , The power-side communication hole and the load-side communication hole are mutually partitioned by the stepped rear portion of the cover portion, and the power-side external wire inserted into the extension input terminal is fixed to the cover portion opposite to the upper side of the extension-side insertion groove. A power supply side screw insertion hole is formed through the vertical direction so that a screw is inserted through and fastened to the extended input terminal, and the extended side insertion groove and the load side insertion groove are at a position stepping up and down from each other, the power supply side external wire and The load-side external wires are formed with an extra step for shorting each other, and are formed side by side at a stepped position in the front-rear direction, and the length of the extension wire in the front-rear direction exceeds the distance between the power input terminal and the load output terminal. is set, and a wire insertion space is formed in the lower inner side of the housing part along the front-rear direction so that the extended wire is inserted therethrough, The wire insertion space communicates with each of the power-side insertion groove and the extension-side insertion groove formed in the inner contour corresponding to the outer contour of the power input terminal on the front side of the housing part, and the extended wire has a front-rear central portion of the wire insertion space. The front end is bent upward and is electrically connected to the power input terminal provided in the power supply-side insertion groove, and the rear end is bent upward and is electrically connected to the extension input terminal provided in the extension-side insertion groove, Guide steps are protruded to the front and rear sides of the wire insertion space so that the extended wires are bent and guided upward, and the front and rear sides of the extended wires are hooked and bent by the guide steps, and the housing part has an opening at the bottom. However, there is provided a power supply-side load-side integrated earth leakage breaker using an extension wire, characterized in that it further comprises a back cover part of an insulating material that covers the lower part of the housing part opened downward.

Through the above solution means, the present invention provides the following effects.

First, the power input terminal and the extension input terminal respectively provided on the front and rear sides of the housing are connected with wires through the extension wire, so that the insertion area of the external wire on the power side and the load side is concentrated side by side and the insertion direction is unified, so the work convenience will be significantly improved. can

Second, the load output terminal and the extension input terminal on the rear side of the housing part are spaced stepwise apart in a stepwise manner along the up-down and front-back directions side by side with an extra step, so that a safety accident caused by a short circuit between each external wire that has been stripped is structurally prevented. The safety of use can be significantly improved.

Third, the load output terminal and the extended input terminal are inserted into the load side as the extension side insertion groove is formed at the rear end of the housing part at a position stepped up and down from the load side insertion groove and disposed behind the load side insertion groove formed on the rear side of the housing part. Since it is easily assembled with a safe external wire insertion structure only by being inserted into the groove and the extension-side insertion groove, work convenience can be remarkably improved.

Fourth, an extension wire is disposed in the wire insertion space communicating with the power supply side insertion groove and the extended side insertion groove on the lower inner side of the housing part, and is electrically partitioned from the movable switching unit, crossbar, trip unit, and earth leakage detection breaker, and extended with the power input terminal Because the input terminals are electrically connected, safety accidents caused by short circuits are prevented and safety of use can be improved.

Fifth, the guide step protrudes on the front and rear sides of the wire insertion space of the housing, so that the front and rear sides of the extension wires are caught and bent and guided upwards, so when electrically connecting the power input terminal and the extension input terminal, the assemblyability will be significantly improved. can

Sixth, since the back cover part of an insulating material that covers the lower part of the housing part opened downward is detachably coupled to the housing part, it is possible to easily replace the extension wire when the extension wire is aging, so that the work convenience can be remarkably improved.

1 is an exemplary view showing a wiring structure of a conventional circuit breaker.
Figure 2 is a perspective view showing a power-side load-side integrated earth leakage breaker using an extension wire according to an embodiment of the present invention.
3 is a side view illustrating a state in which the cover and the housing of the power-side load-side integrated earth leakage breaker using an extension wire according to an embodiment of the present invention are separated and exposed.
Figure 4 is an exemplary view showing the inside of the power-side load-side integrated earth leakage breaker using an extension wire according to an embodiment of the present invention.
5 is a perspective view showing a housing part in the power-side load-side integrated earth leakage breaker using an extension wire according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a power-side load-side integrated earth leakage breaker using an extension wire according to a preferred embodiment of the present invention will be described in detail.

2 is a perspective view showing a power-side load-side integrated earth leakage breaker using an extended wire according to an embodiment of the present invention, and FIG. 3 is a cover and a housing of the power-side load-side integrated earth leakage breaker using an extended cable according to an embodiment of the present invention. It is a side view showing a state in which the part is separated and the inside is exposed, and FIG. 4 is an exemplary view showing the inside of a power-side load-side integrated earth leakage breaker using an extension wire according to an embodiment of the present invention, and FIG. 5 is an embodiment of the present invention It is a perspective view showing the housing part in the power-side load-side integrated earth leakage breaker using an extension wire according to . At this time, it is preferable to understand the same meaning as the power-side load-side integrated earth leakage breaker and the circuit breaker using an extension wire, which will be described below.

2 to 5, the power-side load-side integrated earth leakage breaker 100 using an extension wire according to an embodiment of the present invention includes a housing unit 10, a movable switching unit 20, a cross bar 30, and a trip. It includes a part 40 , a latch part 50 , a handle part 60 , an earth leakage detection blocking part 70 , an extension wire 80 , and an extension input terminal 90 . In addition, it is preferable that the power-side load-side integrated earth leakage breaker 100 using the extension wire further includes a cover 19 covering the upper portion of the housing 10 .

In detail, the housing part 10 includes an internal space in which the components of the circuit breaker 100 are accommodated, and is preferably made of an insulating and non-combustible synthetic resin material. A partition wall, an installation groove, or a hole is formed inside the housing part 10 so that each component is installed and assembled. Here, a power input terminal 11 connected to the power source is provided on the front side of the housing unit 10, and a load output terminal 12 connected to the load side is provided on the rear side, and the power input terminal 11 has a fixed contact point. A portion 13 is provided.

In addition, the movable switching unit 20 is disposed for selective power connection between the power input terminal 11 and the load output terminal 12 . Here, it is preferable that the movable switching unit 20 includes a connecting plate part 21 and an extension plate part 22 .

In detail, it is preferable that the front end of the connecting plate part 21 includes a magnetization facing part that is adjacent to the fixed contact part 13 but extends rearward. In this case, the magnetization facing part may be provided with a plurality of thin metal plates, such as copper, in a state in which one side is bonded to each other in an overlapping state. Here, the front end of the magnetization face portion is provided with a movable contact portion 25 that is connected to the fixed contact portion 13 in contact. That is, it is preferable to understand that the connecting plate part 21 includes the magnetization facing part and the movable contact part 25 provided on the front end side thereof. At this time, it is preferable that the magnetization face part is made of a conductive metal material that provides elastic restoring force so that the movable contact part 25 is in contact with the stationary contact part 13 to be energized, but is selectively spaced apart.

In addition, it is preferable that the rear end of the extension plate 22 is connected to the rear end of the connecting plate 21 , and an extended face portion is formed on the front end bent in the upward direction intersecting the connecting plate 21 . Here, the rear end of the magnetization facing portion and the rear end of the extended facing portion overlap and are fixed to the housing 10 through an adjusting screw. The extension plate part 22 is formed of a conductive metal material like the magnetization facing part and is electrically connected to the load output terminal 12 through a energized wire 14 . Accordingly, when the front end of the connecting plate portion 21 is pressed downward, the fixed contact portion 13 and the movable contact portion 25 come into contact with each other, and the power input terminal 11, the connecting plate portion 21, and the A current flows through the extension plate part 22 , the energized wire 14 , and the load output terminal 12 .

Here, the magnetization facing portion and the extended facing portion are preferably formed of a metal material that is magnetized through an electric current while having conductivity. In addition, the extended face portion may be formed of a bimetal having different coefficients of thermal expansion on the front surface and the rear surface while being magnetized. That is, when the temperature of the extension plate part 22 rises due to current resistance heat through overcurrent, it may be formed to be bent toward the rear side having a low coefficient of thermal expansion.

Meanwhile, the crossbar 30 is provided to press the front end of the connecting plate part 21 downward. Here, the crossbar 30 is provided on the front end side of the connecting plate part 21, and the passing-through part 31 opened so that the front end of the connecting plate part 21 crosses is formed. At this time, when the front end of the connecting plate part 21 is pressed, it is preferable to understand that the front end of the magnetization facing part is substantially pressed. The cross bar 30 is pressed downward by the pressing force applied from the upper side, and is elastically supported upward through the elastic means 33 provided at the lower end.

In detail, in a normal state, the force by which the crossbar 30 is pressed downward is greater than the elastic force of the elastic means 33 . Accordingly, the state in which the crossbar 30 is pressed downward is maintained and the elastic means 33 is compressed. Then, the front end of the connecting plate portion 21 disposed across the light oil portion 31 is bent and pressed downward. Through this, the movable contact part 25 is contact-connected to the fixed contact part 13 . At this time, when an overcurrent occurs or the force to press the crossbar 30 is lost through manipulation of the handle unit 60 , the crossbar 30 is moved upward through the elastic restoring force of the elastic means 33 . At the same time, since the pressing force pressing the connecting plate part 21 is lost, the movable contact part 25 is spaced apart from the fixed contact part 13 while the magnetized facing part is stretched through the elastic restoring force.

On the other hand, the trip part 40 is disposed opposite to the rear side of the extended face part, and is provided to rotate back and forth about the pivoting end part 40a formed at the lower end. At this time, the inclined step 41 protrudes forward on the front portion of the trip unit 40 . In addition, a locking groove may be recessed in one side of the trip part 40 so that the plunger 72a of the solenoid 72 is hooked and connected. The structure of the trip unit 40 is a configuration generally disclosed in the prior art, and a detailed description thereof will be omitted.

In addition, the latch part 50 has a front end disposed to face the upper surface of the crossbar 30 , and a rear end thereof extends to a length facing the front part of the trip unit 40 . In this case, the rear end of the latch part 50 is formed to be in contact with or adjacent to the inclined step 41 . In addition, the handle part 60 is coupled to the housing part 10 to be rotated back and forth, and a pressing member that moves up and down to press the latch part 50 downward according to the rotation direction is connected to the lower end. At this time, the rotational direction refers to a connection direction in which the movable contact part 25 and the fixed contact part 13 are in contact with each other and the movable contact part 25 and the fixed contact part 13 are operated to be spaced apart. It is preferable to understand that it encompasses the blocking direction. Hereinafter, the connection direction will be described and illustrated as a direction rotating to the front side, and the blocking direction will be described and illustrated as a direction rotating to the rear side.

In detail, in a state in which the handle portion 60 is rotated in the connection direction, the pressing member is moved downward. At this time, the pressing member is hingedly connected to the lifting connection part formed on the central side of the latch part 50 . Accordingly, when the pressing member is moved downward, the latch part 50 is interlocked and the rear end of the latch part 50 is supported in surface contact with the inclined upper surface of the inclined step 41 . Then, while the rear end of the latch unit 50 is supported by the inclined step 41, the front end is rotated downward, and the latch press unit 32 contacts and presses the cross bar 30, and the fixed contact unit ( 13) and the movable contact part 25 are contact-connected.

On the other hand, the handle portion 60 is hingedly connected to the support frame provided in the housing portion 10, and when the binding force that pressurized and supported the latch portion 50 is lost, through the elastic restoring force of the return means provided on one side. rotated in the blocking direction. In this case, the return means may be provided with a torsion spring or a leaf spring. In addition, the pressing member hinged to the lower end of the handle unit 60 may move upward, and the latch unit 50 may be completely separated from the crossbar 30 and the trip unit 40 .

At this time, when the handle part 60 is rotated in the connection direction so that the current is reconnected, the pressing member is moved downward, and the rear end of the latch part 50 moves toward the inclined step 41 and comes into contact with the upper surface again. is supported And, when the pressing force of the pressing member is continuously transmitted while the rear end of the latch unit 50 is supported, the front end of the latch unit 50 moves downward. At this time, as the front end of the latch part 50 contacts the latch pressing part 32 and the downward pressing force is transmitted, the connecting plate part 21 is pressed downward, and the movable contact part 25 and the fixed The contact portion 13 is operated to contact again.

In addition, a return means for returning the rotation angle of the trip unit 40 is further provided on the side of the rotation end portion 40a. Accordingly, after the rear end of the latch unit 50 is rotated in the rearward direction to be spaced apart from the inclined step 41, the position is immediately returned through the return means.

On the other hand, the earth leakage detection blocking unit 70 is electrically connected to the movable switching unit 20 through the energized wire 14, and the latch unit 50 pressing the crossbar 30 is the inclined step. It is preferable to include a solenoid 72 provided with a plunger 72a hooked to the trip part 40 so as to interlock and retract the trip part 40 to be spaced apart from the trip part 40 .

At this time, the earth leakage detection blocking unit 70 may be provided to perform a function of detecting an earth leakage when the test button unit 75 is pressed when power is supplied when electrically connected to the movable switching unit 20 . On the other hand, the earth leakage detection and interruption unit 70 is separated from the movable switching unit 20 and as the power is cut off, even when the test button unit 75 is pressed, the power leakage detection and interruption unit 70 operates. In addition, the contact resistance between both terminals of the power input terminal 11 may become infinite.

In detail, it is preferable that the earth leakage detection blocking unit 70 further includes an earth leakage sensing unit 71 electrically connected to the energized wire 14 and provided to detect and amplify the leakage current. At this time, it is preferable to understand that the term "electrically connected" is a concept encompassing direct wire connection and electromagnetic induction method.

In addition, the earth leakage detection unit 71 is electrically connected to the energized electric wire 14, and the test button unit 75 is pressed and electrically energized to be driven as power is supplied.

Here, the electric leakage detecting unit 71 is preferably connected to the electric wire to the solenoid 72 to transmit a trip blocking signal so that the plunger 72a is driven when the electric leakage is detected. The earth leakage detecting unit 71 may be configured as an electronic circuit including an image current transformer and a PCB circuit device, but is not limited thereto.

In addition, it is preferable that the earth leakage detection blocking unit 70 includes a test pin 73 connected to one side of the earth leakage sensing unit 71 . Here, the test pin 73 is preferably made of a conductive metal material, and may be electrically connected to the upper central side of the PCB circuit device of the leak point detection unit 71 .

In addition, the earth leakage detection blocking part 70 is connected to the other side of the earth leakage detection part 71 and is spaced apart from the test pin 73 in an upward direction so as to be in selective energized contact with the test pin 73 . (74) is preferably included. Here, the test plate 74 is preferably made of a conductive metal material, and may be electrically connected to the top of the PCB circuit device of the leak point detection unit 71 . In addition, the test plate 74 may be provided in a flat plate shape to elastically deform when pressed.

In addition, it is preferable that the electric leakage detecting unit 71 includes a test button unit 75 provided on the upper side of the test plate 74 . Here, the test button part 75 is preferably provided as an insulating material such as synthetic resin, and penetrates through a test hole formed through a vertical direction on one side of the cover part 19 covering the upper part of the housing part 10 . It may be inserted so that the upper end is exposed to the upper side. In addition, a spring that provides elastic restoring force upward when the test button part 75 is pressed downward may be interposed in the test button part 75 . In addition, the lower end of the test button part 75 may be disposed opposite to the front end of the upper surface of the test plate 74 .

Here, when the user presses the test button part 75 downward, the upper surface of the test plate 74 comes into contact with the lower end of the test button part 75 and is interlocked and pressed downward. Accordingly, the test plate 74 may be elastically deformed so that the lower surface of the test plate 74 may be in electrical contact with the test pin 73 . At this time, between the test plate 74 and the test pin 73 by downward pressing of the test button part 75 in a state in which the movable switching part 20 and the earth leakage detection part 71 are electrically connected to each other. When electrical connection is made, as power is supplied to the earth leakage detection and interruption unit 70 having a closed circuit, the plunger 72a of the solenoid 72 may be retracted.

Here, the plunger 72a of the solenoid 72 interlocks and retracts the trip part 40 so that the latch part 50 pressing the crossbar 30 is spaced apart from the inclined step 41 . It is preferable to engage and connect to the engaging groove of the trip unit 40 .

At this time, the plunger 72a of the solenoid 72 is disposed to protrude from the solenoid 72 when the power is cut off. In addition, the plunger 72a of the solenoid 72 is contracted and inserted into the solenoid 72 when power is supplied. Here, an extended step extending radially outward along the circumferential direction may be formed at an end of the plunger 72a. In addition, it is preferable that the extended step is disposed on the front portion of the trip unit 40 , and is engaged with the engaging groove portion of the trip unit 40 .

In addition, the plunger 72a of the solenoid 72 is contracted and inserted into the solenoid 72 when power is supplied. At the same time, the trip portion 40 engaged with the plunger 72a is momentarily retracted. Accordingly, the rear end of the latch part 50 is spaced apart from the inclined step 41 , and the binding force that presses and supports the latch part 50 is lost. Through this, the pressing force applied to the crossbar 30 is removed, and the movable contact portion 25 and the fixed contact portion 13 can be separated from each other while the magnetized face portion is elastically restored and unfolded.

On the other hand, it is preferable that the power input terminal 11 is provided inside the front side of the housing part 10 . At this time, the power input terminal 11 is preferably formed of a conductive metal material.

In addition, the power supply side insertion groove 15a may be recessed into the inner contour corresponding to the outer contour of the power input terminal 11 so that the power input terminal 11 is inserted into the front side of the housing 10 .

In addition, it is preferable that the load output terminal 12 is spaced apart from the power input terminal 11 and provided at the inner rear side of the housing part 10 . At this time, the load output terminal 12 is preferably formed of a conductive metal material.

In addition, the load-side insertion groove 15b may be recessed into the inner contour corresponding to the outer contour of the load output terminal 12 so that the load output terminal 12 is inserted into the rear side of the housing 10 .

In addition, the load-side communication hole 19a may be formed through the rear side of the load-side insertion groove 15b in the front-rear direction so that the load-side external wire (not shown) is inserted. In addition, it is preferable that the opening hole is also formed through the cover part 19 opposite to the load side communication hole 19a. In addition, a screw for fixing a load-side external wire (not shown) inserted into the load output terminal 12 is inserted through the cover portion 19 opposite to the upper side of the load-side insertion groove 15b, and the load output terminal The load-side screw insertion hole 19b may be formed to penetrate in the vertical direction so as to be fastened to (12).

And, the extension wire 80 is provided with a conductive metal material, the front end 80a is connected to the electric wire to the power input terminal 11, and the front and rear central portion 80b extending from the front end 80a to the rear side is the It is preferable that the inner lower side of the housing 10 extends along the front-rear direction, and the rear end 80c is connected to the extension input terminal 90 with an electric wire. At this time, the length of the central portion 80b in the front-rear direction of the extension wire 80 is set to exceed the interval between the power input terminal 11 and the load output terminal 12, and the power input terminal 11 and the extension It may be set to correspond to the interval between the input terminals 90 .

Here, it is preferable that a wire insertion space 15d is formed in the front and rear direction so that the extension wire 80 is inserted through the lower inner side of the housing part 10, and the central part 80b in the front and rear direction of the extension wire 80 is formed. ) is arranged in the wire insertion space (15d), it is preferable to extend along the front-rear direction. At this time, the extension wire 80 is the housing part spaced downward from each lower end of the movable switching part 20, the crossbar 30, the trip part 40, and the earth leakage detection blocking part 70. 10) is preferably arranged in the lower part. Accordingly, the extension wire 80 is electrically short-circuited and separated from the movable switching unit 20, the crossbar 30, the trip unit 40, and the earth leakage detection blocking unit 70. can

In addition, the extension input terminal 90 is electrically connected to the rear end 80c of the extension wire 80, and is disposed at the rear side of the housing part 10 in the vertical and front-rear directions with the load output terminal 12. It is preferable to be spaced apart stepwise in a stepwise fashion along the At this time, it is preferable that the extended input terminal 90 and the load output terminal 12 are respectively disposed on the inner rear side of the housing unit 10 and are spaced apart from each other by a step to electrically short-circuit and block each other.

In addition, the rear end of the housing 10 is disposed rearward than the load-side insertion groove 15b so that the extension input terminal 90 is inserted at a position stepping up and down from the load-side insertion groove 15b. It is preferable that the extension-side insertion groove 15c is recessed into the inner contour corresponding to the outer contour of the extended input terminal 90 . That is, the extension-side insertion groove (15c) is recessed in the rear end of the housing part (10) disposed at the rear side of the load-side insertion groove (15b) and stepped vertically from the load-side insertion groove (15b). This is preferable.

Here, the extension side insertion groove (15c) and the load side insertion groove (15b) are at positions that are stepped up and down from each other, and a spare step for shorting the power supply side external wire (not shown) and the load side external wire (not shown) It is preferable to be formed side by side and to be formed adjacent to each other at a stepped position in the front-rear direction.

At this time, most preferably, the extended side insertion groove (15c) is disposed below the load side insertion groove (15b), and at the same time, the extended side insertion groove (15c) is disposed rearward than the load side insertion groove (15b). can

That is, the rear side of the housing portion 10 in which the extension-side insertion groove 15c and the load-side insertion groove 15b are formed may be formed to be stepped in a step shape that increases toward the front, and the extension-side insertion groove 15c ) is arranged at the lower end, the load-side insertion groove (15b) may be arranged at the upper end.

At this time, a raised portion protruding upward at a position corresponding to the load-side insertion groove 15b is formed in the housing portion 10 so that the load-side insertion groove 15b is disposed above the extension-side insertion groove 15c. The load-side insertion groove (15b) may be formed to be depressed downwardly from the upper surface of the raised portion.

In addition, the power-side communication hole 18a may be formed through the rear side of the extension-side insertion groove 15c in the front-rear direction so that the power-side external wire (not shown) is inserted. At this time, as the lower end formed in a step on the rear side of the cover part 19 is disposed to cover the upper side of the power-side communication hole 18a, the power-side communication hole 18a and the load-side communication hole 19a are mutually connected to the cover part. (19) can be mutually partitioned by the stepped rear part.

In addition, a screw for fixing a power supply-side external wire (not shown) inserted into the extension input terminal 90 is inserted through the cover portion 19 opposite to the upper side of the extension-side insertion groove 15c, and the extension input The power supply side screw insertion hole 18b may be formed to penetrate in the vertical direction so as to be fastened to the terminal 90 .

At this time, the power-side communication hole (18a) and the load-side communication hole (19a) are formed with an extra step at a mutually stepped position in the vertical direction, and at the same time, it is preferable that they are formed adjacent to each other at a stepped position in the front-rear direction. . Similarly, the power supply side screw insertion hole (18b) and the load side communication hole (19a) are formed with an extra step at a mutually up-and-down step position, and at the same time, it is preferable to be formed adjacent to each other at a mutually front and rear stepped position. Do.

In addition, it is preferable that the wire insertion space 15d communicates with the power supply-side insertion groove 15a and the extension-side insertion groove 15c, respectively. At this time, the power input terminal provided in the power supply side insertion groove (15a) by bending the front end (80a) upward as the extended wire (80) has a front and rear central portion (80b) extending along the wire insertion space (15d). It is preferable that it is electrically connected to (11) and the rear end (80c) is bent upward to be electrically connected to the extension input terminal (90) provided in the extension-side insertion groove (15c).

Here, a guide step 16a may be protruded from the housing 10 so that the extended wire 80 is bent upward to the front and rear sides of the wire insertion space 15d. In addition, the front and rear sides of the extension wire 80 may be bent and caught by the guide step 16a, respectively. For example, the front end 80a of the extension wire 80 may be arranged to extend upward from the forward direction central portion 80b in a bent state while being caught by the guide step 16a.

On the other hand, it is preferable that the housing portion 10 further includes a back cover portion 17 of an insulating material that has an open lower portion and covers the lower portion of the housing portion 10 that is opened downward. Here, the back cover portion 17 may be detachably coupled to the lower portion of the housing portion 10 so as to cover the wire insertion space 15d.

As described above, in the power-side load-side integrated earth leakage breaker 100 using an extension wire according to the present invention, the power input terminal 11 and the extension input terminal 90 provided on the front and rear sides of the housing 10, respectively, have an extension wire 80 ) through which wires are connected, so that the insertion areas of the power source side and the load side external wires (not shown) are concentrated side by side adjacent to each other in the rear portion of the housing 10, and the insertion direction is unified, so the work convenience can be remarkably improved.

At this time, since the insertion directions of the external wires (not shown) on the power side and the load side are unified in the same direction, the volume occupied by the external wires (not shown) is remarkably reduced even when placed in a narrow space such as inside a street light flasher, which significantly improves space utilization can be In addition, the required wire length can be reduced, thereby improving economy.

In addition, the load output terminal 12 and the extension input terminal 90 on the rear side of the housing part 10 are spaced stepwise apart in a stepwise manner along the up-down and front-back directions side by side with an extra step, each external wire (not shown) Safety accidents due to a short circuit between each external electric wire (not shown) that may occur when the coating is peeled off due to aging are structurally prevented, so the safety of use can be significantly improved.

Here, the extension-side insertion groove is disposed on the rear side of the load-side insertion groove (15b) formed on the rear side of the housing part (10) and extends at the rear end of the housing part (10) at a position stepped up and down from the load-side insertion groove (15b). (15c) is formed. Accordingly, since the load output terminal 12 and the extended input terminal 90 are simply assembled into a safe wire insertion structure by only being inserted into the load side insertion groove 15b and the extended side insertion groove 15c, work convenience will be significantly improved. can

And, the extension wire 80 is disposed in the wire insertion space 15d communicating with the power supply side insertion groove 15a and the extended side insertion groove 15c inside the lower inner side of the housing part 10, the movable switching part 20, It is electrically divided from the crossbar 30, the trip unit 40, and the earth leakage detection breaker and electrically connects the power input terminal 11 and the extension input terminal 90, so safety accidents caused by short circuits are prevented and use safety is improved. can be improved.

At this time, the guide step 16a is protruded on the front and rear sides of the wire insertion space 15d of the housing 10, so that the front and rear sides of the extension wire 80 are caught and bent and guided upward, so the power input terminal 11 When electrically connecting between the input terminal 90 and the extension input terminal 90, assembling property can be significantly improved.

In addition, the back cover portion 17 of an insulating material that covers the lower portion of the housing portion 10, which is opened downward, is detachably coupled to the housing portion 10 so that it can be easily replaced when the extension wire 80 is aging. Work convenience can be significantly improved.

In this case, terms such as "include", "comprise", "include" or "have" described above mean that the corresponding component may be inherent, unless otherwise stated. It should be construed as not excluding components, but may further include other components. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless otherwise defined. Commonly used terms such as terms defined in the dictionary should be interpreted as being consistent with the contextual meaning of the related art, and are not interpreted in an ideal or excessively formal meaning unless explicitly defined in the present invention.

As described above, the present invention is not limited to each of the above-described embodiments, and modifications can be implemented by those of ordinary skill in the art to which the present invention pertains without departing from the scope of the claims of the present invention. and such modifications are within the scope of the present invention.

100: Power-side load-side integrated earth leakage breaker using an extension wire
10: housing unit 20: movable switching unit
30: crossbar 40: trip part
50: latch unit 60: handle unit
70: earth leakage detection blocker 80: extension wire
90: extension input terminal

Claims (5)

a housing part having a power input terminal on the front side and a load output terminal on the rear side spaced apart from the power input terminal;
It is disposed for selective power connection between the power input terminal and the load output terminal, and the power input terminal is contact-connected to the front end, but a movable switching having a connecting plate portion that provides elastic restoring force to the upper side so as to be selectively spaced apart. part;
a cross bar having a light oil portion opened to cross the front end of the connecting plate portion on one side and elastically supported upward through an elastic means provided at a lower end portion;
a trip unit disposed opposite to the rear side of the crossbar and rotated back and forth around the lower end portion, and the inclined step protrudes forward in the front portion;
a latch unit having a front end disposed to face the upper surface of the crossbar, the rear end being supported in contact with the upper surface of the inclined step, and pressing the crossbar downward;
a handle part coupled to the housing part so as to be rotated back and forth, and connected to a lower end of a pressing member that moves up and down to press the latch part downward according to a rotation direction;
an earth leakage detecting and blocking unit electrically connected to the movable switching unit and including a solenoid having a plunger engaged with the trip unit;
an extension wire having a front end connected to the power input terminal and extending along the front-rear direction on the lower inner side of the housing; and
an extension input terminal connected to the rear end of the extension wire and disposed on the rear side of the housing part and spaced apart from the load output terminal by a step in vertical and front-rear directions;
A load side insertion groove is formed on the rear side of the housing part with an inner contour corresponding to the outer contour of the load output terminal so that the load output terminal is inserted, and a load side communication hole is formed on the rear side of the load side insertion groove so that the load side external wire is inserted. A screw for fixing the load-side external wire inserted into the load output terminal is inserted through the cover part opposite to the upper side of the load-side insertion groove, and the load-side screw insertion hole is inserted so as to be fastened to the load output terminal. It is formed through the vertical direction,
The rear end of the housing is disposed rearward from the load-side insertion groove, and the extension side is inserted into the inner contour corresponding to the outer contour of the extended input terminal so that the extended input terminal is inserted at a position stepped up and down from the load-side insertion groove. A groove is formed,
A power-side communication hole is formed through the rear side of the extension-side insertion groove in the front-rear direction so that the power-side external wire is inserted, and the lower end formed stepwisely on the rear side of the cover part is arranged to cover the upper side of the power-side communication hole, the power-side communication The hole and the load-side communication hole are mutually partitioned by the stepped rear portion of the cover portion, and a screw for fixing the external power supply wire inserted into the extension input terminal passes through the cover portion opposite to the upper side of the extension-side insertion groove. A power supply side screw insertion hole is formed through the vertical direction so as to be inserted and fastened to the extension input terminal,
The extension-side insertion groove and the load-side insertion groove are formed with an extra step for short-circuiting the external electric wire on the power supply side and the external electric wire on the load side at positions stepped up and down from each other, and are formed side by side at positions stepped in the front and rear directions , The length of the front and rear direction of the extension wire is set to exceed the interval between the power input terminal and the load output terminal,
In the lower inner side of the housing part, a wire insertion space is formed along the front and rear directions so that the extended wire is inserted therethrough, and the wire insertion space is a power supply side insertion space formed with an inner contour corresponding to an outer contour of the power input terminal on the front side of the housing unit. It communicates with the groove and the extended side insertion groove respectively,
The extended wire has a front-back central portion extending along the wire insertion space, the front end is bent upwards and is electrically connected to the power input terminal provided in the power-side insertion groove, and the rear end is bent upwardly into the extension-side insertion groove It is electrically connected to the provided extension input terminal,
Guide steps are protruded to the front and rear sides of the wire insertion space so that the extended wires are bent and guided upward, and the front and rear sides of the extended wires are hooked and bent by the guide steps, respectively, and the housing part has a lower portion The power supply-side load-side integrated earth leakage breaker using an extension wire, characterized in that it further comprises a back cover part of an insulating material that is opened and covers the lower part of the housing part that is opened downward. delete delete delete delete

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