KR101489603B1 - Trip device of molded-case circuit breaker - Google Patents

Abstract

According to an embodiment of the present invention, a trip device of a molded-case circuit breaker includes: an adjustable trip shaft which is in contact with an opening device of the molded-case circuit breaker; an adjust plate having the adjustable trip shaft and a predetermined separation distance; and a bimetal having a guide groove, which the adjust plate is connected to, on both ends of a width direction which controls intervals between the adjust plate and the adjustable trip shaft by an applied current.

Description

TRIP DEVICE OF MOLDED-CASE CIRCUIT BREAKER

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a trip device of a circuit breaker, and more particularly, to a trip device of a circuit breaker capable of setting a distance between a bimetal and a regulating trip shaft by rating.

A circuit breaker for wiring is a device that cuts off the current when an accident such as opening or closing a load or an earth fault or short circuit occurs in a transmission, substation or an electric circuit. The circuit breaker switches the electric line to the open or closed state by the user's operation.

The circuit breaker protects the load device and the line when the line is overloaded or short-circuited.

Among them, the circuit breaker is mainly used, and the commonly used circuit breaker has a one-time trip characteristic and an instantaneous trip characteristic. The short-time tripping characteristic refers to the overcurrent tripping characteristic having an operating time inversely proportional to the overcurrent value.

At this time, the stop-and-go characteristic is a thermal coin type using a thermal element such as bi-metal and a full-electron type using an ODP (oil dash pot) braking action.

The instantaneous trip characteristic trips the circuit breaker quickly due to a relatively large overcurrent such as a short circuit current. The tripping characteristic is that when an overcurrent exceeding the rated current flows, the circuit trips the circuit breaker before the temperature reaches a dangerous state by joule heat.

In this case, it is desirable that the circuit breaker operates quickly in terms of protection. However, in the converter, a transient overcurrent such as the starting current of the motor flows in addition to the normal load current.

Therefore, it is preferable to operate with a time delay within a range where the temperature of the converter does not exceed the allowable temperature so that the circuit breaker is not operated by such an overcurrent. In that sense, it is also called the demonstration operation characteristic.

Determination of the time delay in the demonstration operation characteristic corresponds to the time from when the bimetal begins to bend due to the overcurrent flow to when the opening / closing mechanism is actuated by the rotation of the adjustment trip shaft.

This delay time is determined by the initial setting gap of the bimetal and the adjustment trip shaft, the time from when the bimetal comes into contact with the adjustment trip shaft to the time when the adjustment trip shaft starts rotating, Is determined as an important factor.

A prior art document related to the present invention is Korean Patent Laid-Open Publication No. 10-2005-0050999 (published on Jun. 1, 2005), which discloses a technology related to a voltage trip attachment device for a wiring breaker.

The present invention provides a trip device for a wiring breaker which can improve the overcurrent characteristics and the productivity by setting the interval between the bimetal and the adjustment trip shaft.

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by those skilled in the art from the following description.

A trip device of a circuit breaker according to an embodiment of the present invention includes: a provisionable trip shaft capable of contacting an opening / closing mechanism of a circuit breaker for wiring; An adjustment plate having a preset distance from the adjustment trip shaft; And a bimetal having guide grooves at both ends in the width direction to which the adjustment plate is connected and adjusting the distance between the adjustment plate and the adjustment trip shaft by an applied current.

The adjustment plate includes a base plate to be laser-welded with the bimetal, and side members extending from both ends of the base plate and having sliding protrusions that can be inserted into the guide grooves of the bimetal.

The base plate includes a welded portion having a laser welded portion and penetrating through a part of an upper portion of the upper portion of the base plate, a contact portion protruding downwardly inclined forwardly and capable of contacting the adjustable trip shaft by the operation of the bimetal, .

The welded portion is provided in parallel with the longitudinal direction of the base plate and crosses a part of the bimetal.

The side member is movable in a guide groove of the bimetal before the base plate is laser-welded to the bimetal, and has a rear step to prevent it from being detached from the guide groove of the bimetal.

According to the trip device of the circuit breaker according to the embodiment of the present invention, the interval (hereinafter, trap gap) between the bimetal and the regulating trip shaft can be automatically adjusted and fixed without manual operation.

This can improve work efficiency and product productivity and reduce costs.

Further, the trap gap can be adjusted and fixed to reduce the possibility of occurrence of an error, thereby improving the quality of the circuit breaker.

In addition, since the adjustment plate can slide along the guide grooves of the bimetal, it is possible to remarkably reduce the difference in the difference in the setting of the rated interval, thereby minimizing the trip time difference of the wiring breaker.

1 is a perspective view schematically showing a state in which a trip device of a circuit breaker according to an embodiment of the present invention is installed.
2 is a partial perspective view schematically showing a trip device of a circuit breaker according to an embodiment of the present invention;
3 is an exploded view schematically showing a fastening relationship between an adjusting plate and a bimetal in a trip device of a circuit breaker according to an embodiment of the present invention.
Fig. 4 and Fig. 5 are schematic views showing an operation relationship between the configurations of the trip device of the circuit breaker according to the embodiment of the present invention; Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: It is intended that the invention be described in its entirety by reference to the appended claims and their equivalents.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, a trip device for a circuit breaker according to an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a perspective view schematically showing a state where a trip device of a circuit breaker according to an embodiment of the present invention is installed, and FIG. 2 is a partial perspective view schematically showing a trip device of a circuit breaker according to an embodiment of the present invention.

1 and 2, the circuit breaker 10 functions to protect the load and the facility from a fault current which is several tens to several hundred percent larger than the rated current such as an overcurrent or a short-circuit current due to a circuit failure.

At this time, the fault current is largely divided into an overload current and a short-circuit current. When each current flows above a reference value, the circuit breaker 10 opens the line.

In particular, when the short-circuit current flows, the amount of current flows from several hundred amperes to several tens of thousands of amperes depending on the facility capacity, and the instantaneous circuit breaker 10 operates to open (block) the circuit.

In the operation mechanism due to the short circuit current of the circuit breaker 10, the demonstration operation characteristic is that heat is generated in the heater when an overcurrent flows through the circuit breaker.

The generated heat is transferred to the bimetal 130 and the bimetal 130 is curved due to the difference in thermal conductivity between the two members constituting the bimetal 130 so as to press the adjustment trip shaft 110, .

Accordingly, the opening / closing mechanism 200 is operated to switch the electric line to the open state to shut off the circuit.

Determination of the time delay in the demonstration operation characteristic corresponds to the time from when the bimetal 130 begins to curve when the overcurrent flows and before the opening and closing mechanism 200 is operated by the rotation of the adjustment trip shaft 110 .

The delay time is set such that the initial setting gap of the bimetal 130 and the adjustment trip shaft 110 and the bending moment of the bimetal 130 from the time when the bimetal 130 contacts the adjustment trip shaft 110 The amount of invalid cuff until the start of rotation of the adjustment trip shaft 110 is determined by an important factor .

Thereby forming a bending amount that is the degree of rotation of the bimetal 130. Among the above factors, since the ineffective amount of curvature and the rotational distance of the adjustment trip shaft 110 are influenced by the characteristics of the individual wiring breaker 10, fine adjustment is difficult unless the parts are replaced.

Therefore, in the demonstration operation characteristic, a factor that can adjust the required delay time is the gap between the bimetal and the adjustment trip shaft 110.

If the interval is too small, the tripping time of the circuit breaker 10 is shortened and tripped too fast, so that the circuit can be shut off even in case of a transient overcurrent such as a starting current.

On the other hand, if the interval is too large, the tripping time of the circuit breaker 10 may not be delayed or tripped, and an overcurrent may be supplied to the circuit, thereby causing damage to the circuit.

Accordingly, the circuit breaker 10 calculates the amount of heat generated by the heater when the overcurrent flows and the amount of bending of the bimetal 130, and develops it into several parts. In order to ensure accurate demonstration operation characteristics, Adjust the distance of the adjustment trip shaft (110).

The trip device 100 of the circuit breaker according to an embodiment of the present invention installed in the circuit breaker 10 includes a regulating trip shaft 110, an adjusting plate 120 and a bimetal 130.

The adjustment trip shaft 110 can contact the opening and closing mechanism 200 of the circuit breaker 10 as described above.

The adjustment plate 120 has a predetermined clearance distance from the temporary adjustment trip shaft 110.

The bimetal 130 is a bar-shaped member formed by cutting two kinds of thin metal plates having different coefficients of thermal expansion into one sheet. The bimetal 130 can control the temperature of the device by using the bending property when heat is applied.

The bimetal 130 is curved at one side (in the direction of the adjustment trip shaft) when heat is transferred from the heater that generates an appropriate amount of heat when an overcurrent is generated.

The distance between the adjustment plate 120 and the adjustment trip shaft 110 is adjusted by the operation of the bimetal 130.

When the adjustment plate 120 contacts the adjustment trip shaft 110 by the bimetal 130, the adjustment trip shaft 110 is rotated to separate the movable contactor of the wiring breaker 10 from the fixed contactor .

Before explaining the trip device 100 of the circuit breaker according to the embodiment of the present invention installed in the circuit breaker 10, the circuit breaker 10 will be described.

The wiring breaker 10 includes a case 20, a trip device 100, an opening and closing mechanism 200, a terminal portion (not shown), and an arc portion (not shown).

The case 20 is made of an insulating outer structure for housing the components of the circuit breaker 10 for wiring. The case 20 is molded with an insulating material to insulate the inside from the outside. This structure is general and will not be described in detail.

The trip device 100 of the circuit breaker according to an embodiment of the present invention has a function of detecting an abnormal current and an accident current such as an overcurrent and shutting off the circuit.

The trip device 100 of the circuit breaker according to an embodiment of the present invention has a configuration including the temporary adjustment trip shaft 110, the adjustment plate 120, and the bimetal 130.

Hereinafter, a trip device 100 of a circuit breaker according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Next, the opening / closing mechanism 200 has a function of mechanically turning the converter on and off, and includes a handle 210 and a lever 220.

The handle 210 provides a manual operation means capable of opening and closing the circuit by a pushing or pulling operation.

The lever 220 is connected to the handle 210 and serves as a means for providing a rotation support (not shown) of the handle 210. The lever 220 may be a U-shaped bent metal plate.

The lever 220 may be connected to the handle 210 in such a manner that the upper flat flat portion is fitted to the lower portion of the handle 210, or the like.

The terminal portion includes a stationary contactor to which a power source and a load are connected, and a movable contactor.

In other words, the terminal portion includes a fixed contact connected to the input side power source and fixed to the case 20, and a movable contact connected to the load side and capable of separating or contacting with the fixed contact 210. [

The fixed contact is configured to shut down the fault current of the line, and has a function of transmitting the power supplied from the converter to the load side.

The movable contactor is rotatably mounted on the case 20 and is mechanically connected to the opening / closing mechanism 200.

That is, the movable contactor is manually operated by the lever 220, or is operated by the opening / closing mechanism 200 triggered by the trip device 100.

The movable contactor is disposed in contact with the stationary contactor so as to be energized. The movable contact is disposed at a position where it can be contacted or separated from the fixed contact and has a structure capable of rotating.

On the other hand, when protecting the circuit by tripping the circuit by disconnecting the movable contact from the fixed contact in the event of a fault current, insulation in the air is destroyed by the current between the contacts and an arc of high temperature plasma is generated do.

In addition, arc may cause arc to occur due to melting of insulation around the arc by the arc.

At this time, the arc soffit part has a function of dividing and cooling the generated arc, and discharging the arc pressure to the outside.

Such an arc soffit can improve the breaking performance of the circuit breaker 10 by insulating the moving path where the fixed contact and the movable contact of the terminal portion are in contact with or separated from each other.

3 is an exploded view schematically showing a fastening relationship between an adjusting plate and a bimetal in a trip device of a circuit breaker according to an embodiment of the present invention.

Referring to FIG. 3, the adjustment plate 120 has a structure connected to the bimetal 130. First, the bimetal 130 has guide grooves 131 to which the adjustment plate 120 is connected at both ends in the width direction.

At this time, the bimetal 130 may have a pedestal below the guide groove 131. The pedestal has a shape protruding in a direction orthogonal to the longitudinal direction of the bimetal 130.

The adjustment plate 120 includes a base plate 121 to be laser-welded to the bimetal 130 and side members 122 extending to both lower ends of the base plate.

At this time, the base plate 121 includes a welded portion 121a and a contact portion 121b.

The welded portion 121a penetrates a portion of the upper portion of the base plate 121 to form a laser welded portion.

The welded portion 121a is provided in a shape parallel to the longitudinal direction of the base plate 121. The welding part 121a intersects with a part of the bimetal 130 when the adjusting plate 120 and the bimetal 130 are connected.

The contact portion 121b protrudes downward from the base plate 121 in a downward inclined manner. Thus, the contact portion 121b can contact the torsionally adjustable trip shaft (110 of FIG. 2) by the operation of the bimetal 130.

The side member 122 includes a sliding protrusion 122a that can be inserted into the guide groove 131 of the bimetal 130 and a side wall 122 that prevents the side member 122 from being separated from the guide groove 131. [ 122 at a rear end thereof.

The sliding protrusion 122a is supported by the upper portion of a pedestal provided under the guide groove 131 of the bimetal 130. [

FIG. 4 and FIG. 5 are schematic views showing an operation relationship between the configurations of the trip device of the circuit breaker according to the embodiment of the present invention.

4 and 5, a trip device 100 of a circuit breaker according to an embodiment of the present invention includes a tuning trip shaft 110, an adjusting plate 120, a bimetal 130 and a heater 140, .

The adjustment trip shaft 110 has a structure capable of contacting the opening / closing mechanism of the circuit breaker for wiring, and is rotated by an external force to operate the opening / closing mechanism.

When the opening and closing mechanism is operated, the movable contactor of the terminal portion is disconnected from the fixed contact, and the wiring breaker is tripped.

At this time, when heat is transferred from the heater 140 generating an appropriate amount of heat to the bimetal 130 when the overcurrent is generated, the bimetal 130 is curved at one side (in the direction of the adjustment trip shaft).

Here, the adjustment plate 120 is inserted and connected to the guide groove (131 in FIG. 3) of the bimetal 130.

At this time, the adjusting plate 120 is fixed at the initial position of the bimetal 130. When the bimetal 130 is curved, the adjusting plate 120 is laser welded to the welding portion 121a of the adjusting plate 120, The appropriate gap for each rating is set.

Here, the rated proper gap refers to the distance between the tuning trip shaft 110 and the adjusting plate 120, and the gap between the tuning trip shaft 110 and the adjusting plate 120, Respectively.

On the other hand, the adjustment plate 120 is laser-welded to the bimetal 130, having a preset distance D from the adjustment trip shaft 110.

The preset distance D is set such that the circuit is not blocked and the circuit is prevented from being damaged even if an overcurrent occurs due to conditions such as a trip condition and a circuit breaking time of the misalignment trip shaft 110 and the adjusting plate 120 Means the minimum reference interval that can be achieved.

Therefore, the preset distance D may be different for each circuit breaker, and such difference need not be limited to the present invention.

If the distance between the adjustment plate 120 and the adjustment trip shaft 110 is smaller than the previously set distance D, the tripping time of the circuit breaker is shortened and the circuit is tripped too early, Can be blocked.

On the other hand, if the interval is larger than the preset distance D, the tripping time of the circuit breaker may not be delayed or tripped, and an overcurrent may be supplied to the circuit, thereby causing damage to the circuit.

The side member 122 of the adjustment plate 120 is freely movable on the guide groove 131 of the bimetal 130 before the base plate 121 is laser-welded to the bimetal 130 .

That is, when the adjustment plate 120 is disposed at a predetermined distance D from the adjustment trip shaft 110, the adjustment plate 120 and the bimetal 130 are joined and fixed by laser welding.

As described above, the trip device of the circuit breaker according to an embodiment of the present invention can automatically adjust and fix the gap (hereinafter, trap gap) between the bimetal and the adjustment trip shaft without manual operation.

This can improve work efficiency and product productivity and reduce costs.

Further, the trap gap can be adjusted and fixed to reduce the possibility of occurrence of an error, thereby improving the quality of the circuit breaker.

In addition, since the adjustment plate can slide along the guide grooves of the bimetal, it is possible to remarkably reduce the difference in the difference in the setting of the rated interval, thereby minimizing the trip time difference of the wiring breaker.

The trip device of the circuit breaker according to the embodiment of the present invention has been described above.

It is to be understood that the terminology or words used in the foregoing detailed description and in the following claims should not be construed as limited to ordinary or dictionary meanings and the inventor shall not be construed to limit the concept of the term to the best of his / Should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory only and are not restrictive of the invention, It should be understood that water and variations may be present.

10: MCCB 20: Case
100: Trip device of wiring breaker
110: Adjustable trip shaft
120: adjusting plate 121: base plate
121a: welding portion 121b:
122: side member 122a: sliding protrusion
122b: step
130: bimetal 131: guide groove
140: heater
200: opening / closing mechanism 210: handle
220: Lever
300: terminal portion 310: fixed contact
320: Operational contact
400: arc soho

Claims (5)

An adjustable trip shaft capable of contacting an opening / closing mechanism of a circuit breaker for wiring;
An adjustment plate having a preset distance from the adjustment trip shaft; And
And a bimetal having guide grooves at both ends in the width direction to which the adjustment plate is connected and adjusting an interval between the adjustment plate and the adjustment trip shaft by an applied current,
Wherein the adjustment plate comprises:
A base plate to be laser welded to the bimetal,
And a side member extending from both ends of the base plate and having sliding protrusions that can be inserted into the guide grooves of the bimetal.
delete The method according to claim 1,
Wherein the base plate comprises:
A welding portion having a laser welded portion penetrating through a part of the upper portion,
And a contact portion protruding downwardly inclined forward and capable of contacting the adjustment trip shaft by the operation of the bimetal.
The method of claim 3,
The welding portion
Wherein the bimetal is formed in a shape parallel to the longitudinal direction of the base plate, and intersects with a part of the bimetal.
The method according to claim 1,
The side member
The base plate is movable in a guide groove of the bimetal before being laser welded to the bimetal,
Wherein the bimetal has a stepped portion at the rear to prevent the bimetal from being detached from the guide groove.

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