KR101720006B1 - Circuit breaker - Google Patents

Abstract

A circuit breaker comprising: a first stationary contact having a conductor for movement of a current provided from a power source; A second stationary contact for forming a current from the stationary contact to the load side; A movable contact whose one end is electrically connected to the first fixed contact and the other end is provided with a movable contact which is brought into and out of contact with the fixed contact of the second fixed contact; A state adjusting unit connected to the movable contactor and moving the movable contactor through a phase change to change whether the movable contact and the fixed contact are to be turned or not; And a gas trip which surrounds the conductor of the first stationary contact and has a gas which is thermally expandable by the heating of the conductor of the first stationary contactor in a limited space and which is operated by thermal expansion of the gas and interlocked with the state- Unit, and the gas trip unit changes the phase of the state adjusting unit when an overcurrent is generated in the conductor of the first stationary contactor.

Description

Circuit breaker {CIRCUIT BREAKER}

The present invention relates to a circuit breaker.

The circuit breaker is a circuit breaker that disconnects the connected wiring or connection device when a fault occurs in the circuit due to abnormal current on the moving current while the power source side and the load side are electrically connected. And the like.

More specifically, in a conventional circuit breaker, a time delay trip characteristic and an instantaneous trip characteristic are provided. The time trip characteristic is used to block a conduction path in the case of an abnormal current such as an overcurrent (Bi-metal), which is made by joining two metal bodies with different thermal expansion ratios, and a method using braking action of an ODP (Oil Dash Pot). The instantaneous trip characteristics are classified into a short- It is used to instantaneously and quickly cut off the generation of a relatively large current compared to an overcurrent.

In this regard, various techniques have been developed for improving the tripping characteristics and improving the efficiency of tripping by using bimetals. Prior art documents related to such prior arts include Korean Patent Registration No. 10-1172978 entitled "Circuit Breaker (Hereinafter referred to as " Prior Art 1 ").

However, in the conventional circuit breaker using the bimetals including the conventional art 1, there is a problem that the precision of the circuit breaker is deteriorated in determining the necessity of the tripping operation and blocking the converter through the tripping operation.

Accordingly, in order to solve the problem of the bimetal type circuit breakers as in the prior art 1, various techniques have been developed for improving the efficiency of tripping by using the oil dash pot (ODP) A prior art for such prior arts is disclosed in Korean Patent Registration No. 10-0859173 entitled " Multifunctional Short Circuit and Overcurrent Circuit Breaker "(hereinafter referred to as " Prior Art 2 ").

However, in the conventional circuit breaker using the ODP including the conventional technology 2, a high production cost is incurred and a complexity in the manufacturing process is a problem. Also, since the applicable current range is limited to a low current range, Respectively.

As a result, the performance of the circuit breaker is determined not only by the occurrence of the abnormal current in the circuit breaker, but also by the accuracy of the determination of the blocking state and the execution speed of the trip operation, , Improving the efficiency of the circuit breaker in the manufacturing process, and solving the restriction of the application range.

Accordingly, there has been a demand for a circuit breaker that not only can make a trip for interruption of the converter within a short time, but also can reduce manufacturing cost and process efficiency by determining the occurrence of an abnormal current more quickly It is true.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for rapidly tripping an abnormal current generated in a conductor constituting a conduction path connecting a power source and a load side, And to provide a technique capable of simultaneously providing the characteristics of instantaneous trip.

According to an aspect of the present invention, there is provided a circuit breaker comprising: a first fixed contact having a conductor for moving a current provided from a power source; A second stationary contact for forming a current from the stationary contact to the load side; A movable contact whose one end is electrically connected to the first fixed contact and the other end is provided with a movable contact which is brought into and out of contact with the fixed contact of the second fixed contact; A state adjusting unit connected to the movable contactor and moving the movable contactor through a phase change to change whether the movable contact and the fixed contact are to be turned or not; And a first fixed contactor which surrounds the conductor and has a gas which is thermally expandable by the heat generated by the conductor of the first fixed contactor in a limited space and which surrounds the conductor and is influenced by the heat generated by the overcurrent of the conductor in a predetermined space And a gas trip unit containing a thermally expandable gas, wherein the gas trip unit is operated through a pressure generated by thermal expansion of the gas to change the phase of the state control unit, .

The gas trip unit may include at least one conductor insertion hole into which the conductor of the first stationary contact member may be inserted, and may include a housing portion in which a thermal expansion gas is filled; And a piston unit connected to one side of the housing unit and moving upward toward the outside of the housing unit by thermal expansion of the gas to cause a phase change of the state control unit, So that the phase of the state adjusting unit is changed in association with the operation of the piston.

In addition, a cylinder portion is provided at one side of the housing portion to form a space for the piston portion to be inserted and raised, and an inner end portion of the piston portion inserted into the cylinder portion is disposed in a space in which the gas in the housing portion is closed. And a sealing member for blocking an open space between the inner circumferential surface of the piston portion and the outer circumferential surface of the inner end of the piston portion.

The gas trip unit may further include an elastic member connected to the piston portion and elastically supporting the piston portion in a direction opposite to the upward movement direction of the piston portion.

The state adjusting unit includes: a first link portion connected to the movable contact and interlocked with the fixed contact, the first link portion opening and closing the movable contact of the movable contact from the fixed contact of the second fixed contact through a phase change; And a second link portion interlocked with the lifting and lowering of the piston portion to change the phase of the first link portion.

Here, the second link portion may include a first contact portion that contacts and cooperates with the outer end of the piston portion by the upward movement of the piston portion; And a second contact portion connected to the first contact portion and capable of fixedly supporting the phase of the first link portion, wherein the second contact portion includes a first contact portion, which is operated by lifting the piston portion, And releases the fixing of the phase of the first link part in association with the movement of the first link part.

The circuit breaker further includes an instantaneous trip unit that changes the phase of the state adjusting unit when a short circuit current is generated in the conductor of the first fixed contactor, A fixed core surrounding the conductor and generating a magnetic force in the conductor of the first stationary contactor by a current passing the set current or more; An armature that is attracted to the fixed core by the magnetic force generated through the fixed core and rotates; And an armature spring connected to the armature and elastically supporting the armature to the opposite side of the fixed core, wherein the armature is in contact with the state adjusting unit through rotational movement, To be changed in conjunction with the operation of the armature.

In addition, the armature may have one end located on the fixed core side and the other end located on the first contact portion side of the second link portion, and the other end of the armature may be rotated by the rotation of the armature, And the second contact portion is interlocked with the movement of the first contact portion operated by the rotation of the armature to change the phase of the first link portion Lt; / RTI >

According to the present invention, the following effects can be obtained.

First, the drive power required to open the movable contact from the second stationary contact is stored in the gas trip unit so that a trip for interrupting the electric path can be made when an overcurrent occurs on the conductor of the first stationary contactor Providing the heat from the thermal expansion gas increases the breaking speed, accuracy, and reliability of the converter.

Secondly, since the configuration of the trip unit for providing the driving source of the one-trip trip that blocks the converter in the occurrence of the overcurrent is provided only by the configuration of the piston unit which is lifted and lowered according to the degree of thermal expansion in the housing unit and thermal expansion of the housing by thermal energy of the conductor, The structural complexity of the configuration for providing the drive source of the trip is solved, and the effect of reducing the cost and improving the efficiency of the process can be expected in manufacturing the entire circuit breaker.

Third, an instantaneous trip unit is additionally provided so that the armature, which is rotated by the magnetic force generated in the fixed nose when the short-circuit current is generated, can be tripped for blocking the converter, It is possible to provide the driving power required for the gating operation so that the instantaneous trip can be performed quickly and accurately.

1 is a perspective view showing a circuit breaker according to the present invention.
2 is a sectional view showing a circuit breaker according to the present invention.
3 is a cross-sectional view showing a one-time tripping behavior of the circuit breaker according to the present invention.
4 is a perspective view showing a gas trip unit in a circuit breaker according to the present invention.
5 is a sectional view showing a gas trip unit in a circuit breaker according to the present invention.
6 is a cross-sectional view showing an operational form of a gas trip unit in a circuit breaker according to the present invention.
7 is a cross-sectional view showing an instantaneous trip behavior of the circuit breaker according to the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for the sake of brevity.

1. Description of components of a circuit breaker according to the invention

Referring to FIGS. 1 and 2, a circuit breaker 100 according to the present invention includes a first fixed contact 110; A second fixed contact (120); A movable contact (130); A state adjustment unit 140; A gas trip unit 150; And an instantaneous trip unit (160).

The first fixed contact 110 is a part forming an inflow path for moving the current provided from the power source side to the load side and is formed with a conductor 110C serving as a reference for judging the occurrence of an abnormal current of the current to be moved .

The determination of the abnormal current of the gas trip unit 150 for performing the time delay trip to be described later and the instant trip unit 160 for performing the instantaneous trip can be performed by using the conductor of the first fixed contact 110 The state of the current flowing through the capacitor 110C becomes a reference.

The second fixed contact 120 is a part forming a discharge path for providing a current provided from the power source side to the load side, and a fixed contact 120P is formed on one side, and a current applied through the fixed contact 120P is connected to the load side .

One end of the movable contactor 130 is connected to the first fixed contactor 110 and the other end of the movable contactor 130 is electrically connected to the first fixed contactor 110. [ And the movable contact 130P is formed at the other end of the movable contact 130. The movable contact 130P contacts the fixed contact 120P of the second fixed contact.

The first stationary contactor 110 and the second stationary contactor 120 are brought into contact with each other when the stationary contact point 120P of the second stationary contact is brought into contact with the movable contact point 130P of the movable contactor according to the phase change of the movable contactor 130, The electric current is moved from the power source side to the load side by being electrically connected through the movable contactor 130. When the fixed contact point 120P of the second fixed contactor and the movable contact point 130P of the movable contact are opened, The stationary contactor 110 and the second stationary contactor 120 are electrically disconnected by the movable contactor 130 so that the movement of the current from the power source side to the load side is blocked.

The movable contact 130 is connected to the state adjusting unit 140 so that the fixed contact 120P of the second fixed contact and the movable contact 130P of the movable contact 130P ) Are different from each other.

The state adjusting unit 140 is connected to the movable contactor 130 and interlocked with each other. The phase adjusting unit 140 is fixed on the basis of the state where the stationary contact point 120P of the second stationary contactor is in contact with the movable contact point 130P of the movable contactor The movable contact 130 is also phase-shifted when the phase is changed in this basic state. The phase of the movable contact 130 is changed so that the movable contact 130P of the movable contact is opened from the fixed contact 120P of the second fixed contact. The phases of the first link unit 141 and the first link unit 141 are fixed and supported in a basic state and then interlocked by operation of the gas trip unit 150 and the instantaneous trip unit 160, And a second link portion 142 for releasing the fixed support state so that the phase of the second link portion 141 can be changed.

In other words, the phase change of the state adjusting unit 140 allows a trip to interrupt the current path of the current to be performed, and the driving force for the phase change of the state adjusting unit is applied to the gas trip unit 150 or the instantaneous trip unit 160 < / RTI >

4 and 5, the gas trip unit 150 is connected to the conductor 110C of the first stationary contactor so as to surround the conductor 110C of the first stationary contactor, so that the degree of heat generation of the conductor 110C of the first stationary contactor And a thermal expansion gas such as air or helium (He) which can be thermally expanded under the influence of the heat generated by the conductor 110C of the first stationary contactor is contained therein. However, the thermal expansion gas to be stored and used in the gas trip unit 150 is not limited to the above-mentioned air or helium gas but has a thermal conductivity of a certain level or higher, so that heat is generated due to the generation of abnormal current of the conductor 110C Which can be inflated through the thermal energy being applied to the gas.

Accordingly, when an abnormal current such as an overcurrent of the conductor 110C of the first fixed contact is generated and a certain level of heat is generated, the thermal expansion gas provided in the gas trip unit 150 is thermally expanded, And the raised pressure is used not only as a driving force for operating the gas trip unit 150 but also the operated gas trip unit 150 is interlocked with the state control unit 140 to operate the gas trip unit 150 And is thus associated with a driving force that allows the phase of the state control unit 140 to be changed.

As shown in FIG. 5, the gas trip unit 150 that performs this function will be described in more detail. The gas trip unit 150 includes a housing part 151 filled with a thermal expansion gas G, And a piston portion 152 which is moved upward by being influenced by the expansion pressure of the gas G filled in the inside.

5 and 6, at least one conductor insertion hole 151H into which the conductor 110C of the first fixed contact can be inserted is provided in the housing part 151. The conductor insertion hole 151H, The thermal energy formed by the heat generated by the conductor 110C of the first fixed contact inserted into the housing portion 151 affects the thermal expansion body G filled in the housing portion 151 to expand the thermal expansion body G .

In addition, the housing part 151 is formed with a heat dissipating piece (not shown) extending inwardly on the inner surface of the housing part 151 so as to further reinforce the thermal conductivity of the thermal expansion gas G Can be designed.

In addition, a cylinder-shaped cylindrical space 151S is extended from one side of the housing part, and the piston part 152 is inserted into the space and used as a space that can be raised and lowered.

The piston portion 152 inserted into the cylinder portion 151S of the housing portion is lifted by the expansion of the thermal expansion gas G and is lowered into the space G filled in the housing portion 151 And functions as an element for causing a phase change of the state-regulating unit 140 as it is brought into contact with the state-regulating unit 140 through the lifting-up.

In other words, the outer end of the piston portion 152 (the end exposed to the outside of the housing portion 151) is brought into contact with the state adjusting unit 140 when the piston portion 152 is lifted, The inner end portion of the piston portion 152 (the end portion accommodated in the inside of the housing portion 151) is moved to the size of the diameter formed by the cylinder portion 151S of the housing portion The gas G stored in the housing portion 151 is prevented from being formed such that a predetermined gap such as a predetermined gap is not formed between the inner peripheral surface of the cylinder portion 151S of the housing portion and the outer peripheral surface of the inner end portion of the piston portion 152, So as not to be leaked to the outside.

In order to perform sealing so that the base body G in the housing portion is located in the closed space, the inner end portion of the piston portion 152 is formed to have a size corresponding to the size of the diameter formed by the cylinder portion 151S of the housing portion A separate sealing member 152C is additionally formed at the inner end of the piston portion 152 so as to reinforce the characteristic of the piston portion 152 and to impart a clearer sealing capability to the inner peripheral surface of the cylinder portion 151S of the housing portion and the inner peripheral surface of the piston portion 152 The open space such as a predetermined gap is more reliably blocked.

The gas G in the housing part is located in the closed space with respect to the inner end of the piston part 152. This is because the pressure generated by the thermal expansion of the gas G in the housing part is lower than that of the piston part 152 And acts to expand the size of the closed space formed with reference to the inner end, resulting in the piston portion 152 being moved upward.

An elastic member 152S such as a spring is provided in the space of the cylinder part 151S of the housing part where the gas is not positioned with respect to the inner end of the piston part 152 inserted into the cylinder part 151S of the housing part, And the piston portion 152 is elastically supported in a direction opposite to the upward movement direction of the piston portion 152.

In other words, the resilient member 152S is moved in the downward direction of the piston 152 in order to recover the size of the closed space formed with reference to the inner end of the piston 152 through the thermal expansion of the base body G in the housing portion, And serves to buffer the degree of rise of the piston 152 when the piston 152 is moved up.

In other words. When an overcurrent is generated in the current flowing through the conductor 110C of the first fixed contact inserted into the conductor insertion hole 151H of the housing portion to generate heat of the conductor 110C as shown in FIG. 6, The gas G is subjected to thermal expansion through thermal conduction through a high thermal conductivity, and thus the size of the closed space formed with respect to the inner end of the piston 152 is affected by the internal pressure. The piston 152 is moved up to the outer side of the housing part 151 and the outer end portion of the piston 152 exposed to the outside of the housing part 151 is increased, So that the phase of the state adjusting unit 140 changes in conjunction with the operation of the piston unit 152. [

As a result, the phase change of the state adjusting unit 140 is interlocked so that the movable contact 130P of the movable contact is opened from the fixed contact 120P of the second fixed contact, and consequently, (Trip) is performed.

The structure and connection of the state adjusting unit 140, which is interlocked with the operation of the piston 152 in the gas trip unit 150 and changes the state of the movable contactor 130, will be described in detail as follows.

The first link portion 141 connected to the movable contactor 130 and connected to the movable contactor 130 includes a crossbar 141C connected to the movable contactor 130 and connected to the movable contactor 130 as shown in FIG. A lower link 141T 'that is connected to the drive shaft and drives the crossbar 141C, an upper link 141T that constitutes a toggle link with the lower link 141T', a lower link 141T ' A lever 141V for changing the shape of the toggle link of the upper link 141T is connected to the pivot shaft shared by the lower link 141T 'and the upper link 141T by the main spring 141S, Supported by the handle 141H and the second contact portion 142C 'of the second link portion 142, the toggle link type of the lower link 141T' And a latch 141L for fixing the phase of the lever 141V. However, the structure of the first link portion 141 is not limited to this, but may be embodied in various forms within a component that can cause a change in the state of the movable contactor 130 by interlocking with the second link portion 142.

Next, the second link portion 142 linked to the upward movement of the piston portion 152 in the gas trip unit 150 is moved upward by the upward movement of the piston portion 152, as shown in FIG. 2, The first contact portion 142C and the first contact portion 142C which are in contact with the outer end of the piston portion 152 to move in conjunction with the movement of the piston portion 152 and the first contact portion 142C, And a second contact portion 142C 'that allows the phase of the first contact portion 141 to be fixedly supported.

Here, the first contact portion 142C and the second contact portion 142C 'are fixedly coupled with the pivot shaft 142S so that the first contact portion 142C and the second contact portion 142C' And the operation of the second contact portion 142C 'releases the pivot support to the latch 141L, so that the first link portion 141 is brought into contact with the second contact portion 142C' So that the movable contact 130P of the movable contact is opened from the fixed contact 120P of the second fixed contact.

That is, the first contact portion 142C in the second link portion 142 operates in conjunction with the upward movement of the piston portion 152 when the second contact portion 141C 'in the second link portion 142 is in the first By releasing the fixing to the phase of the link portion 141, and finally, the state of the movable contactor 130 is finally changed.

In addition, the circuit breaker 100 of the present invention further includes an instantaneous trip unit 160 for performing an instantaneous trip function in addition to the one-time trip function according to the generation of the overcurrent described above when an abnormal current such as a short- .

The instantaneous trip unit 160 determines that a short circuit current has occurred on the conductor 110C of the first fixed contact and causes a phase change of the state adjusting unit 140 so that the movable contact 130P Is opened from the fixed contact 120P of the second fixed contact.

1 and 2, the instantaneous trip unit 160 includes a fixed core 161, which is provided as a metal surrounding the conductor 110C of the first fixed contactor, And an armature 162 positioned on the upper side of the second link part 142 and positioned adjacent to the first contact part 142C side of the second link part 142 and serving as a moving core.

The fixed core 161 surrounding the conductor 110C of the first stationary contactor generates a magnetic force around the conductor 110C of the first stationary contactor when a current equal to or larger than the set current occurs, The magnetic force generated through the fixed core 161 attracts the armature 162 to the fixed core 161 side.

The armature 162 is rotatably coupled to the housing 100H accommodating the details of the circuit breaker 100 and is fixed between one side of the housing 100H and one side of the armature 162. [ An armature spring (not shown) for elastically supporting the movement of the armature 162 toward the opposite side of the movement direction of the armature 162 which is attracted toward the fixed core 161 by a magnetic force generated through the core 161, .

The armature 162 which is attracted toward the fixed core 161 by the magnetic force generated through the fixed core 161 rotates about the shaft coupled to the housing 100H in a rotatable manner, The moving armature 162 is brought into contact with the state adjusting unit 140 so that the phase of the state adjusting unit 140 is changed and interlocked with the rotating operation of the armature 162. [

More specifically, the other end of the armature 162 positioned adjacent to the first contact portion 142C side of the second link portion 142 is connected to the conductor 110C of the first fixed contactor by a short- The magnetic force generated in the fixed core 161 is brought into contact with the first contact portion 142C of the second link portion 142 in the process of attracting one end of the armature 162 and rotating the armature 162 The first contact portion 142C of the second link portion 142 coupled to the movement of the armature 162 rotates so that the second contact portion 142C 'releases the pivot support to the latch 141L As a result, all of the detailed structures constituting the first link portion 141 are interlocked so that the movable contact 130P of the movable contact is opened from the fixed contact 120P of the second fixed contact.

2. Description of Trip Type of Circuit Breaker According to the Present Invention

2 to 3, when the overcurrent is generated on the conductor 110C of the first stationary contactor, the overcurrent is cut off from the gas trip unit 150 The provided trip driving source changes the phase of the state adjusting unit 140 so that the movable contact 130P of the movable contact is opened from the fixed contact 120P of the second fixed contact to form the first fixed contact 110 and the second fixed contact 120. [ (120) is electrically disconnected so that current movement from the power source side to the load side is cut off.

First, when an overcurrent occurs on the conductor 110C of the first stationary contactor, the conductor 110C of the first stationary contactor generates heat energy over a certain level through heat generation, and the generated heat energy is transferred to the gas trip unit 150. [ The gas G is thermally expanded as it is conducted to the base body G stored in the inner housing part 151 and the piston part 152 moves upward.

3, the upwardly moving piston portion 152 rotates the first contact portion 142C of the second link portion 142, and the first contact portion 142C and the pivot shaft 142S are shared The second contact portion 142C 'is pivotally released from the pivot support to the first link portion 141, and more specifically, to the latch 141L.

The latch 141L which has been pivoted through the second contact portion 142C 'is rotated as shown in FIG. 3 through the release of the supporting state to cause the rotation of the lever 141V which has fixedly supported the phase The respective components interlocked with each other in the first link portion 141 are interlocked with each other so that the movable contact 130 connected to the crossbar 141C is lifted so that the movable contact 130P is fixed to the fixed contact 120P.

That is, the gas trip unit 150 has the conductor 110C of the first fixed contact inserted into the conductor insertion hole 151 and the means for generating the trip driving source by the generation of the electric current, It has an improved effect compared to the bimetallic tripping type which uses difference of metal expansion rate of two or more in cutting speed and accuracy.

Referring to FIGS. 2 and 7, a description will be made of an instantaneous trip mode for short circuit current interruption of the circuit short circuit 100 of the present invention. When a short circuit current occurs on the conductor 110C of the first stationary contactor, The phase change of the state adjusting unit 140 causes the movable contact 130P of the movable contact 130 to be opened from the fixed contact 120P of the second fixed contact so that the first fixed contact 110 and the movable contact 130P 2 The fixed contacts 120 are electrically disconnected so that current movement from the power source side to the load side is cut off.

First, when a short circuit current is generated on the conductor 110C of the first fixed contact, a certain level of magnetic force is applied to the periphery of the fixed core 161 in the instantaneous trip unit 160 surrounding the conductor 110C of the first fixed contact So that the armature 162, which is rotatably disposed on the upper side of the fixed core 161, is attracted toward the fixed core 161 and rotates.

7, the armature 162 which is attracted to the fixed core 161 is rotated by the other end of the armature 162 toward the first contact portion 142C of the second link portion 142 And the second contact portion 142C ', which shares the first contact portion 142C and the pivot shaft 142S, is pivotally connected to the first link portion 141, and more specifically, to the latch 141L The pivot support is released.

The latch 141L which has been pivoted through the second contact portion 142C 'is rotated as shown in FIG. 3 through the release of the supporting state to cause the rotation of the lever 141V which has fixedly supported the phase The respective components interlocked with each other in the first link portion 141 are interlocked with each other so that the movable contact 130 connected to the crossbar 141C is lifted so that the movable contact 130P is fixed to the fixed contact 120P.

That is, the circuit breaker 100 of the present invention is provided with a trip driving force from the gas trip unit 150 in the case of a one-time trip due to the occurrence of an overcurrent of the conductor 110C of the first stationary contactor, The instantaneous trip unit 160 receives the trip driving force from the instantaneous trip unit 160. As a result, in blocking the overcurrent and the short-circuit current, Can be performed.

The embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection is to be construed in accordance with the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: Circuit breaker
110: first fixed contact
110C: conductor
120: second fixed contact
120P: Fixed contact point
130:
130P: movable contact
140:
141: first link portion
142: second link portion
142C: first contact portion
142C ': a second contact portion
150: gas trip unit
151:
151S: cylinder portion
G: Gas for thermal expansion
151H: conductor insertion hole
152: piston portion
152C: sealing member
152S: elastic member
160: Instantaneous trip unit
161: Fixed core
162: Amherst

Claims (8)

A first fixed contact having a conductor for movement of a current provided from a power source side;
A second stationary contact for forming a current from the stationary contact to the load side;
A movable contact whose one end is electrically connected to the first fixed contact and the other end is provided with a movable contact which is brought into and out of contact with the fixed contact of the second fixed contact;
A state adjusting unit connected to the movable contactor and moving the movable contactor through a phase change to change whether the movable contact and the fixed contact are to be turned or not; And
And a gas trip unit enclosing the conductor and containing a thermally expandable gas in a predetermined space under the influence of heat generated by an overcurrent of the conductor,
Wherein the gas trip unit is interlocked with the state adjusting unit so as to be operated by a pressure generated by thermal expansion of the gas to change the phase of the state adjusting unit,
The gas trip unit includes:
At least one conductor insertion hole into which a conductor of the first stationary contact piece can be inserted, and a housing for filling a thermal expansion gas therein; And
And a piston portion connected to one side of the housing portion and rising upward toward the outside of the housing portion due to thermal expansion of the gas to cause a phase change of the state adjusting unit,
The piston portion is brought into contact with the state adjusting unit through an upward movement so that the phase of the state adjusting unit is changed in conjunction with the operation of the piston portion,
Wherein the state-
A first link portion connected to the movable contact and interlocked with the movable contact, the first link portion opening and closing the movable contact of the movable contact from the fixed contact of the second fixed contact through a phase change; And
And a second link portion interlocked with the lifting and lowering of the piston portion to change the phase of the first link portion,
In the housing portion, the enclosed thermal expansion gas is inflated by the heat transferred from the conductor inserted in the conductor insertion hole to raise the piston portion,
And the movable contact of the movable contact is opened from the fixed contact of the second fixed contact by changing the phase of the first link by the piston part with the second link part raised.
Circuit breaker.
delete The method according to claim 1,
A cylinder portion is formed at one side of the housing portion to form a space for the piston portion to be inserted and raised,
And a sealing member for blocking an open space between an inner circumferential surface of the cylinder portion and an outer circumferential surface of an inner end portion of the piston portion so that the gas in the housing portion is located in the closed space at the inner end portion of the piston portion inserted into the cylinder portion.
Circuit breaker.
The method of claim 3,
The gas trip unit includes:
And an elastic member connected to the piston portion and elastically supporting the piston portion in a direction opposite to the upward movement direction of the piston portion.
Circuit breaker.
delete The method according to claim 1,
Wherein the second link portion includes:
A first contact portion that contacts and cooperates with an outer end of the piston portion by the upward movement of the piston portion; And
And a second contact portion connected to the first contact portion and capable of fixedly supporting the phase of the first link portion,
And the second contact portion releases the fixation with respect to the phase of the first link portion in association with the movement of the first contact portion operated by the lifting and lowering of the piston portion
Circuit breaker.
The method of claim 6,
The circuit breaker includes:
And an instantaneous trip unit for changing the phase of the state adjusting unit when a short circuit current is generated in the conductor of the first fixed contact,
Wherein said instantaneous trip unit comprises:
A fixed core surrounding the conductor of the first stationary contactor and generating a magnetic force in the conductor of the first stationary contactor by a current passing the set current or more;
An armature that is attracted to the fixed core by the magnetic force generated through the fixed core and rotates; And
And an armature spring connected to the armature and elastically supporting the armature to the opposite side of the fixed core,
Wherein the armature is brought into contact with the state adjusting unit through rotational movement so that the phase of the state adjusting unit changes in conjunction with the operation of the armature
Circuit breaker.
8. The method of claim 7,
Wherein the armature has one end located on the fixed core side and the other end located on the first contact portion side of the second link portion,
And the other end of the armature is brought into contact with the first contact portion by rotation of the armature so that the first contact portion is interlocked with the movement of the armature,
And the second contact portion releases the fixation with respect to the phase of the first link portion in association with the movement of the first contact portion operated by the rotation of the armature.
Circuit breaker.

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