KR102135904B1 - handle insert type temperature detecting circuit breaker - Google Patents

Abstract

The present invention relates to a handle unit-inserted temperature sensing circuit breaker. According to the present invention, the handle unit-inserted temperature sensing circuit breaker comprises: a housing unit having a power input unit and a load output unit separated from each other; a movable switching unit arranged for a selective power connection between the power input unit and the load output unit; a crossbar; a trip unit; a latch unit; a handle unit; and a temperature sensing bimetal. According to the present invention, the current blocking speed can be remarkably increased.

Description

Handle insert type temperature detecting circuit breaker

The present invention relates to a handle-type insert-type temperature sensing circuit breaker, and more particularly, to a handle-type insert-type temperature sensing circuit breaker with improved configuration and safety while generating heat.

In general, the circuit breaker prevents damage to electrical products and lines connected to the load side by quickly switching the opening and closing operation of the electric line when an overcurrent exceeding a set value or a short circuit occurs in the circuit to cut off the current flow. Device. Such a circuit breaker is driven by manual or automatic operation, and preferably can be operated to automatically short circuit the current when an overcurrent occurs.

Here, in the related art, a bimetal circuit breaker has been disclosed that uses two metal plates having different thermal expansion coefficients and bends to a small side when the heat due to overcurrent is applied. In the bimetal circuit breaker, when a current is supplied to a circuit, a resistance is generated to heat the bimetal, and when an excess current of a certain level or more flows, the bimetal bends and drives a trip portion that is in close contact. In addition, the contact terminal coupled to the lower portion of the bimetal is driven from the input terminal to a structure in which the flow of current is blocked.

However, the conventional bimetal circuit breaker has a problem in that the circuit breaker does not block current flow even if high heat is generated in the case of the circuit breaker due to an internal defect or a fire generated from the outside.

Therefore, regardless of the ambient temperature of the circuit breaker, since the circuit breaker simply provides a function to block current flow, there is a serious problem that may cause a secondary safety accident in case of an internal fault or an external fire.

Korean Utility Model No. 20-0341427

In order to solve the above problems, the present invention is to provide a handle-type insert type temperature sensing circuit breaker with improved safety during heat generation while the configuration is simplified.

In order to solve the above problems, the present invention, the power input unit and the load output unit is provided with a housing spaced apart at the front and rear sides; It is arranged for selective power connection between the power input part and the load output part, and is provided with a connecting plate part formed with an extended face portion for providing elastic recovery force to the upper side so as to be spaced apart and selectively connected to the power input part at the front end part. Movable switching unit; A crossbar formed on one side via an opening through which the front end side of the movable switching unit crosses, but supported by an elastic means provided at the lower end, to be supported upwards; A trip portion disposed opposite to the rear side of the movable switching portion and rotated back and forth around the lower portion, wherein an inclined step is protruded forward; A front end portion facing the upper surface of the crossbar, but a rear end portion in contact with the upper surface of the inclined step so that the power input portion and the movable switching portion are in contact with each other; a latch portion for pressing the crossbar downward; A handle part coupled to the housing part to be rotated back and forth, and a pressing member moved upward and downward to press the latch part downwardly according to a rotation direction; And a fixed end is fixed to the handle portion, the free end exposed to the outside of the handle portion is disposed facing the front of the handle mounting portion fixed to the housing portion, the ambient temperature of the housing portion rises above a predetermined safety temperature or above When the free end is flexibly deformed backwards based on the fixed end, and the pressure is rotated when the pressing member is rotated, the pressure of the latch is released so that the rear panel has a lower coefficient of thermal expansion than the front side so as to be separated from the power input unit. It provides a handle-type insert type temperature sensing circuit breaker comprising a temperature-sensing bimetal.

Through the above solution, the handle-type insert type temperature sensing circuit breaker according to the present invention provides the following effects.

First, when the ambient temperature rises above a predetermined safety temperature, the free end of the temperature sensing bimetal fixed to the handle part is deflected backward and thermally deforms backwards. When the handle mounting part is pressed, the latch part is released as the pressing member rotates. Since the connecting plate part is separated from the power input part, it is possible to prevent a secondary safety accident by automatically blocking the current flow in the event of a fire.

Second, when the ambient temperature is higher than the preset safety temperature, the free end of the temperature-sensing bimetal is deformed backwards from a straight shape to directly press the handle mounting part, and the current flow quickly as the handle part and the pressing member connected to it rotate in the blocking direction. Block, The pressure of the crossbar is released by the release of the latch portion, and thus the current blocking speed can be significantly increased compared to the trip operation due to the retraction of the trip portion blocking the current.

Third, even if the handle part is rotated in the connection direction arbitrarily when the rotation angle of the free end is set to exceed the link reference operating line of the pressing member and the ambient temperature is above a preset safety temperature, the handle mounting part is attached to the freely deformed free end. The fixed contact portion and the movable contact portion can be kept separated from each other by a safety structure that is interrupted and the downward pressure of the crossbar is blocked in advance.

Fourth, a simple assembly structure that bolts the temperature-sensing bimetal to the handle part by inserting the free end of the temperature-sensing bimetal through the insertion hole of the handle part and contacting the bent coupling part extending from the fixed end to the handle part, assembling and productivity. This can be significantly improved.

1 and 2 are perspective views showing a state in which the cover of the insert-type temperature sensing circuit breaker according to an embodiment of the present invention is separated and the inside is exposed.
3 and 4 and 5 is an exemplary use showing the state of use of the handle type insert temperature sensing circuit breaker according to an embodiment of the present invention.
Figure 6 is an exemplary view showing an assembly process of the insert type temperature sensing circuit breaker according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the handle type insert type temperature sensing circuit breaker according to a preferred embodiment of the present invention.

1 and 2 are perspective views showing a state in which the cover of the handle-type insert type temperature sensing circuit breaker according to an embodiment of the present invention is separated, and FIGS. 3 and 4 and 5 are one embodiment of the present invention. It is an exemplary view showing a state of use of the insert-type temperature sensing circuit breaker according to an example, and FIG. 6 is an exemplary view showing an assembly process of the handle-type insert-type temperature sensing circuit breaker according to an embodiment of the present invention. At this time, it is preferable to understand that the cover of the insert-type temperature sensing circuit breaker of the handle portion in FIG. 1 to FIG. 5 is exposed as an example to show the inside. In addition, it is preferable to understand the handle part insert type temperature sensing circuit breaker and the circuit breaker to be described below in the same sense.

1 to 6, the handle portion insert-type temperature sensing circuit breaker 800 according to an embodiment of the present invention includes a housing portion 10, a movable switching portion 20, a crossbar 30, a trip portion ( 40), a latch portion 50, a handle portion 760 and a temperature sensing bimetal 770.

In detail, the housing part 10 includes an internal space in which components of the circuit breaker 800 are accommodated, and is preferably formed of an insulating and non-combustible synthetic resin material. In the interior of the housing part 10, partition partition walls, installation grooves or holes are formed to install and assemble each component. Here, the front side of the housing portion 10 is provided with a power input unit 11 connected to the power supply side, a rear side is provided with a load output unit 12 connected to the load side, and the power input unit 11 has a fixed contact unit ( 13) is provided.

In addition, the movable switching unit 20 is arranged for selective power connection between the power input unit 11 and the load output unit 12. Here, the movable switching portion 20 is preferably provided, including a connecting plate portion 21 and the extension plate portion (22).

In detail, the connecting plate portion 21 may include a connecting face portion 23 where the front end portion is adjacent to the fixed contact portion 13 but extends rearward. Here, the front end portion of the connecting face portion 23 is provided with a movable contact portion 25 in contact with the fixed contact portion 13. That is, it is preferable to understand that the connecting plate portion 21 includes the connecting face portion 23 and the movable contact portion 25 provided on the front end side thereof. At this time, the connecting face portion 23 is preferably formed of a conductive metal material that provides elastic recovery force so that the movable contact portion 25 is in contact with the fixed contact portion 13 so as to be electrically connected, but selectively spaced apart.

In addition, the extended plate portion 22 has a rear end portion in contact with the rear end portion of the connecting plate portion 21, but an extended facing portion 24 is formed in the front end portion which is bent in an upward direction crossing the connecting plate portion 21. Can be. Here, the rear end portion of the connecting face portion 23 and the rear end portion of the extended face portion 24 overlap, but are fixed to the housing portion 10 through screws. The extension plate portion 22 is formed of a conductive metal material, like the connecting face portion 23, and is electrically connected to the load output portion 12 through an electric wire 15. Therefore, when the front end portion of the connecting plate portion 21 is pressed downward, the fixed contact portion 13 and the movable contact portion 25 contact, and the power input unit 11, the connecting plate portion 21, and the extension A current flows through the plate portion 22, the electric wire 15 and the load output portion 12.

Here, it is preferable that the connecting face portion 23 and the extending face portion 24 are formed of a metal material that has conductivity while being magnetized through a current. At this time, the extended facing portion 24 may be formed as a bimetal having a different coefficient of thermal expansion at the front and rear sides, while being magnetized. That is, when the temperature of the extension plate portion 22 is increased due to the current resistance heat through the overcurrent, the extension face portion 24 may be formed to be bent toward the rear side having a low coefficient of thermal expansion. At this time, when the extended facing portion 24 is bent, the trip portion 40 is tripped to separate the fixed contact portion 13 and the movable contact portion 25, thereby blocking current flow.

Meanwhile, the crossbar 30 is provided to press the front end portion of the connecting plate portion 21 downward. Here, the crossbar 30 is provided on the front end side of the connecting plate portion 21, and a transit portion 31 is formed so as to cross the front end portion of the connecting plate portion 21. At this time, it is preferable to understand that the front end portion of the connecting plate portion 21 is substantially pressed as the front end portion of the connecting face portion 23 is pressed. The crossbar 30 is pressurized to the lower side by the pressing force applied from the upper side, but supported by the upper side through the elastic means 33 provided in the lower portion.

In detail, in the normal state, the force to which the crossbar 30 is pressed downward acts more than the elastic force of the elastic means 33. Therefore, the state in which the crossbar 30 is pressed downward is maintained, and the elastic means 33 is compressed. And, the front end portion of the connecting plate portion 21 disposed across the light oil portion 31 is bent and pressed downward. Through this, the movable contact portion 25 is in contact with the fixed contact portion 13. At this time, when the overcurrent occurs or the force pressing the crossbar 30 is lost through the manipulation of the handle part 760, the crossbar 30 is moved upward through the elastic restoring force of the elastic means 33. At the same time, since the pressing force used to press the connecting plate portion 21 is lost, the movable contact portion 25 is spaced apart from the fixed contact portion 13 while the connecting facing portion 23 is extended through the elastic restoration force.

On the other hand, the trip portion 40 is disposed opposite to the rear side of the extended facing portion 24, and is provided to be rotated back and forth around a rotating end formed at the lower end. At this time, the inclined step 1 is protruded forward on the front portion of the trip unit 40. In addition, the latch portion 50 has a front end portion 50a facing the upper surface of the crossbar 30 and a rear end portion 50b extending to a length facing the front portion of the trip portion 40. At this time, the rear end portion 50b of the latch portion 50 is formed to be in contact with or adjacent to the inclined step 1.

In addition, the handle portion 760 is hinged to the handle mounting portion 16 fixed to the housing portion 10 and coupled to be rotated back and forth, and moves up and down to press the latch portion 50 downwardly according to the rotation direction. The pressing member 761 is connected to the lower end. At this time, the rotational direction means that the movable contact portion 25 and the fixed contact portion 13 are operated in contact, and the movable contact portion 25 and the fixed contact portion 13 are operated apart from each other. It is desirable to understand that it covers the blocking direction. Hereinafter, the connection direction will be described and illustrated in the direction of rotation to the front, and the blocking direction will be described and illustrated in the direction of rotation to the rear.

In detail, the pressing member 761 is moved downward while the handle portion 760 is rotated in the connection direction. At this time, the pressing member 761 is hinged to the elevating connecting portion formed at the center side of the latch portion 50. Therefore, when the pressing member 761 is moved downward, the latch portion 50 is moved in conjunction, but the rear end portion 50b of the latch portion 50 is supported in surface contact with the inclined upper surface of the inclined step 1. . Then, while the rear end portion 50b of the latch portion 50 is supported by the inclined stepped portion 1, the front end portion 50a is rotated downward to contact the latch pressing portion 32 and the crossbar 30. By pressing, the fixed contact portion 13 and the movable contact portion 25 are contact-connected.

On the other hand, the handle portion 760 is the extended portion 24 provided as a bimetal presses the trip portion 40, the trip portion 40 is retracted around the rotating end portion and the latch portion ( When the restraining force that supported the pressure 50 is lost, it is rotated in the blocking direction through the elastic restoring force of the return means 762 provided on one side. At this time, the return means 762 may be provided with a torsion spring or plate spring. In addition, the pressing member 761 hinged to the lower end of the handle portion 760 is moved upward, and the latch portion 50 can be completely separated from the crossbar 30 and the trip portion 40.

At this time, when the handle portion 760 is rotated in the connection direction so that the current is reconnected, the pressing member 761 is moved downward, but the rear end portion 50b of the latch portion 50 moves toward the inclined stepped side 1 It is supported to move and contact back to its upper surface. Then, when the pressing force of the pressing member 761 is continuously transmitted while the rear end portion 50b of the latch portion 50 is supported, the front end portion 50a of the latch portion 50 is moved downward. At this time, as the front end of the latch portion 50 is contacted and the pressing force is transmitted to the lower side of the latch pressing portion 32, the connecting plate portion 21 is pressed downward and the movable contact portion 25 and the fixed portion The contact portion 13 is manipulated to contact again.

In addition, a return means for returning the rotation angle of the trip unit 40 is further provided on the rotation end side. Therefore, after the rear end portion 50b of the latch portion 50 is rotated in the rear direction so as to be spaced apart from the inclined step 1, the position is immediately returned through the return means.

On the other hand, in the temperature sensing bimetal 770, a fixed end 771 is fixed to the handle part 760, but a free end 772 is exposed to the outside of the handle part 760 to be fixed to the housing part 10. It is preferred that it is disposed opposite the front of the handle mounting portion 16. At this time, the temperature-sensing bimetal 770 is preferably understood that the fixed end 771 and the free end 772 are formed integrally with each other.

In addition, the temperature detection bimetal 770 is the free end 772, based on the fixed end 771 when the ambient temperature of the housing portion 10 rises above a predetermined safety temperature or more as the bending deforms backwards When the pressing member 761 is rotated by pressing the handle mounting portion 616, the pressure of the latch portion 50 is released so that the rear surface has a lower thermal expansion than the front side so that the connecting plate portion 21 is spaced apart from the power input portion 11. It is formed as a coefficient. At this time, the ambient temperature of the housing part 10 is preferably understood as a concept encompassing the air temperature inside the housing part 10 and the temperature of each component disposed inside the housing part 10.

At this time, the temperature-sensing bimetal 770 is deformed backward by a thermal expansion coefficient based on the fixed end 771 when the ambient temperature of the housing portion 10 rises above a preset safety temperature, and the handle mounting portion 16 To pressurize), when the ambient temperature of the housing portion 10 is less than a predetermined safety temperature, it is formed in the form of a straight plate, and the free end 772 is a front edge of the handle mounting portion 16, preferably an upper front. It is disposed in close contact with the side inclined surface 16c.

For example, the temperature-sensing bimetal 770 may be provided by placing a flat plate made of copper on the front side and a flat plate made of iron having a lower coefficient of thermal expansion than that of the copper material, and bonding to each other. Accordingly, when the ambient temperature of the housing portion 10 rises above a predetermined safety temperature, the fixed end 771 of the temperature-sensing bimetal 770 is fixed to the handle portion 760, the free end 772 ) May be deformed thermally.

At this time, the predetermined safety temperature may be set to 70 ~ 100 ℃, most preferably 80 ℃. That is, as the temperature sensing bimetal 770 is flexibly deformed when the ambient temperature of the housing portion 10 rises, not the temperature rise due to the overcurrent, the connecting plate portion 21 will be separated from the power input portion 11. Can.

That is, the temperature sensing bimetal 770 operates independently of the extended facing portion 24 formed as a bimetal to block current flow when overcurrent occurs, and when the ambient temperature of the housing portion 10 rises above a predetermined safety temperature It is a device that blocks current flow.

On the other hand, the handle portion 760 is preferably provided with a hinge connection portion 765 that is hinged to the upper portion of the handle mounting portion 616 in the central portion. And, the handle of the handle portion 760 is disposed above the hinge connection portion 765, the temperature sensing bimetal 770 is preferably disposed below the hinge connection portion 765. At this time, the temperature sensing bimetal 770 may be disposed between the lower side of the hinge connecting portion 765 and the upper side of the pressing member 761 connected to the lower end portion of the handle portion 760.

Accordingly, when the free end 772 is deformed backwards and the handle mounting portion 616 is pressed in the rear direction, the handle portion 760 may be rotated in the blocking direction around the hinge connection portion 765.

Further, it is preferable that the insertion hole 763 is formed through the width direction at a position opposite to the front of the handle mounting portion 16 in a state rotated in the connection direction below the handle portion 760. At this time, the contour of the inner surface of the insertion hole 763 is formed to correspond to the contour of the outer surface of the temperature-sensing bimetal 770, and is preferably formed in the form of a rectangular cross section.

And, the temperature sensing bimetal 770 is preferably provided with a length exceeding the width of the handle portion 760 is preferably inserted through the insertion hole 763. Here, in the temperature sensing bimetal 770, the fixed end 771 is fixed to one side of the handle portion 760, but the free end 772 is disposed exposed to the other side so as to face the front side of the handle mounting portion 16. It is preferably arranged.

In detail, the temperature-sensing bimetal 770 is bent from the end of the fixed end 771, the inner surface is in contact with one surface of the handle portion 760, and the coupling hole 771b is formed with a bending coupling portion 771a formed therethrough. It may be provided.

In addition, a bolt fastening groove 764 may be recessed on one surface of the handle portion 760 to align the coupling hole 771b. At this time, it is preferable that the gap between the insertion hole 763 and the bolt fastening groove 764 is set corresponding to the gap between the fixed end 771 and the coupling hole 771b.

In addition, the breaker 800 may further include a fastening member 773 that is inserted and fastened through the coupling hole 771b and the bolt fastening groove 764. At this time, the fastening member 773 may be provided as a bolt having a fastening screw thread formed on its outer surface, and threads may be formed on each inner circumference of the coupling hole 771b and the bolt fastening groove 764.

Meanwhile, the free end 772 of the temperature-sensing bimetal 770 is preferably disposed close to the front edge of the handle mounting portion 16. At this time, most preferably, when the handle portion 760 is rotated in the connection direction, the rear surface of the free end 772 may be disposed in contact with the upper front side inclined surface 16c of the handle mounting portion 16. have.

Here, the length of the temperature sensing bimetal 770 may be provided corresponding to the length between the front edge of the handle mounting portion 16 disposed on the other side of the handle portion 760 from one side of the handle portion 760. have. In addition, the free end 772 is provided to maintain a linear flat plate shape when the ambient temperature of the housing portion 10 is less than a preset safety temperature.

In addition, the free end 772 is deformed backward by a thermal expansion coefficient based on the fixed end 771 when the ambient temperature of the housing portion 10 rises above a predetermined safety temperature, and the handle mounting portion 16 It is preferred to pressurize.

In addition, the rotation angle of the free end 772 is based on the initial position before the bending deformation of the free end 772 and the fixed end 771, the pressing member 761 of the link reference operating line (k) It is preferably set to move from the rear side to the front side. At this time, the link reference operation line (k) means a virtual reference line connecting the lower end of the pressing member 761 that presses the latch part 50 downward and the hinge connection part of the handle part 760.

In detail, referring to FIG. 3, when the ambient temperature of the housing part 10 is less than a predetermined safety temperature while the handle part 760 is rotated in the connection direction, a free end 772 of the temperature sensing bimetal 770 ) Is maintained in the form of a straight flat plate, so that the fixed contact portion 13 and the movable contact portion 25 are in contact with each other. In addition, the upper end of the pressing member 761 is disposed to the rear side of the link reference operation line (k). In addition, the rear end of the free end 772 may be disposed in contact with the upper front side inclined surface 16c of the handle mounting portion 16 without pressing the handle mounting portion 16.

In addition, referring to FIG. 4, when the ambient temperature of the housing part 10 is equal to or greater than a predetermined safety temperature while the handle part 760 is rotated in the connection direction, a free end 772 of the temperature sensing bimetal 770 ) Is thermally deformed backwards based on the fixed end 771 by the thermal expansion coefficient to press the upper front inclined surface 16c of the handle mounting portion 16 backward. Accordingly, as the handle portion 760 is rotated in the blocking direction around the hinge connection portion 765, the pressing member 761 connected to the lower end portion of the handle portion 760 is moved forwardly.

Subsequently, referring to FIGS. 4 and 5, the moment the upper end of the pressing member 761 passes to the front side of the link reference operating line k, the pressing member (through the elastic restoring force of the returning means 762) 761) the pressure is released quickly and the latch portion 50 is moved upward and the handle portion 760 is instantaneously rotated in the blocking direction, the cross bar 30 by the elastic means 33 Elastically restored upward, the fixed contact portion 13 and the movable contact portion 25 are separated.

That is, since the free end 772 directly presses the handle mounting portion 16, the current flow is quickly blocked as the handle portion 760 and the pressing member 761 connected to it are rotated in the blocking direction. , When the trip portion 40 is retracted around the rotating end portion, the blocking speed may be significantly increased than when the binding force for supporting the latch portion 50 is released.

Accordingly, the handle portion 760 is rotated in the blocking direction through the elastic restoring force of the return means, the pressing member 761 hinged to the lower end of the handle portion 760 is moved upward, the pressing member ( The latch portion 50 interlocked with the 761 may be moved upward from the crossbar 30 and the trip portion 40 to be completely separated.

Through this, when the pressing force to the lower side of the crossbar 30 by the latch portion 50 is released, the connecting plate portion 23 is moved upward so that the fixed contact portion 13 and the movable contact portion 25 are Are separated from each other.

That is, when the ambient temperature of the housing portion 10 is greater than or equal to the preset safety temperature, the free end 772 of the temperature-sensing bimetal 770 directly presses the pressing member 761 and the fixed contact portion 13 Since the movable contact portions 25 are separated from each other, current flow is blocked, and the circuit breaker 800 is quickly switched from an on state to an off state.

At this time, even if the user arbitrarily rotates the handle portion 760 in the connection direction, the upper front side inclined surface 16c of the handle mounting portion 16 is jammed by the free end 772 deformed backward and deflected, so that the pressure is applied. Since the upper end of the member 761 passes from the front side to the rear side of the link reference operating line (k) and does not press down the latch portion 50, the downward pressing of the crossbar 30 is blocked in advance. The contact portion 13 and the movable contact portion 25 are kept separated from each other.

Then, when the ambient temperature of the housing portion 10 is lowered from above the preset safety temperature to less than the preset safety temperature, the temperature sensing bimetal 770 in the backward deformed state is restored to the initial state in a straight line, the The off state of the circuit breaker 800 separated from the fixed contact portion 13 and the movable contact portion 25 is maintained.

That is, when the handle unit 760 is rotated in the blocking direction so that the breaker 800 is in an off state, the fixed contact portion 13 and the movable contact portion (regardless of the ambient temperature of the housing portion 10) 25) are separated from each other.

On the other hand, with reference to Figure 6 to describe the assembly process of the temperature-sensing bimetal 770, the free end 772 of the temperature-sensing bimetal 770 is the insertion hole 763 from the outside of one direction of the handle portion 760 ) Is inserted through the end is disposed exposed to the other side of the handle portion 760.

At the same time, the inner surface of the bent coupling portion 771a is in close contact with one surface of the handle portion 760, but the coupling hole 771b and the bolt fastening groove 764 are aligned with each other so that the fastening member 773 is fastened. As it becomes, the temperature sensing bimetal 770 may be fixed to the handle part 760.

As such, a fixed end 771 is fixed to the handle part 760 in the trip bar-hanging temperature sensing breaker 800 according to the present invention, but the free end 772 is exposed to the outside of the handle part 760. The temperature-sensing bimetal 770 is disposed opposite to the front of the handle mounting portion 16 fixed to the housing 10 and the rear side has a lower coefficient of thermal expansion than the front. Through this, when the ambient temperature of the housing portion 10 rises above a predetermined safety temperature, the free end 772 is flexibly deformed backwards based on the fixed end 771, so that the connecting plate part 21 inputs the power. Spaced apart from the negative (11) to block the current flow.

Accordingly, when the ambient temperature of the housing portion 10 rises above a preset safety temperature, the free end 772 is moved backwards based on the fixed end 771 of the temperature sensing bimetal 770 fixed to the handle part 760. When the handle mounting portion 16 is pressed as the bending heat deforms, the latch portion 50 is released as the handle portion 760 and the pressing member 761 are interlocked to rotate, so that the connecting plate portion 21 is the power source. Since it is separated from the input unit 11, it is possible to prevent a secondary safety accident by automatically blocking the current flow in the event of a fire. Through this, the safety of use of the product can be significantly improved.

In addition, when the ambient temperature is greater than a predetermined safety temperature, the free end of the temperature sensing bimetal 770 is deformed backwards from a straight shape to directly press the handle mounting portion 16 to directly connect the handle portion 760 and the link connected thereto. As the pressing member 761 is rotated in the blocking direction, the current flow is quickly blocked, so that the pressure of the crossbar 30 is released by the departure of the latch part 50 to block the current by blocking the current. ) The current blocking speed may be significantly increased when compared to the trip operation due to retreat. That is, the time required to retract the trip unit 40 may be shortened.

In addition, the handle portion 760 is blocked while the rotational angle of the free end 772 is set to exceed the link reference operating line k of the pressing member 761 and the ambient temperature is higher than a preset safety temperature. Even if it is arbitrarily rotated in the connection direction, since the handle mounting portion 16 is caught by the free end 772 deformed backwards and the latch portion 50 is not pressed downward, the downward pressure of the crossbar 30 is unforeseen. As it is blocked, the fixed contact portion 13 and the movable contact portion 25 are kept separated from each other. Through this, the safety of use can be significantly improved.

In addition, the free end 772 of the temperature-sensing bimetal 770 is inserted through the insertion hole 763 and exposed, so that the fixed end 771 is handled while facing the front of the handle mounting portion 16. Since it is fixed to one side of the part 760 and is firmly fixed when the forward bending of the free end 772 is deformed, operation precision can be remarkably improved.

In addition, the free end 772 of the temperature-sensing bimetal 770 is inserted through the insertion hole 763 of the handle part 760, and the bent coupling part 771a extending from the fixed end 771 is bent. A simple assembly structure in which the temperature sensing bimetal 770 is bolted to the handle portion 760 in contact with one surface of the handle portion 760 can significantly improve assembly and productivity.

At this time, the terms "include", "compose", "have" or "have" as described above mean that the corresponding component can be intrinsic, unless otherwise stated. It should be construed that other components may be included rather than excluded. All terms, including technical or scientific terms, have the same meaning as generally understood by a person skilled in the art to which the present invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted as being consistent with the contextual meaning of the related art, and are not to be interpreted as ideal or excessively formal meanings unless explicitly defined in the present invention.

As described above, the present invention is not limited to each of the above-described embodiments, and it is possible to be modified by a person skilled 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.

800: Insert type temperature sensing circuit breaker
10: housing part 16: handle mounting part
20: movable switching unit 30: crossbar
40: trip unit 50: latch unit
760: handle portion 761: pressing member
762: return means 763: insertion hole
764: Bolting groove 770: Temperature sensing bimetal
771: fixed end 771a: bending joint
772b: Coupling hole 772: Free end
773: fastening member

Claims (5)

A housing unit provided with a power input unit and a load output unit spaced apart at the front and rear sides;
It is arranged for selective power connection between the power input unit and the load output unit, and is provided with a connecting plate portion formed with an extended face portion providing contact point resilience upwardly so as to be selectively spaced apart from the power input unit at the front end. Movable switching unit;
A crossbar formed on one side via an opening through which the front end side of the movable switching unit crosses, but supported by an elastic means provided at the lower end, to be supported upwards;
A trip portion disposed opposite to the rear side of the movable switching portion and rotated back and forth around the lower portion, wherein an inclined step is protruded forward;
A front end portion facing the upper surface of the crossbar, but a rear end portion in contact with the upper surface of the inclined step so that the power input portion and the movable switching portion are in contact with each other; a latch portion for pressing the crossbar downward;
A handle part coupled to the housing part to be rotated back and forth, and a pressing member moved upward and downward to press the latch part downwardly according to a rotation direction; And
A fixed end is fixed to the handle part, and a free end exposed to the outside of the handle part is disposed opposite the front of the handle mounting part fixed to the housing part, and fixed when the ambient temperature of the housing part rises above a preset safety temperature. When the free end is flexibly deformed backwards based on the end, and the pressure is rotated by pressing the handle mounting portion, the pressure of the latch is released so that the rear surface has a lower coefficient of thermal expansion than the front side so that the connecting plate is separated from the power input unit. The formed temperature-sensing bimetal,
In the lower portion of the handle portion, an insertion hole is formed in a width direction at a position facing the front of the handle mounting portion,
The temperature-sensing bimetal is provided with a length exceeding the width of the handle portion, the fixed end is fixed to one side of the handle portion, the free end is inserted through the insertion hole and is exposed to the other side of the handle portion, and the handle Insert type temperature sensing circuit breaker, characterized in that it is disposed opposite the front of the mounting portion. According to claim 1,
When the ambient temperature of the housing part rises above a predetermined safety temperature, the temperature-sensing bimetal is deflected backward by a thermal expansion coefficient based on the fixed end to pressurize the handle mounting part, so that the ambient temperature of the housing part is a preset safety temperature. If less than, it is formed in the form of a straight plate,
The free end is a handle type insert type temperature sensing circuit breaker, characterized in that it is disposed close to the front edge of the handle mounting portion. delete According to claim 1,
The temperature-sensing bimetal is bent from the end of the fixed end and is in contact with one surface of the handle portion, and is provided with a bending coupling portion through which a coupling hole is formed,
A bolt fastening groove is recessed so that the engaging hole is aligned on one surface of the handle portion, and an interval between the insertion hole and the bolt fastening groove is set corresponding to the distance between the fixed end and the engaging hole,
A handle part insert type temperature sensing circuit breaker further comprising a fastening member inserted through the coupling hole and the bolt fastening groove and fastened. According to claim 1,
The handle portion is provided with a hinge connection portion that is hinged to the upper portion of the handle mounting portion in the central portion,
The temperature sensing bimetal is a handle type insert type temperature sensing circuit breaker, characterized in that disposed between the lower side of the hinge connection portion and the upper side of the pressing member.

Images