CN109599303B - Small-sized circuit breaker - Google Patents

Abstract

The invention relates to the field of piezoelectric devices, in particular to a small-sized circuit breaker, which comprises a button mechanism, a circuit breaker shell, an operating mechanism, a short-circuit protection mechanism, an arc extinguishing mechanism, an overload protection mechanism, a moving contact and a fixed contact, wherein the button mechanism is arranged on the circuit breaker shell; the button mechanism is in driving connection with the operating mechanism, the operating mechanism is connected with the moving contact, the moving contact is matched with the fixed contact, and the short-circuit protection mechanism and the overload protection mechanism are respectively in driving fit with the operating mechanism; the button mechanism is arranged at one end of the circuit breaker shell, the short-circuit protection mechanism and the arc extinguishing mechanism are arranged at the other end of the circuit breaker shell, the operating mechanism is arranged between the button mechanism and the short-circuit protection mechanism, and the overload protection mechanism is arranged at one side of the operating mechanism and is positioned between the arc extinguishing mechanism and the button mechanism; the miniature circuit breaker is reasonable in internal layout, and the whole size of the miniature circuit breaker is obviously reduced.

Description

Small-sized circuit breaker

Technical Field

The invention relates to the field of piezoelectric devices, in particular to a miniature circuit breaker.

Background

The use of the circuit breaker can effectively improve the safety and the reliable operation of electrical equipment, and in order to meet the installation requirements of different electrical equipment, the miniature circuit breaker is used as an important type of circuit breaker, and the structure of the miniature circuit breaker is various and the whole structure of the miniature circuit breaker tends to be miniaturized. The existing miniature circuit breaker has the following problems:

1. The prior miniature circuit breaker has the appearance of a plurality of convex shapes, the operation surface and the wiring terminal surface of the miniature circuit breaker are vertically arranged, and the miniature circuit breaker is mostly connected with external wires in a screw wiring mode, so that the wiring is inconvenient, and the internal space layout of the circuit breaker shell is not compact, the space utilization is insufficient, and the miniature circuit breaker occupies a larger installation cabinet space.

2. The existing miniature circuit breakers adopting a button mechanism to perform opening/closing operations are all operated by pressing the button mechanism to perform closing operations and pulling the button mechanism to perform opening operations; when a user pulls the button mechanism to conduct opening operation, the situation that the small-sized circuit breaker is pulled out of the assembly position of the circuit breaker due to overlarge pulling force often occurs, the reliability and the working stability of the assembly of the small-sized circuit breaker are not guaranteed, and potential safety hazards exist.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a miniature circuit breaker, which has reasonable internal layout and remarkably reduces the whole volume of the miniature circuit breaker.

In order to achieve the above purpose, the invention adopts the following technical scheme:

a miniature circuit breaker comprises a button mechanism, a circuit breaker shell, an operating mechanism, a short-circuit protection mechanism, an arc extinguishing mechanism, an overload protection mechanism, a moving contact and a fixed contact; the button mechanism is in driving connection with the operating mechanism, the operating mechanism is connected with the moving contact, the moving contact is matched with the fixed contact, and the short-circuit protection mechanism and the overload protection mechanism are respectively in driving fit with the operating mechanism; the button mechanism is arranged at one end of the circuit breaker shell, the short-circuit protection mechanism and the arc extinguishing mechanism are arranged at the other end of the circuit breaker shell, the operating mechanism is arranged between the button mechanism and the short-circuit protection mechanism, and the overload protection mechanism is arranged at one side of the operating mechanism and is positioned between the arc extinguishing mechanism and the button mechanism.

Preferably, the circuit breaker further comprises a wire outlet end and a wire inlet end, wherein the wire outlet end is positioned on one side of the button mechanism 1, the wire outlet end and the button mechanism are positioned on the same end of the circuit breaker shell, the wire inlet end, the short-circuit protection mechanism and the arc extinguishing mechanism are positioned on the other end of the circuit breaker shell, the short-circuit protection mechanism and the arc extinguishing mechanism are arranged side by side and positioned between the wire inlet end and the operating mechanism, and the wire inlet end is a plug-in type wiring terminal.

Preferably, the operating mechanism comprises a transmission part, a second connecting rod, a locking piece, a supporting part and a jump piece, wherein the button mechanism is in driving connection with the transmission part through the first connecting rod, the transmission part and the supporting part are respectively and pivotally arranged on the circuit breaker shell, the locking piece and the jump piece are both and pivotally arranged on the supporting part, the transmission part is in driving connection with the locking piece through the second connecting rod, the locking piece is in locking fit with the jump piece, and the supporting part is connected with the moving contact; the jump fastener comprises a jump fastener first arm, a jump fastener second arm and a jump fastener third arm, wherein the jump fastener first arm is in locking fit with the locking piece, the jump fastener second arm is in driving fit with the overload protection mechanism, the jump fastener third arm is in driving fit with the short circuit protection mechanism, and when short circuit current or overload occurs, the overload protection mechanism or the short circuit protection mechanism enables the jump fastener to be in locking fit with the locking piece through touching the jump fastener second arm or the jump fastener third arm.

Preferably, the jump fastener is of a' shape structure, the second arm of the jump fastener and the third arm of the jump fastener are positioned on the same straight line, and the first arm of the jump fastener is positioned between the second arm of the jump fastener and the third arm of the jump fastener and is vertical to the straight line where the second arm of the jump fastener and the third arm of the jump fastener are positioned; the jump fastener also comprises a jump fastener extension part, one end of the jump fastener extension part is connected with the jump fastener second arm, and after the free end of the jump fastener extension part is touched, the jump fastener rotates to unlock with the lock fastener.

Preferably, the operating mechanism further comprises a brake release rod, the brake release rod comprises a brake release rod connecting end and a brake release rod driving end, the brake release rod connecting end is connected with the button mechanism, and the brake release rod driving end is in driving fit with the trip fastener of the operating mechanism; when the miniature circuit breaker is in a closing state, the button mechanism is pressed, the driving end of the brake separating rod drives the operating mechanism to act, and the operating mechanism drives the moving contact to be disconnected with the fixed contact.

Preferably, the operating mechanism further comprises a button mechanism resetting piece, a guide boss and a guide groove group, wherein the guide boss and the guide groove group are matched with the brake separating rod and are arranged on the breaker shell; the guide groove group comprises a first guide groove, a second guide groove, a third guide groove, a fourth guide groove and a fifth guide groove, and the first guide groove, the second guide groove, the third guide groove, the fourth guide groove and the fifth guide groove are connected end to form an annular guide groove group surrounding the guide boss;

When the miniature circuit breaker is in a switching-off state, the button mechanism is pressed, the switching-off rod driving end of the switching-off rod passes through the first guide groove and the second guide groove to enter the third guide groove, the miniature circuit breaker enters a switching-on state, the button mechanism is released, the button mechanism reset piece drives the switching-off rod driving end to enter the fourth guide groove from the third guide groove through the button mechanism, and the switching-off rod driving end is in limit fit with the guide boss; the button mechanism is pressed again, the button mechanism drives the operating mechanism to act through the driving end of the switch-off lever, the operating mechanism drives the button mechanism to reset, the button mechanism drives the driving end of the switch-off lever to enter the first guide groove through the fifth guide groove from the fourth guide groove, and the miniature circuit breaker enters the switch-off state.

Preferably, the overload protection mechanism comprises a bimetallic strip in driving engagement with the operating mechanism and an adjusting screw for adjusting the bimetallic strip.

Preferably, the miniature circuit breaker further comprises a closing prevention mechanism, the closing prevention mechanism comprises a first locking piece, the first locking piece is pivotally arranged on the circuit breaker shell, the first locking piece is in locking fit with the button mechanism or the operating mechanism, the button mechanism is prevented from moving towards the closing direction or being operated to close, and after the external force acts on the closing prevention mechanism to enable the first locking piece to be unlocked and matched with the button mechanism or the operating mechanism, the button mechanism can drive the operating mechanism to conduct closing operation.

Preferably, the miniature circuit breaker further comprises a locking mechanism, the locking mechanism comprises a second locking piece, the second locking piece is pivotally arranged on a circuit breaker shell, the circuit breaker shell comprises a second opening arranged on one side of the second locking piece, one end of the second locking piece is in driving fit with the button mechanism, and the other end of the second locking piece penetrates through the second opening and is in limiting fit with the shell of the circuit breaker assembly position; when the button mechanism is pulled towards the outside of the circuit breaker shell, the button mechanism drives the second locking piece, so that the second locking piece is in limit fit with the shell at the assembling position of the circuit breaker.

Preferably, the wire outlet end comprises a conductive plate and an elastic piece, the conductive plate is fixedly arranged on the circuit breaker shell, the elastic piece comprises an elastic piece fixing end and an elastic piece wire pressing end, the elastic piece fixing end is fixedly arranged on the circuit breaker shell, the elastic piece wire pressing end is in elastic contact with the conductive plate, and an external conductive wire is inserted between the elastic piece wire pressing end and the conductive plate and is pressed by the elastic piece wire pressing end and the conductive plate.

Preferably, the circuit breaker shell further comprises a wire plugging hole and a wire disconnecting hole which are arranged on one side of the circuit breaker shell, and the wire plugging hole and the wire disconnecting hole are respectively arranged corresponding to the wire pressing end of the elastic piece; the external lead passes through the plug wire hole and is inserted between the elastic piece wire pressing end and the conductive plate, and pressure is applied to the elastic piece wire pressing end through the wire removing hole, so that the elastic piece wire pressing end is separated from the external lead, and the external lead can be pulled out from the plug wire hole.

The internal space of the breaker shell of the miniature breaker is reasonably planned and distributed, so that the reasonable layout and organic coordination of all mechanisms or components are ensured, the space of the breaker shell is fully utilized, the whole size of the miniature breaker is reduced, the miniature breaker is suitable for the miniaturization development trend of electrical equipment, and the installation space requirement of the breaker is reduced. In addition, the wire outlet end and the button mechanism are located at the same end of the circuit breaker shell, so that a user can conveniently wire and disconnect the circuit breaker, the wire inlet end is a plug-in type wiring terminal, the circuit breaker is convenient to connect with a main circuit, no matter the wire inlet wiring is carried out, or the wire outlet wiring is carried out, the installation cabinet for installing the circuit breaker is not required to be detached, the wiring convenience is remarkably improved, and the operation safety is improved.

Drawings

Fig. 1 is a schematic structural view of a miniature circuit breaker of the present invention;

fig. 2 is a schematic structural view of the miniature circuit breaker of the present invention showing the assembled relationship of the locking mechanism to the circuit breaker housing;

FIG. 3 is a schematic view of the assembled structure of the push button mechanism and locking mechanism of the present invention;

fig. 4 is a schematic structural view of the miniature circuit breaker of the present invention, showing the assembled relationship of the anti-closing mechanism and the circuit breaker housing;

FIG. 5 is a schematic diagram of the assembled structure of the push button mechanism and the anti-closing mechanism of the present invention;

FIG. 6 is a schematic view of the assembled structure of the push button mechanism and operating mechanism of the present invention;

fig. 7 is a schematic structural view of the portion a of fig. 6, showing a positional relationship between a breaking bar, a guide boss, and a guide groove group in a breaking state of the circuit breaker according to the present invention;

FIG. 8 is a schematic view of the operating mechanism of the present invention;

fig. 9 is a schematic structural view of the portion B of fig. 8 of the present invention, showing a positional relationship between a breaking bar, a guide boss, and a guide groove group in a closing state of the circuit breaker;

FIG. 10 is a schematic view of the motion trajectory of the brake release lever in the guide slot set of the present invention;

fig. 11 is a schematic structural view of the miniature circuit breaker of the present invention, showing the positional relationship of the wire insertion hole, the wire outlet terminal and the second shutter;

fig. 12 is a schematic view of the assembled structure of the first shutter, the linkage, the button mechanism and the breaker housing of the present invention;

fig. 13 is a schematic structural view of the circuit breaker housing of the present invention, showing an assembled position of the second transmission rod;

FIG. 14 is a schematic view of the structure of the indicating device of the present invention;

FIG. 15 is a schematic view of an exploded construction of the indicating device of the present invention;

FIG. 16 is a schematic view of the structure of the indicating device of the present invention showing the assembled relationship of the indicating device return member to the first barrier;

FIG. 17 is a schematic view of the structure of the indicating device of the present invention showing the assembled relationship of the linkage member and the indicating device return member;

fig. 18 is a schematic structural view of the circuit breaker housing of the present invention, showing various openings of the circuit breaker housing;

FIG. 19 is a schematic view of the operating mechanism of the present invention;

fig. 20 is a schematic structural view of the circuit breaker housing of the present invention, which shows a structure of installing the guide positioning step.

Detailed Description

Embodiments of the miniature circuit breaker of the present invention are further described below in conjunction with the examples presented in fig. 1-19. The miniature circuit breaker of the present invention is not limited to the description of the following embodiments.

The miniature circuit breaker comprises a circuit breaker shell 2, a button mechanism 1 arranged on the circuit breaker shell 2 and in sliding fit with the circuit breaker shell, and an operating mechanism 5, a moving contact 56, a fixed contact 560, a short-circuit protection mechanism 6, an arc extinguishing mechanism 7 and an overload protection mechanism 9 which are arranged in the circuit breaker shell 2; the button mechanism 1 is in driving connection with the operating mechanism 5 through a first connecting rod 1050, the operating mechanism 5 is connected with the moving contact 56, the short-circuit protection mechanism 6 and the overload protection mechanism 9 are respectively in driving fit with the operating mechanism 5, the circuit breaker is triggered to trip when corresponding faults occur, and the arc extinguishing mechanism 7 is matched with the moving contact 56 and the fixed contact 560.

Preferably, the short-circuit protection mechanism 6 comprises an electromagnetic release, and the overload protection mechanism 9 comprises a bimetallic strip and an adjusting screw.

Preferably, as shown in fig. 1, the button mechanism 1 is disposed at one end of the circuit breaker housing 2, the short-circuit protection mechanism 6 and the arc extinguishing mechanism 7 are disposed at the other end of the circuit breaker housing 2, the operation mechanism 5 is disposed between the button mechanism 1 and the short-circuit protection mechanism 6, and the overload protection mechanism 9 is disposed at one side of the operation mechanism 5 and is located between the arc extinguishing mechanism 7 and the button mechanism 1. Further, as shown in fig. 1, the miniature circuit breaker of the present invention further includes a wire outlet end 100 and a wire inlet end 8, the wire outlet end 100 is disposed at one side of the button mechanism 1, the wire outlet end 100 and the button mechanism 1 are disposed at the same end of the circuit breaker housing 2, the wire inlet end 8 is disposed at one side of the short-circuit protection mechanism 6 and the arc extinguishing mechanism 7, and the wire inlet end 8, the short-circuit protection mechanism 6 and the arc extinguishing mechanism 7 are disposed at the same end of the circuit breaker housing 2; the wire inlet end 8 is a plug-in type wiring terminal. Specifically, as shown in the direction of fig. 1, the button mechanism 1 and the wire outlet end 100 are located at the upper end of the circuit breaker housing 2, the wire outlet end 100 is located at the left side of the button mechanism 1, the operating mechanism 5 and the overload protection mechanism 9 are located at the middle part of the circuit breaker housing 2, the overload protection mechanism 9 is located at the left side of the operating mechanism 5, the short-circuit protection mechanism 6, the arc extinguishing mechanism 7 and the wire inlet end 8 are located at the lower end of the circuit breaker housing 2, and the wire inlet end 8 is located at the lower sides of the short-circuit protection mechanism 6 and the arc extinguishing mechanism 7. Therefore, the small-sized circuit breaker disclosed by the invention has the advantages that the reasonable planning and distribution of the circuit breaker shell 2 are ensured, the reasonable layout and organic cooperation of all mechanisms or components are ensured, the space of the circuit breaker shell 2 is fully utilized, the whole size of the small-sized circuit breaker is favorably reduced, the small-sized circuit breaker is suitable for the miniaturization development trend of electrical equipment, and the installation space requirement of the circuit breaker is reduced. Moreover, the wire outlet end 100 and the button mechanism 1 are positioned at the same end of the circuit breaker shell 2, so that a user can conveniently wire and disconnect the circuit breaker, the wire inlet end 8 is a plug-in type wiring terminal, the circuit breaker is convenient to connect with a main circuit, no matter the wire inlet wiring is carried out, or the wire outlet wiring is carried out, the installation cabinet for installing the circuit breaker is not required to be disassembled, the wiring convenience is remarkably improved, and the operation safety is improved.

Preferably, as shown in fig. 4 and 5, the miniature circuit breaker of the present invention further comprises a closing prevention mechanism, wherein the button mechanism 1 is arranged at one end of the circuit breaker housing 2 and is in sliding fit with the circuit breaker housing, the closing prevention mechanism comprises a first locking piece 3, the first locking piece 3 is pivotally arranged on the circuit breaker housing 2, one end of the first locking piece 3 is in locking fit with the button mechanism 1, the button mechanism 1 is blocked from moving towards the closing direction, after the miniature circuit breaker is assembled to the circuit breaker assembling position and is assembled in place, the housing of the circuit breaker assembling position acts on the first locking piece 3, so that after the first locking piece 3 is in locking fit with the button mechanism 1, the button mechanism 1 can move towards the closing direction to perform closing operation. The anti-closing mechanism ensures that closing operation can be performed only after the miniature circuit breaker is installed in place, avoids the condition that the circuit breaker cannot normally work due to poor contact caused by the fact that the miniature circuit breaker is not installed in place, also avoids virtual contact between the miniature circuit breaker and the assembling position of the circuit breaker, generates electric arcs when performing closing operation, causes ablation on the circuit breaker or the assembling position of the circuit breaker, influences service life, also avoids the condition that a user gets an electric shock when operating the circuit breaker, and is beneficial to improving electricity safety.

Preferably, as shown in fig. 4 and 5, the switching-on preventing mechanism further includes a first locking spring, the first locking member 3 includes a first locking member main body 31, and a first locking member protrusion 30 and a first locking member blocking arm 32 respectively disposed at two ends of the first locking member main body 31, the first locking member main body 31 is pivotally disposed on the circuit breaker housing 2, the first locking member blocking arm 32 is connected with the first locking member main body 31 in a bending manner, and the circuit breaker housing 2 includes a first opening 203 disposed at one side thereof; the first locking spring is respectively connected with the first locking piece 3 and the breaker housing 2, so that the first locking piece blocking arm 32 is in locking fit with the button mechanism 1, and the first locking piece protrusion 30 passes through the first opening 203 to protrude outside the breaker housing 2; the miniature circuit breaker is assembled to the circuit breaker assembly position and is assembled in place, and the shell of the circuit breaker assembly position presses the first locking piece protrusion 30 to move into the circuit breaker shell 2, so that the first locking piece blocking arm 32 is in locking fit with the button mechanism 1.

It should be noted that, the locking engagement of the button mechanism 1 and the first locking member blocking arm 32 means that the button mechanism 1 cannot be moved in the closing direction (the closing direction refers to the downward direction as shown in fig. 1) after being locked, and the button mechanism 1 can be moved in the closing direction after the locking engagement is released, so that the miniature circuit breaker of the present invention can be opened/closed.

Preferably, as shown in fig. 2 and 3, the miniature circuit breaker of the present invention further comprises a locking mechanism, wherein the locking mechanism comprises a second locking piece 4, the button mechanism 1 is arranged at one end of the circuit breaker housing 2 and is in sliding fit with the same, the circuit breaker housing 2 comprises a second opening 204 arranged at one side of the circuit breaker housing, the second locking piece 4 is pivotally arranged on the circuit breaker housing 2, one end of the second locking piece 4 is in driving fit with the button mechanism 1, and the other end of the second locking piece passes through the second opening 204 to be in limiting fit with the housing at the circuit breaker assembling position; when the button mechanism 1 is pulled towards the outside of the circuit breaker housing 2, the button mechanism 1 drives the second locking piece 4 to rotate, so that the second locking piece 4 is in limit fit with the housing at the circuit breaker assembly position. And one end of the second locking piece 4 is in limit fit with the shell of the assembly position of the circuit breaker, so that the small circuit breaker is prevented from being pulled out by mistake, the stable and reliable work of the circuit breaker is ensured, and the situation that a user pulls out the circuit breaker by mistake to generate an electric shock in the closing state of the circuit breaker is avoided, thereby being beneficial to improving the electricity safety.

Preferably, as shown in fig. 2 and 3, the locking mechanism further includes a second locking spring, the second locking member 4 includes a second locking member body 41, second locking member protrusions 40 and second locking member driving arms 42 respectively disposed at two ends of the second locking member body 41, and the second locking member body 41 is pivotally disposed on the circuit breaker housing 2 and is connected with the second locking member driving arms 42 in a bending manner; the circuit breaker housing 2 includes a second opening 204 provided at one side thereof; the second locking spring is respectively connected with the second locking piece main body 41 and the circuit breaker shell 2, so that the second locking piece protrusion 40 protrudes outside the circuit breaker shell 2 through the second opening 204; after the miniature circuit breaker is assembled to the circuit breaker assembly position, the second locking member projection 40 passes through the second opening 204 to be in limited engagement with the housing of the circuit breaker assembly position. After the miniature circuit breaker is installed at the circuit breaker assembly position, the second locking piece protrusion 40 is in limit fit with the shell of the circuit breaker assembly position, so that the miniature circuit breaker is prevented from being pulled out by mistake, the stable and reliable operation of the circuit breaker is ensured, and the situation that a user pulls out the circuit breaker by mistake to generate electric shock in the circuit breaker closing state is avoided, thereby being beneficial to improving the electricity safety.

Preferably, the breaker assembly position may be a mounting cabinet for mounting the breaker.

Preferably, as shown in fig. 3 and 5, the button mechanism 1 includes a button head 10, a button body 11 and a first link 1050, wherein the button head 10 is disposed at one end of the button body 11 and protrudes outside the circuit breaker housing 2, so that a user can conveniently operate the button mechanism 1, one end of the first link 1050 is inserted into the other end of the button body 11, one end of the first locking member 3 is locked with one end of the first link 1050 inserted into the button body 11, and the second locking member 4 is in driving engagement with one end of the first link 1050 inserted into the button body 11. The first connecting rod 1050 is used as a transmission element between the button mechanism 1 and the operating mechanism 5 and is also matched with the first locking piece 3 and the second locking piece 4 respectively, so that the structure of the button mechanism 1 is simplified, and the production cost of the miniature circuit breaker is saved.

Preferably, the first locking member body 31 of the first locking member 3 and the second locking member body 41 of the second locking member 4 are pivotally disposed on the circuit breaker housing 2 through the first pivot 3040, which is beneficial to simplifying the assembly structure of the closing prevention mechanism and the locking mechanism, thereby saving the assembly space inside the circuit breaker housing 2 and facilitating the miniaturization of the miniature circuit breaker of the invention.

Preferably, the double torsion spring 3042 with the integrated structure of the first locking spring and the second locking spring includes a first end of the double torsion spring, a second end of the double torsion spring, and a third end of the double torsion spring, where the first end of the double torsion spring is connected to the first locking member body 31, the second end of the double torsion spring is connected to the second locking member body 41, and the third end of the double torsion spring is connected to the circuit breaker housing 2. The double torsion spring 3042 can be connected with the first locking piece 3, the second locking piece 4 and the circuit breaker shell 2 at the same time, which is beneficial to further simplifying the assembly structure of the closing prevention mechanism and the locking mechanism, simplifying the assembly operation and improving the assembly efficiency.

Preferably, as shown in fig. 1 and 8, the operating mechanism 5 includes a latch 53, a support 54 and a trip member 55, the support 54 is pivotally disposed on the circuit breaker housing 2, the latch 53 and the trip member 55 are pivotally disposed on the support 54, the button mechanism 1 is in driving connection with the operating mechanism 5, the latch 53 and the trip member 55 are in latching engagement, the trip member 55 is in driving engagement with the support 54, the support 54 is connected with the moving contact 56, and the support 54 is connected with the moving contact 56;

the miniature circuit breaker of the invention also comprises a brake separating rod 15, wherein the brake separating rod 15 comprises a brake separating rod connecting end and a brake separating rod driving end, the brake separating rod connecting end is connected with the button mechanism 1, and the brake separating rod driving end is in driving fit with the trip piece 55; when the miniature circuit breaker is in a switching-off state, the locking piece 53 is in locking fit with the locking piece 55, the push button mechanism 1 is pressed to drive the operating mechanism 5 to act, the operating mechanism 5 drives the moving contact 56 and the fixed contact 560 to be closed, the miniature circuit breaker enters a switching-on state, and meanwhile the switching-off rod 15 is made to slide to a position matched with the locking piece 55; the button mechanism 1 is pressed again, the driving end of the brake separating rod drives the trip piece 55 to rotate, the trip piece 55 and the latch piece 53 are released from latching fit, the operating mechanism 5 trips, the supporting piece 54 drives the moving contact 56 and the fixed contact 560 to be disconnected, the miniature circuit breaker enters a brake separating state, and meanwhile the brake separating rod 15 is reset to an initial position.

It should be noted that, the latch fit between the latch 53 and the latch 55 means that one end of the latch 53 is overlapped with the latch 55 and limits the action of the latch 55, and once the overlapping relationship between the latch 53 and the latch 55 is broken, the action of the latch 55 is no longer limited by the latch 53.

The existing miniature circuit breaker adopts a pulling button to realize the breaking operation of the circuit breaker, and the pulling mode often pulls out the circuit breaker from a cabinet due to overlarge user force, so that the assembly stability of the circuit breaker is poor, and the use experience of a user is affected.

Compared with the prior art that the opening operation of the circuit breaker is realized by adopting the pulling button mechanism, the miniature circuit breaker can avoid the situation that the circuit breaker is pulled out of a cabinet due to overlarge strength of a user when the button mechanism is pulled out, is beneficial to improving the assembly stability of the circuit breaker and improves the use experience of the user.

It should be noted that, in the miniature circuit breaker of the present invention, when the miniature circuit breaker is in a closed state, the opening operation may be achieved by pulling the button mechanism 1, and the opening rod 15 may be pulled, without affecting the pulling out of the button mechanism 1. Further, the miniature circuit breaker of the present invention may not be provided with the brake release lever 15, but the push button mechanism 1 is pulled, and the first link 1050 drives the operation mechanism 5 to rotate past the dead point to release the brake, so that the moving contact 56 and the fixed contact 560 are disconnected.

Preferably, the miniature circuit breaker of the invention further comprises an indicating device, the circuit breaker shell 2 comprises an indicating hole arranged at one side of the indicating device, the button mechanism 1 is in sliding fit with the circuit breaker shell 2, the indicating device is in driving fit with the button mechanism 1, and when the button mechanism 1 is pressed to enable the miniature circuit breaker to be closed, the button mechanism 1 drives the indicating device to shield the indicating hole. According to the small-sized circuit breaker, the indicating device can shield the indicating hole when the circuit breaker is switched on so as to indicate the switching-on state of the circuit breaker, so that a warning effect is achieved for a user, the user is prompted to avoid disconnecting and wiring the small-sized circuit breaker, and the electricity safety is remarkably improved.

Preferably, as shown in fig. 12 and 14, the circuit breaker housing 2 includes at least one wire insertion hole 208 and at least one wire removal hole 201 disposed at one side thereof, the wire insertion hole 208 and the wire removal hole 201 are used in cooperation, and the button mechanism 1, the wire removal hole 201 and the wire insertion hole 208 are located at the same end of the circuit breaker housing 2; the miniature circuit breaker also comprises an indicating device, wherein the indicating device comprises at least one baffle plate and a linkage piece 7a, the middle part of the linkage piece 7a is pivoted on the circuit breaker shell 2, one end of the linkage piece 7a is in driving connection with the button mechanism 1, and the other end of the linkage piece is in driving fit with the baffle plate; the button mechanism 1 is pressed to close the miniature circuit breaker, and the button mechanism 1 drives the baffle to move to the disconnecting hole 201 through the linkage piece 7a and shields the disconnecting hole 201. Further, the shutter is in sliding engagement with the breaker housing 2.

Preferably, the middle part of the linkage piece 7a is pivotally arranged on the breaker housing 2, the linkage piece 7a comprises a linkage piece driven arm 71a and a linkage piece driving arm 70a, a linkage piece driven arm slot 73a is arranged in the middle part of the linkage piece driven arm 71a, and a linkage piece driving column 72a is arranged on the linkage piece driving arm 70 a; a baffle driven end slot is formed in one end of the baffle, which is in driving fit with the linkage piece 7 a; the button mechanism 1 comprises a button driving column which is in driving connection with a linkage piece driven arm slot 73a, and a linkage piece driving column 72a is in driving connection with a baffle driven end slot.

Preferably, the shutter is in sliding engagement with the circuit breaker housing 2.

Preferably, the disconnecting hole 201 is an indication hole.

When the current miniature circuit breaker is switched on and electrified, the disconnecting hole is exposed outside, and still the circuit inside the circuit breaker shell can be contacted through the disconnecting hole, so that a user can perform misoperation on the disconnecting hole, the user is very likely to get an electric shock, and great potential safety hazards exist.

According to the miniature circuit breaker, the baffle plate can move to the disconnecting hole and shield the disconnecting hole when the circuit breaker is switched on, firstly, the miniature circuit breaker has a warning effect on a user to prompt the user not to operate the disconnecting hole, secondly, the baffle plate shields the disconnecting hole, the user is prevented from operating the disconnecting hole, and the electricity safety is remarkably improved.

Preferably, as shown in fig. 18 and 20, the circuit breaker housing 2 has a rectangular parallelepiped structure, and the circuit breaker housing 2 includes a front end surface and a rear end surface which are disposed opposite to each other, a left side surface and a right side surface which are disposed opposite to each other, and an upper surface and a lower surface which are disposed opposite to each other; the rear end face is provided with a wire inlet hole 21a, the front end face is provided with an operating piece mounting hole 1020 and a wire insertion hole 208, and a plug-in type wiring terminal is arranged in the wire inlet hole 21 a. The front end face and the rear end face of the circuit breaker shell 2 are respectively provided with the wire insertion hole and the wire insertion hole, the external connection wire can be directly in insertion fit with or pulled out from the insertion type wiring terminal in the wire insertion hole, and the circuit breaker does not need too large disassembly and assembly space when being installed and replaced, and is convenient to disassemble and assemble.

As shown in fig. 1, a preferred embodiment of the miniature circuit breaker of the present invention is shown.

The miniature circuit breaker of the invention comprises a circuit breaker shell 2, a button mechanism 1, an anti-closing mechanism, a locking mechanism, an operating mechanism 5, a short-circuit protection mechanism 6, an arc extinguishing mechanism 7, a wire inlet end 8, an overload protection mechanism 9, a moving contact 56, a fixed contact 560 and a wire outlet end 100, wherein the button mechanism is arranged on the circuit breaker shell; the button mechanism 1 is inserted into the upper end of the breaker shell 2 and is in sliding fit with the breaker shell 2, the wire outlet end 100 is arranged at the upper end of the breaker shell 2 and is positioned at the left side of the button mechanism 1, the short-circuit protection mechanism 6, the arc extinguishing mechanism 7 and the wire inlet end 8 are arranged at the lower end of the breaker shell 2, the short-circuit protection mechanism 6 and the arc extinguishing mechanism 7 are arranged at the upper side of the wire inlet end 8, the arc extinguishing mechanism 7 and the short-circuit protection mechanism 6 are arranged side by side left and right, the operating mechanism 5 and the overload protection mechanism 9 are arranged in the middle of the breaker shell 2, the operating mechanism 5 is positioned between the short-circuit protection mechanism 6 and the button mechanism 1, and the overload protection mechanism 9 is positioned between the arc extinguishing mechanism 7 and the wire outlet end 100; the button mechanism 1 is in driving connection with the operating mechanism 5 through a first connecting rod 1050, the operating mechanism 5 is connected with the moving contact 56, the overload protection mechanism 9 is connected with the fixed contact 560, the arc extinguishing mechanism 7 is matched with the moving contact 56 and the fixed contact 560, and the short circuit protection mechanism 6 and the overload protection mechanism 9 are respectively in driving fit with the operating mechanism 5.

Preferably, as shown in fig. 1, the overload protection mechanism 9 includes a bimetal and an adjusting screw, the upper end of the bimetal is in driving fit with the trip piece 55 of the operating mechanism 5, the lower end of the bimetal is fixedly arranged on the circuit breaker housing 2, the adjusting screw is arranged on the left side of the lower end of the bimetal, and the position of the bimetal of the overload protection mechanism can be adjusted by screwing the adjusting screw, so that the overload current protection range of the miniature circuit breaker is adjusted.

As shown in fig. 4 and 5, the switching-on preventing mechanism includes a first locking member 3, and the first locking member 3 includes a first locking member body 31, a first locking member protrusion 30 and a first locking member blocking arm 32 respectively provided at both ends of the first locking member body 31. In the direction shown in fig. 4, the first locking member 3 is pivotally disposed at the upper right corner of the circuit breaker housing 2 through a first pivot 3040 and is located on the right side of the button mechanism 1, a double torsion spring 3042 is disposed above the first locking member 3, and a double torsion spring first end and a double torsion spring third end of the double torsion spring 3042 are respectively connected with the first locking member main body 31 of the first locking member 3 and the circuit breaker housing 2, so that the first locking member protrusion 30 protrudes outside the circuit breaker housing 2 through the first opening 203 of the circuit breaker housing 2. As shown in fig. 5, the button mechanism 1 includes a button head 10, a button body 11, and a first link 1050, the button head 10 is disposed at one end of the button body 11 and protrudes outside the circuit breaker housing 2, so that a user can conveniently operate the button head 10, one end of the first link 1050 is inserted on the other end of the button body 11 and forms a first transmission lever 3041, and the first locking member blocking arm 32 is in locking engagement with the first transmission lever 3041. Specifically, as shown in fig. 5, the button head 10 is connected to the left end of the button body 11, the first transmission rod 3041 is disposed at the right end of the button body 11, the first locking member blocking arm 32 is disposed on the right side of the first transmission rod 3041, when the button mechanism 1 is pressed, the first locking member blocking arm 32 prevents the button mechanism 1 from moving to the right side, that is, prevents the button mechanism 1 from moving in the closing direction.

Preferably, as shown in fig. 5, the first locking member 3 includes a first locking spring limiting protrusion 33 disposed at one side of the first locking member body 31, and the first locking spring limiting protrusion 33 is in limiting engagement with the first end of the double torsion spring 3042. Specifically, as shown in the direction of fig. 5, the first locking spring limiting protrusion 33 is disposed at the rear side of the left end of the first locking member main body 31, and the first end of the double torsion spring is located at the front side of the first locking spring limiting protrusion 33 and is in limiting fit therewith.

Preferably, as shown in fig. 5, the button mechanism 1 includes a transmission rod mounting table 12, the first link 1050 is a U-shaped rod, one end of the first link 1050 is inserted into the transmission rod mounting table 12 and forms a first transmission rod 3041 shown on one side of the mounting table 12, the first locking member blocking arm 32 of the first locking member 3 is located on one side of the transmission rod mounting table 12 and is in locking engagement with the first transmission rod 3041, and the first locking member blocking arm 32 blocks the first transmission rod 3041 from moving in the closing direction. Specifically, as shown in fig. 5, the driving rod mounting table 12 is disposed on the upper side of the right end of the button main body 11, the left end of the first connecting rod 1050 is inserted into the driving rod mounting table 12, and a first driving rod 3041 protruding from the front side of the driving rod mounting table 12 is formed, and the first locking member blocking arm 32 is located on the right side of the first driving rod 3041 and is in locking engagement therewith. Further, as shown in the direction of fig. 5, the button mechanism 1 further includes a first limiting boss 13, where the first limiting boss 13 is disposed at an interval with the transmission rod mounting table 12 and is located at the front side of the transmission rod mounting table, and the first limiting boss 13 is in contact with the circuit breaker housing 2, so that the button mechanism 1 is kept stable when sliding in the circuit breaker housing 2, so as to avoid shaking. Preferably, as shown in fig. 5, the button mechanism 1 further includes a button protrusion 14, the button protrusion 14 is disposed on the upper side of the button body 11 and located on the front side of the transmission rod mounting table 12, and the rear end of the button protrusion 14 is connected to the front end of the transmission rod mounting table 12.

As shown in fig. 2 and 3, the locking mechanism includes a second locking member 4, and the second locking member 4 includes a second locking member body 41, second locking member protrusions 40 provided at both ends of the second locking member body 41, and second locking member driving arms 42, respectively. The locking mechanism is provided at the upper right corner of the circuit breaker housing 2, and is located at the right side of the push button mechanism 1, and the second locking member body 41 of the second locking member 4 is pivotally mounted on the circuit breaker housing 2 through a first pivot 3040, as shown in fig. 2. As shown in fig. 3, the second locking member driving arm 42 of the second locking member 4 is in driving engagement with the first driving rod 3041 of the first connecting rod 1050. Specifically, as shown in fig. 3, the second locking member driving arm 42 is disposed on the left side of the first driving rod 3041, after the miniature circuit breaker is assembled to the circuit breaker assembling position and is assembled in place, the housing of the circuit breaker assembling position is in limit fit with the second locking member main body 41, so that the circuit breaker and the circuit breaker assembling position are reliably limited and assembled, when the button mechanism 1 is pulled towards the outside of the circuit breaker housing 2, i.e. the button mechanism 1 is pulled towards the left side, the first driving rod 3041 drives the second locking member driving arm 42, so that the second locking member driving arm 42 is tilted, and the second locking member protrusion 40 is sunk into the circuit breaker housing 2, thereby releasing the limit fit of the second locking member protrusion 20 and the circuit breaker assembling position, and the circuit breaker can be disassembled from the circuit breaker assembling position by a user.

Preferably, as shown in fig. 3, the second locking member 4 includes a second locking spring limiting protrusion 43 disposed at one side of the second locking member body 41, and the second end of the double torsion spring 3042 is in limiting engagement with the second locking spring limiting protrusion 43. Specifically, as shown in the direction of fig. 3, the second locking spring limiting protrusion 43 is disposed at the rear side of the left end of the second locking member body 41, and the second end of the double torsion spring is disposed at the front side of the second locking spring limiting protrusion 43 and is in limiting fit therewith.

Preferably, as shown in the direction of fig. 5, the double torsion spring 3042 is mounted on the circuit breaker housing 2 through the third mounting shaft 3043, the double torsion spring 3042 includes a double torsion spring first end, a double torsion spring second end, and a double torsion spring third end, the double torsion spring first end and the double torsion spring second end are disposed above the button main body 11 and substantially parallel to the button main body 11, the double torsion spring third end is disposed above the button main body 11 and substantially perpendicular thereto, the double torsion spring third end is further engaged with the button protrusion 14 of the button mechanism 1, and the double torsion spring third end blocks the button protrusion 14 in the opening direction of the button mechanism 1, thereby limiting the position of the button mechanism 1 in the opening direction. Specifically, as shown in fig. 2, the first mounting shaft 3043 is mounted at the upper right corner of the circuit breaker housing 2.

Preferably, as shown in fig. 2, the circuit breaker housing 2 further includes a third locking spring limit protrusion 210, and the third locking spring limit protrusion 210 is connected to a third end of the double torsion spring. Specifically, as shown in the direction of fig. 2, the third locking spring limiting protrusion 210 is disposed above the locking mechanism and the closing preventing mechanism and is located on the left side of the first mounting shaft 3043.

Preferably, as shown in fig. 1, the button mechanism 1 is disposed at one end of the circuit breaker housing 2 and is slidably matched with the circuit breaker housing 2, the third locking spring limiting protrusion 210, the first mounting shaft 3043, the first locking member 3, the second locking member 4 and the double torsion spring 3042 are disposed at one side of the button mechanism 1, the first mounting shaft 3043 is disposed at one inner corner of the circuit breaker housing 2, the third locking spring limiting protrusion 210 is disposed between the first mounting shaft 3043 and the button mechanism 1, the first locking member 3 and the second locking member 4 are disposed side by side and on one side of the third locking spring limiting protrusion 210, the first opening 203 is closer to the first mounting shaft 3043 than the second opening 204, and the first pivot 3040 is disposed between the first opening 203 and the first mounting shaft 3043. Specifically, as shown in fig. 1, the button mechanism 1 is disposed at the upper end of the circuit breaker housing 2 and is in sliding fit with the same, the anti-closing mechanism, the locking mechanism and the double torsion spring are all disposed on the right side of the button mechanism 1, the first mounting shaft 3043 is disposed at the upper right corner of the circuit breaker housing 2, the double torsion spring 3042 is sleeved on the first mounting shaft 3043, the anti-closing mechanism and the locking mechanism are both pivotally disposed on the circuit breaker housing 2 through the first pivot 3040 and are located below the first mounting shaft 3043, the first locking member 3 of the anti-closing mechanism and the second locking member 4 of the locking mechanism are disposed side by side, the second locking member 4 is located on the inner side, the first locking member 3 is located on the outer side, the first opening 203 is located above the second opening 204, and the third locking spring limiting protrusion 210 is disposed on the left side of the first mounting shaft 3043.

As shown in fig. 1, 6 and 8, the operating mechanism 5 includes a transmission member 51, a second link 52, a locking member 53, a support member 54, a trip member 55 and a first return spring 57, wherein the transmission member 51 is pivotally disposed on the circuit breaker housing 2 through a second pivot 510, the support member 54 is pivotally disposed on the circuit breaker housing 2 through a third pivot 540, the locking member 53 is pivotally disposed on the support member 54 through a fourth pivot 530, and the trip member 55 is pivotally disposed on the support member 54 through the third pivot 540. The button mechanism 1 is in driving connection with the transmission piece 51 through the first connecting rod 1050, the driving piece 51 is in driving connection with the locking piece 53 through the second connecting rod 52, the locking piece 53 is in locking fit with the locking piece 55, the locking piece 55 is in driving fit with the supporting piece 54, and the supporting piece 54 is connected with the moving contact 56.

It should be noted that, in addition to the locking engagement of the first locking member 3 with the push button mechanism 1 to lock against closing in the case of a circuit breaker not assembled in place, the closing prevention mechanism may also be in locking engagement with the operating mechanism 5 (not shown in the drawings) to prevent the operating mechanism 5 from being operated to close. Specifically, when the circuit breaker is not assembled in place, one end of the first locking member 3 of the switching-on preventing mechanism can resist locking with the supporting member 54 of the operating mechanism 5, after the circuit breaker is assembled in place, the casing of the circuit breaker assembly position triggers the first locking member 3 to rotate so that the first locking member 3 is in contact with and locked with the supporting member 54 of the operating mechanism 5, and thus, the button mechanism 1 can move towards the switching-on direction and drive the operating mechanism 5 to act to perform switching-on operation.

The operating mechanism 5 further comprises a brake separating rod 15, a button mechanism reset piece 10a, a guide boss 20 and a guide groove group. The brake release lever 15 comprises a brake release lever connecting end and a brake release lever driving end, wherein the brake release lever connecting end is connected with the button mechanism 1, and the brake release lever driving end is in driving fit with the trip piece 55. The wire boss 20 is disposed on the circuit breaker housing 2, and as shown in fig. 7 and 9, the guide groove group includes a first guide groove 21, a second guide groove 22, a third guide groove 23, a fourth guide groove 24, and a fifth guide groove 25, and the first guide groove 21, the second guide groove 22, the third guide groove 23, the fourth guide groove 24, and the fifth guide groove 25 are connected end to form a ring-shaped guide groove group surrounding the guide boss 20. When the miniature circuit breaker is in a switching-off state, the button mechanism 1 is pressed, the switching-off rod driving end of the switching-off rod 15 enters a third guide groove 23 from a first guide groove 21 through a second guide groove 22, the miniature circuit breaker enters a switching-on state, the button mechanism 1 is released, under the action of the counter force of a reset piece 10a of the button mechanism, the button mechanism 1 drives the switching-off rod driving end to enter a fourth guide groove 24 from the third guide groove 23, at the moment, the front end of the switching-off rod driving end is aligned with a trip piece 55, the guide boss 20 blocks the switching-off rod 15 in the reset direction of the switching-off rod 15, and the switching-off rod 15 and the button mechanism 1 are prevented from resetting under the counter force of the reset piece 10a of the button mechanism; the button mechanism 1 is pressed again, the trip button 55 is driven to rotate by the driving end of the brake separating rod, the trip button 55 is in trip locking fit with the locking piece 53, the operating mechanism 5 trips button, the operating mechanism 5 drives the button mechanism 1 to reset, the button mechanism 1 drives the driving end of the brake separating rod to enter the first guide groove 21 through the fifth guide groove 25 by the fourth guide groove 24, and the button mechanism 1 and the operating mechanism 5 are restored to the initial state, so that the miniature circuit breaker enters the brake separating state.

As shown in fig. 10, a movement trace of the brake release lever driving end of the brake release lever 15 is shown: the miniature circuit breaker of the invention is from a switching-off state to a switching-on state, and a broken line a-b-c-d basically describes the motion track of the driving end of a switching-off rod; the broken line d-e-a basically describes the motion track of the driving end of the brake separating rod when the miniature circuit breaker is switched on to off.

Preferably, as shown in fig. 7, the first guide groove 21 includes a first guide groove bottom surface, the second guide groove 22 includes a second guide groove bottom surface, the third guide groove 23 includes a third guide groove bottom surface, the fourth guide groove 24 includes a fourth guide groove bottom surface, and the fifth guide groove 25 includes a fifth guide groove bottom surface; the second guide groove bottom surface is the inclined plane, the one end that links to each other with first guide groove bottom surface of second guide groove bottom surface and first guide groove bottom surface parallel and level, the one end that links to each other with third guide groove 23 of second guide groove bottom surface is higher than first guide groove bottom surface, and is higher than third guide groove bottom surface, and the fourth guide groove bottom surface is lower than third guide groove bottom surface, and the fifth guide groove bottom surface is the inclined plane, and the one end that links to each other with fourth guide groove bottom surface of fifth guide groove bottom surface and fourth guide groove bottom surface parallel and level, and the one end that links to each other with first guide groove 21 of fifth guide groove bottom surface is higher than fourth guide groove bottom surface, and is higher than first guide groove bottom surface.

Preferably, a step structure is arranged at the joint of the bottom surface of the second guide groove and the bottom surface of the third guide groove, a step structure is arranged at the joint of the bottom surface of the third guide groove and the bottom surface of the fourth guide groove, and a step structure is arranged at the joint of the bottom surface of the fifth guide groove and the bottom surface of the first guide groove.

Preferably, the guide boss 20 is a boss with a triangular cross section. Further, the cross section of the guiding boss 20 is a right triangle or an obtuse triangle, the right angle or the obtuse angle of the right triangle is located at the junction of the fourth guiding groove 24 and the fifth guiding groove 25, one acute angle of the right triangle is located at the junction of the second guiding groove 22 and the third guiding groove 23, the other acute angle of the right triangle corresponds to the junction of the first guiding groove 21 and the second guiding groove 22, one right angle side or one obtuse angle side of the right triangle is located at one side of the fourth guiding groove 24 and is parallel to the same, the other right angle side or the other obtuse angle side of the right triangle is located at one side of the fifth guiding groove 25 and is parallel to the same, the hypotenuse or the longest side of the right angle side of the right triangle is located at one side of the second guiding groove 22, the first guiding groove 21 and the second guiding groove 22 are located in a straight line, and the third guiding groove 23 is located at the lower side of the guiding boss 20.

It should be noted that, besides the specific structure of the matching of the guide boss and the guide groove set in this embodiment, other matching structures can be adopted for the brake lever, and only the brake lever needs to be matched with the button mechanism 1, the first time of pressing the button mechanism makes the brake lever move to the second stable position matched with the trip piece, the second time of pressing the button mechanism can reset to the initial stable position, and the trip piece can be driven, which all belong to the protection scope of the present invention. For example, a guide structure may be provided on the button mechanism, and a guide rod matched with the guide structure may be provided on the circuit breaker housing 2.

Preferably, as shown in fig. 1, 2, 4, 6 and 8, the driving member 51 includes a first driving member coupling hole and a second driving member coupling hole provided thereon, the first driving member coupling hole is coupled to the first link 1050, and an inner diameter of the first driving member coupling hole is larger than an outer diameter of the first link 1050, so that the button mechanism 1 has a certain degree of freedom of movement with respect to the driving member 51 in a closing state of the miniature circuit breaker of the present invention, and the second driving member coupling hole is coupled to the second link 52.

Preferably, as shown in fig. 8, the trip member 55 includes a trip member first arm 550 and a trip member second arm 551, the free end of the trip member first arm 550 is in locking engagement with the locking member 53, the trip member second arm 551 is in driving engagement with the driving end of the trip lever 15, and the trip member second arm 551 is also in driving engagement with the overload protection mechanism 9. Further, the trip member 55 further includes a trip member extension portion 553, one end of the trip member extension portion 553 is connected to the trip member second arm 551, the other end is in driving fit with the driving end of the trip lever 15, and the trip member extension arm 553 is further in driving fit with the overload protection mechanism 9.

Preferably, as shown in fig. 8, the latch 55 has a substantially "" shape, and includes a latch first arm 550, a latch second arm 551, a latch third arm 552, and a latch extension 553, where the latch third arm 552 is in driving engagement with the short-circuit protection mechanism 6. Specifically, as shown in fig. 8, the trip member 55 is in a substantially "regular" structure, and the middle portion thereof is pivotally mounted on the supporting member 54 through the third pivot 540, the second arm 551 of the trip member and the third arm 552 of the trip member are substantially in a straight line, the first arm 550 of the trip member is located between the second arm 551 of the trip member and the third arm 552 of the trip member, and is substantially perpendicular to the straight line where the second arm 551 of the trip member and the third arm 552 of the trip member are located, and the width of the end of the trip member protruding portion 553 that cooperates with the driving end of the trip lever is greater than or equal to the width of the fourth guide groove 24 of the guide groove group, so as to ensure reliable cooperation between the driving end of the trip lever and the protruding portion 553 of the trip member.

Preferably, as shown in fig. 8, the reset member 10a of the button mechanism is an elastic metal member, one end of the reset member is fixedly connected with the circuit breaker housing 2, and is located at one side of the transmission member 51, and the other end of the reset member extends toward the button mechanism 1 and is in driving fit with the button mechanism 1; when the miniature circuit breaker is in a breaking state, the button mechanism 1 is separated from the button mechanism resetting piece 10a, and when the miniature circuit breaker is in a closing state, the button mechanism 1 is in contact with the button mechanism resetting piece 10a, and the button mechanism resetting piece 10a provides a reaction force in a resetting direction for the button mechanism 1. Note that, when the miniature circuit breaker is in the off state, the push button mechanism 1 may also be in contact with the push button mechanism resetting piece 10 a.

Preferably, the button mechanism resetting member 10a is embodied as a torsion spring or a bent metal rod/sheet, one end of which is fixed to the circuit breaker housing 2, and the other end of which is engaged with the button mechanism 1. It will be appreciated that in other embodiments, the button mechanism resetting member 10a may be a compression spring disposed between the circuit breaker housing 2 and the button mechanism 1 to provide a reaction force to the button mechanism 1.

As shown in fig. 11-13, the circuit breaker housing 2 includes two wire insertion holes 208 and two wire removal holes 201 disposed on one side thereof, the two wire removal holes 201 are respectively correspondingly matched with the two wire insertion holes 208, one wire removal hole 201 is combined with one wire insertion hole 208, the wire insertion holes 208 and the wire removal holes 201 of each group are respectively correspondingly arranged with one wire outlet 100, and an external wire can pass through the wire insertion holes 208 to be connected with the wire outlet 100, and a user can operate the wire outlet 100 through the wire removal holes 201, so that the external wire is pulled out from the wire insertion holes 208.

As shown in fig. 13-15, the miniature circuit breaker of the present invention further comprises an indicating device, the indicating device comprises a first baffle 5a, a second baffle 6a, a linkage piece 7a and a second transmission rod 8a, the first baffle 5a and the second baffle 6a are respectively matched with two disconnecting holes 201 correspondingly, one end of the first baffle 5a is in driving connection with the linkage piece 7a, the other end is in driving connection with one end of the second transmission rod 8a, the other end of the second transmission rod 8a is in driving connection with the second baffle 6a, and the middle part of the second transmission rod 8a is pivoted on the circuit breaker housing 2; the button mechanism 1 is pressed to close the miniature circuit breaker, the button mechanism 1 drives the first baffle plate 5a to move to one disconnecting hole 201 through the linkage piece 7a and shield the disconnecting hole 201, and the first baffle plate 5a drives the second baffle plate 6a to move to the other disconnecting hole 201 through the second transmission rod 8a and shield the disconnecting hole 201. Specifically, as shown in fig. 11 and 12, the wire insertion hole 208 close to the button mechanism 1 is taken as a first wire insertion hole, the wire insertion hole 208 far away from the button mechanism 1 is taken as a second wire insertion hole, the wire removal hole 201 matched with the first wire insertion hole is taken as a first wire removal hole, and the wire removal hole 201 matched with the second wire insertion hole is taken as a second wire removal hole; the first baffle 5a is matched with the second disconnecting hole, the second baffle 6a is matched with the first disconnecting hole, the middle part of the second transmission rod 8a is pivoted on the breaker shell 2, the button mechanism 1 is pressed, the button mechanism 1 drives the linkage piece 7a to rotate, the linkage piece 7a drives the first baffle 5a to move towards the second disconnecting hole and shield the second disconnecting hole, the first baffle 5a drives the second transmission rod 8a to rotate, and the second transmission rod 8a drives the second baffle 6a to move towards the first disconnecting hole and shield the first disconnecting hole.

Preferably, the first baffle 5a is disposed between the second disconnecting hole and one of the wire outlet terminals 100, and the second baffle 6a is disposed between the second disconnecting hole and the other wire outlet terminal 100. Further, two wire outlets 100 are respectively disposed corresponding to two poles of the miniature circuit breaker of the present invention.

As shown in fig. 11-13, the circuit breaker housing 2 further includes a first sliding cavity 27 and a second sliding cavity 26, the first sliding cavity 27 is disposed at one side of the wire insertion hole 208 and is close to the button mechanism 1, the first baffle 5a is slidably disposed in the first sliding cavity 27, the second sliding cavity 26 is disposed at one side of the other wire insertion hole 208 and is far away from the button mechanism 1, the second baffle 6a is slidably disposed in the second sliding cavity 26, the first sliding cavity 27 is communicated with the second sliding cavity 26, the second transmission rod 8 is rotatably disposed at a communication position between the first sliding cavity 27 and the second sliding cavity 26, two ends of the second transmission rod 8a are respectively disposed in the first sliding cavity 27 and the second sliding cavity 26, and two ends of the second transmission rod 8a are respectively in driving connection with the first baffle 5a and the second baffle 6 a. Specifically, as shown in fig. 11-13, the first sliding cavity 27 is disposed at one side of the second wire removing hole and is close to the button mechanism 1, the second sliding cavity 26 is disposed at one side of the first wire removing hole and is far away from the button mechanism 1, the first sliding cavity 27 is communicated with the second sliding cavity 26, the second transmission rod 8a is rotatably disposed at a communicating position of the first sliding cavity 27 and the second sliding cavity 26 and the second transmission rod 8a is located between the first wire inserting hole and the second wire inserting hole, the first baffle 5a is slidably disposed in the first sliding cavity 27, one end of the first baffle 5a is in driving connection with the linkage piece 7a, the other end of the first baffle 5a is in driving connection with one end of the second transmission rod 8a, the other end of the second transmission rod 8a is in driving connection with the second baffle 6a, the second baffle 6a is slidably disposed in the second sliding cavity 26, a wire outlet end 100 matched with the first wire inserting hole and the first wire removing hole is disposed below the first wire removing hole, a wire outlet end 100 matched with the second baffle 5a is disposed between the first baffle 5a and the corresponding wire removing end of the first baffle 100 a and the second wire removing hole.

As shown in fig. 14 and 15, the first baffle 5a includes a first baffle driven end 52a, a first baffle connecting arm 51a and a first baffle main body 50a, wherein two ends of the first baffle connecting arm 51a are respectively connected with the first baffle driven end 52a and the first baffle main body 50a, a first baffle driven end slot 53a is arranged at one side of the first baffle driven end 52a, the first baffle driven end slot 53a is in driving connection with the linkage 7a, and a first baffle main body slot 54a is arranged at the lower side of the first baffle main body 50 a; the second baffle 6a includes a second baffle body 60a and a second baffle body slot 61a provided at the lower side of the second baffle body 60 a; the second transmission rod 8a includes a second transmission rod trunk 80a, a second transmission rod driven end 82a and a second transmission rod driving end 81a, where the second transmission rod trunk 80a is pivotally disposed on the circuit breaker housing 2, the second transmission rod driven end 82a is in driving connection with the first baffle body slot 54a, and the second transmission rod driving end 81a is in driving connection with the second baffle body slot 61 a.

Preferably, the second driving rod driven end 82a and the second driving rod driving end 81a are both cylindrical structures, and are both vertically connected to the second driving rod trunk 80 a.

Preferably, the first barrier driven end 52a and the first barrier main body 50a are vertically connected to the first barrier connection arm 51a, respectively. Further, the extending direction of the first baffle driven end slot 53a is perpendicular to the extending direction of the first baffle connecting arm 51a, the extending direction of the first baffle main body slot 54a is perpendicular to the extending direction of the first baffle connecting arm 51a, and the extending direction of the first baffle driven end slot 53a is perpendicular to the extending direction of the first baffle main body slot 54 a. Specifically, as shown in fig. 15, the first shutter receiving end slot 53a extends in the vertical direction, the first shutter body slot 54a extends in the horizontal direction, and the extending direction of the first shutter receiving end slot 53a is perpendicular to the extending direction of the first shutter body slot 54 a.

Preferably, a second transmission rod pivot 83a is disposed in the middle of the second transmission rod trunk 80a, a second transmission rod pivot hole 28 is disposed at a communication position between the first sliding cavity 27 and the second sliding cavity 26 of the circuit breaker housing 2, and the second transmission rod pivot 83a is rotatably disposed in the second transmission rod pivot hole 28.

As shown in fig. 14 and 15, one embodiment of the linkage 7a of the present invention is shown.

The linkage piece 7a is of a V-shaped structure, the middle part of the linkage piece 7a is pivoted on the breaker shell 2, the linkage piece 7a comprises a linkage piece driven arm 71a and a linkage piece driving arm 70a, a linkage piece driven arm slot 73a is formed in the middle part of the linkage piece driven arm 71a, and a linkage piece driving column 72a is arranged on the linkage piece driving arm 70 a; the button assembly 1 includes a button drive post drivingly connected to the linkage driven arm slot 73a, and a linkage drive post 72a drivingly connected to the first shutter driven end slot 53 a.

It should be noted that, as shown in fig. 14 and 15, the button mechanism 1 may not be provided with a button driving post alone, but the first link 1050 is connected to the link 7a by driving through the transmission rod mounting table 12 of the button mechanism 1. The above connection is beneficial to simplifying the structure of the button mechanism 1, thereby reducing the production cost.

As shown in fig. 12, when the button mechanism 1 is pushed to rotate the link 7a clockwise by the button mechanism 1 through the button driving post or the first link 1050, the button mechanism 1 drives the link 7a to rotate counterclockwise by the button driving post or the first link 1050 to restore to the original state of 7a when the button mechanism 1 is reset.

As illustrated in fig. 16 and 17, another embodiment of the linkage 7a of the present invention is shown.

The linkage 7a is a V-shaped mechanism, the middle of the linkage 7a is pivotally arranged on the breaker housing 2, the linkage 7a comprises a linkage driven arm 71a and a linkage driving arm 70a, the linkage driven arm 71a is in contact connection with a button driving column of the button mechanism 1 or is in contact connection with one end of the first link 1050, the linkage driving arm 70a is provided with a linkage driving column 72a, and the linkage driving column 72a is in driving connection with the first baffle driven end slot 53 a. Specifically, one end of the button driving post or the first link 1050 is disposed above the link driven arm 71a and is in driving connection therewith.

The indicating device further comprises an indicating device resetting piece 9a, and the indicating device is reset under the action of the indicating device resetting piece 9a so as to avoid the disconnecting hole 201. Preferably, the indicator device resetting member 9a is a resetting spring, one end of which is connected to the circuit breaker housing 2, and the other end of which is connected to the linkage member driven arm 71a of the linkage member 7a or the first shutter 5 a.

As shown in fig. 16 and 17, when the button mechanism 1 is pressed, the button mechanism 1 rotates the link 7a clockwise by the button driving post or the first link 1050, and when the button mechanism 1 is reset, the link 7a is rotated counterclockwise by the reset spring to return to the initial state of the link 7 a.

It should be noted that, an indication hole (not shown in the figure) may be separately provided on one side of the circuit breaker housing 2, so that the indication device cooperates with the indication hole to indicate the closing state or opening state of the circuit breaker, and cooperates with the button mechanism, and when the button mechanism is pressed to close the miniature circuit breaker, the indication device moves to the indication hole and blocks the indication hole, and after the button mechanism is reset, the indication device leaves the indication hole. In this embodiment, the disconnecting hole 201 is used as an indication hole, so that the disconnecting hole can be effectively utilized, and the indication device can be used to block the disconnecting hole, so as to prevent the disconnecting hole from being operated in the closing state of the circuit breaker.

As shown in fig. 2, the wire outlet terminal 100 includes a conductive plate 102 and an elastic member 101, the conductive plate 102 is fixedly disposed on the circuit breaker housing 2, the elastic member 101 includes an elastic member fixing end 1011 and an elastic member pressing end 1010, the elastic member fixing end 1011 is fixedly disposed on the circuit breaker housing 2, the elastic member pressing end 1010 is in elastic contact with the conductive plate 102, and the elastic member pressing end 1010 is disposed corresponding to a group of wire insertion holes 208 and wire removal holes 201, an external wire is inserted between the elastic member pressing end 1010 and the conductive plate 102 through the wire insertion holes 208, the external wire is pressed between the elastic member pressing end 1010 and the conductive plate 102 by the restoring force of the elastic member pressing end 1010, and the elastic member pressing end 1010 is pressed by the wire removal end 201, so that the elastic member pressing end is separated from the external wire, and the external wire can be pulled out from the wire insertion holes 208. Preferably, as shown in fig. 2, the circuit breaker housing 2 further includes an elastic member fixing post 105 disposed thereon, an arc-shaped elastic member mounting groove is formed between the elastic member fixing post 105 and the circuit breaker housing 2, and the elastic member fixing end 1011 is connected to the elastic member pressing end 1010 through an arc-shaped bending structure 1012, and the arc-shaped bending structure 1012 is disposed in the elastic member mounting groove. Further, as shown in fig. 12 and 13, the upper end of the conductive plate 102 is provided with an elastic member limiting protrusion, and the elastic member limiting protrusion is in limiting fit with the elastic member pressing end 1010. Specifically, as shown in fig. 1 and 2, the left side of the button mechanism 1 is provided with a wire outlet terminal wiring cavity, the upper end of the wire outlet terminal wiring cavity is provided with a wire insertion hole 208 and a wire removal hole 201, the conductive plate 102 is fixedly arranged at the lower right corner of the wire outlet terminal wiring cavity, the elastic piece fixing column 105 is arranged at the upper left corner of the wire outlet terminal wiring cavity, an arc-shaped elastic piece mounting groove is formed between the elastic piece fixing column 105 and the circuit breaker housing 2, an arc-shaped bending structure 1012 of the elastic piece 101 is arranged in the elastic piece mounting groove, the lower end of the elastic piece fixing end 1011 is in elastic contact with the circuit breaker housing 2, and the right end of the elastic piece pressing end 1010 is in elastic contact with the conductive plate 102 and is in spacing fit with the elastic piece spacing protrusion.

As shown in fig. 18 and 20, one embodiment of the circuit breaker housing 2 of the present invention is shown.

As shown in fig. 18, the circuit breaker housing 2 of the present invention is of a substantially rectangular parallelepiped structure, the circuit breaker housing 2 includes a front end surface and a rear end surface which are disposed opposite to each other, a left side surface and a right side surface which are disposed opposite to each other, and an upper surface and a lower surface which are disposed opposite to each other, the circuit breaker housing 2 includes a wire insertion hole 208, a wire removal hole 201, an operation member mounting hole 1020, a first opening 203, a second opening 204, a wire insertion hole 21a and a signal wire connection hole 22a, the operation member mounting hole 1020 is disposed at the upper end of the front end surface of the circuit breaker housing 2 for mounting an operation member, two wire insertion holes 208 and two wire removal holes 201 are disposed at the front end surface of the circuit breaker housing 2 and below the operation member mounting hole 1020, the wire insertion hole 208 on the left side and the wire removal hole 201 on the left side are a group, the wire insertion hole 208 on the right side and the wire removal hole 201 on the right side are a group, and the other wire removal hole 100 are used in cooperation, the first opening 203 is used in cooperation with a first locking member 3 of an anti-closing mechanism, the first locking member 3 is disposed at the upper end surface of the circuit breaker housing 2a, the second opening 21a is disposed at the upper end surface of the circuit breaker housing 2a, and the second opening 21a protruding from the two end surface of the circuit breaker housing 2 is disposed at the two ends of the upper end surface of the circuit breaker housing 2 is disposed opposite to the second opening 21a, and the protruding from the second opening 21a position is disposed at the upper end surface of the wire insertion hole 21 is disposed at the two end surface of the wire opening 21 is respectively, and the second opening 21 is disposed opposite to the wire removal hole 2 is disposed at the two end of the wire opening 2 is respectively; the wire inlet hole 21a is internally provided with a plug-in type wiring terminal, specifically a wire inlet end 8, so that the circuit breaker can be conveniently plugged and matched with an external wire when being assembled to the assembly position of the circuit breaker. It should be noted that the wire inlet end 8 may be located on the front end face side, and the wire outlet end 100 may be located on the rear end face side.

It should be noted that, a pole breaker corresponds to a wire inlet end and a wire outlet end, and the embodiment is provided with a two-pole breaker, including an L-pole breaker and an N-pole breaker, the N-pole breaker has no moving contact and no fixed contact, and the wire inlet end and the wire outlet end of the corresponding N-pole breaker are directly connected by conductors.

As shown in fig. 6, an adjusting screw mounting hole 212 is provided on the lower surface of the circuit breaker housing 2, and an adjusting screw is assembled on the circuit breaker housing 2 through the adjusting screw mounting hole 212 and contacts with the bimetal of the overload protection mechanism 9 for adjusting the position of the bimetal.

Preferably, as shown in fig. 18, the left side surface and/or the right side surface are/is provided with a mounting guiding positioning step 214, the mounting guiding positioning step 214 protrudes out of the left side surface and/or the right side surface, in the process of assembling the miniature circuit breaker to the assembling position of the circuit breaker, the mounting guiding positioning step 214 is matched with the shell of the assembling position of the circuit breaker to guide the miniature circuit breaker, so that the miniature circuit breaker is prevented from being assembled in place, specifically, the mounting guiding positioning step 214 comprises a first step 2141 and a second step 2142, the distance between the first step 2141 and the front end surface is larger than the distance between the second step 2142 and the front end surface, the upper end of the first step 2141 is connected with the upper surface of the circuit breaker shell 2, and the lower end of the second step 2142 is connected with the lower surface of the circuit breaker shell 2. Further, the first step 2141 is disposed parallel to the second step 2142, and both are parallel to the front and rear faces.

Preferably, as shown in fig. 12 to 18, the miniature circuit breaker further includes an indicating device, and the indicating device is in driving fit with the operating member, in this embodiment, the indicating device is in driving fit with the operating member, and when the miniature circuit breaker is closed, the operating member drives the indicating device to shield the disconnecting hole 201. Further, the indication device may be the indication device described above. Further, the operation member may be the button mechanism 1 or the operation handle.

Preferably, as shown in fig. 18, a protection boss 20a is provided on each of the left and right sides of the operating member mounting hole 1020, so as to reduce the collision of the operating member with an external object, thereby being beneficial to prolonging the service life of the operating member. Preferably, one protection boss 20a is provided at the left side front end of the breaker housing 2, and the other protection boss 20a is provided at the right side front end of the breaker housing 2.

The foregoing is a further detailed description of the invention in connection with the preferred embodiments, and it is not intended that the invention be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims (11)

1. The miniature circuit breaker is characterized by comprising a button mechanism (1), a circuit breaker shell (2), an operating mechanism (5), a short-circuit protection mechanism (6), an arc extinguishing mechanism (7), an overload protection mechanism (9), a moving contact (56) and a fixed contact (560); the operating mechanism (5) comprises a transmission part (51), a second connecting rod (52), a locking part (53), a supporting part (54) and a jump fastener (55), wherein the button mechanism (1) is in driving connection with the transmission part (51) through a first connecting rod (1050), the transmission part (51) and the supporting part (54) are respectively and pivotally arranged on a circuit breaker shell (2), the locking part (53) and the jump fastener (55) are both pivotally arranged on the supporting part (54), the transmission part (51) is in driving connection with the locking part (53) through the second connecting rod (52), the locking part (53) is in locking fit with the jump fastener (55), and the supporting part (54) is connected with a moving contact (56); the movable contact (56) is matched with the fixed contact (560), and the short-circuit protection mechanism (6) and the overload protection mechanism (9) are respectively in driving fit with the operating mechanism (5); the button mechanism (1) is arranged at one end of the circuit breaker shell (2), the short-circuit protection mechanism (6) and the arc extinguishing mechanism (7) are arranged at the other end of the circuit breaker shell (2), the operating mechanism (5) is arranged between the button mechanism (1) and the short-circuit protection mechanism (6), and the overload protection mechanism (9) is arranged at one side of the operating mechanism (5) and is arranged between the arc extinguishing mechanism (7) and the button mechanism (1).

2. The miniature circuit breaker of claim 1, wherein: still include wire outlet (100) and inlet wire end (8), wire outlet (100) are located button mechanism (1) one side, and wire outlet (100) and button mechanism (1) are located circuit breaker casing (2) with one end, and wire inlet (8), short-circuit protection mechanism (6) and arc extinguishing mechanism (7) are located circuit breaker casing (2) other end, and short-circuit protection mechanism (6) and arc extinguishing mechanism (7) set up side by side, and are located between wire inlet (8) and operating device (5), wire inlet (8) are grafting binding post.

3. The miniature circuit breaker of claim 1, wherein: the jump fastener (55) comprises a jump fastener first arm (550), a jump fastener second arm (551) and a jump fastener third arm (552), the jump fastener first arm (550) is in locking fit with the locking piece (53), the jump fastener second arm (551) is in driving fit with the overload protection mechanism (9), the jump fastener third arm (552) is in driving fit with the short circuit protection mechanism (6), and when short circuit current or overload occurs, the overload protection mechanism (9) or the short circuit protection mechanism (6) enables the jump fastener (55) to be in locking fit with the locking piece (53) through touching the jump fastener second arm (551) or the jump fastener third arm (552).

4. A miniature circuit breaker according to claim 3, characterized in that: the jump fastener (55) is of a' shape structure, the jump fastener second arm (551) and the jump fastener third arm (552) are positioned on a straight line, and the jump fastener first arm (550) is positioned between the jump fastener second arm (551) and the jump fastener third arm (552) and is perpendicular to the straight line where the jump fastener second arm (551) and the jump fastener third arm (552) are positioned; the jump fastener (55) further comprises a jump fastener extending part (553), one end of the jump fastener extending part (553) is connected with the jump fastener second arm (551), and after the free end of the jump fastener extending part (553) is touched, the jump fastener (55) rotates to be unlocked with the lock fastener (53).

5. The miniature circuit breaker of claim 1, wherein: the operating mechanism (5) further comprises a brake separating rod (15), the brake separating rod (15) comprises a brake separating rod connecting end and a brake separating rod driving end, the brake separating rod connecting end is connected with the button mechanism (1), and the brake separating rod driving end is in driving fit with a tripping piece (55) of the operating mechanism (5); when the miniature circuit breaker is in a closing state, the button mechanism (1) is pressed, the driving end of the brake separating rod drives the operating mechanism (5) to act, and the operating mechanism (5) drives the moving contact (56) to be disconnected with the fixed contact (560).

6. The miniature circuit breaker of claim 5, wherein: the operating mechanism (5) further comprises a button mechanism reset piece (10 a), a guide boss (20) and a guide groove group, wherein the guide boss and the guide groove group are matched with the brake separating rod (15) and are arranged on the breaker shell (2); the guide groove group comprises a first guide groove (21), a second guide groove (22), a third guide groove (23), a fourth guide groove (24) and a fifth guide groove (25), wherein the first guide groove (21), the second guide groove (22), the third guide groove (23), the fourth guide groove (24) and the fifth guide groove (25) are connected end to form an annular guide groove group surrounding the guide boss (20);

When the miniature circuit breaker is in a switching-off state, the button mechanism (1) is pressed, the switching-off rod driving end of the switching-off rod (15) enters a third guide groove (23) from a first guide groove (21) through a second guide groove (22), the miniature circuit breaker enters a switching-on state, the button mechanism (1) is released, the button mechanism reset piece (10 a) drives the switching-off rod driving end to enter a fourth guide groove (24) from the third guide groove (23) through the button mechanism (1), and the switching-off rod driving end is in limit fit with the guide boss (20); the button mechanism (1) is pressed again, the button mechanism (1) drives the operating mechanism (5) to act through the driving end of the brake separating rod, the operating mechanism (5) drives the button mechanism (1) to reset, the driving end of the brake separating rod is driven by the button mechanism (1) to enter the first guide groove (21) through the fifth guide groove (25) by the fourth guide groove (24), and the miniature circuit breaker enters a brake separating state.

7. The miniature circuit breaker of claim 1, wherein: the overload protection mechanism (9) comprises a bimetallic strip in driving fit with the operating mechanism (5) and an adjusting screw for adjusting the bimetallic strip.

8. The miniature circuit breaker of claim 1, wherein: the miniature circuit breaker further comprises a closing prevention mechanism, the closing prevention mechanism comprises a first locking piece (3), the first locking piece (3) is pivoted on the circuit breaker shell (2), the first locking piece (3) is in locking fit with the button mechanism (1) or the operating mechanism (5), the button mechanism (1) is prevented from moving towards the closing direction or the operating mechanism (5) is prevented from being operated to be closed, external force acts on the closing prevention mechanism to enable the first locking piece (3) to be unlocked and matched with the button mechanism (1) or the operating mechanism (5), and then the button mechanism (1) can drive the operating mechanism (5) to perform closing operation.

9. The miniature circuit breaker of claim 1, wherein: the miniature circuit breaker further comprises a locking mechanism, the locking mechanism comprises a second locking piece (4), the second locking piece (4) is pivotally arranged on the circuit breaker shell (2), the circuit breaker shell (2) comprises a second opening (204) arranged on one side of the circuit breaker shell, one end of the second locking piece (4) is in driving fit with the button mechanism (1), and the other end of the second locking piece (4) penetrates through the second opening (204) and is in limiting fit with the shell of the circuit breaker assembly position; when the button mechanism (1) is pulled outwards of the circuit breaker shell (2), the button mechanism (1) drives the second locking piece (4), and the second locking piece (4) is in limit fit with the shell at the circuit breaker assembly position.

10. The miniature circuit breaker of claim 2, wherein: the wire outlet end (100) comprises a conducting plate (102) and an elastic piece (101), the conducting plate (102) is fixedly arranged on the circuit breaker shell (2), the elastic piece (101) comprises an elastic piece fixing end (1011) and an elastic piece wire pressing end (1010), the elastic piece fixing end (1011) is fixedly arranged on the circuit breaker shell (2), the elastic piece wire pressing end (1010) is in elastic contact with the conducting plate (102), and an external conducting wire is inserted between the elastic piece wire pressing end (1010) and the conducting plate (102) and is pressed by the elastic piece wire pressing end (1010) and the conducting plate (102).

11. The miniature circuit breaker of claim 10, wherein: the circuit breaker shell further comprises a wire inserting hole (208) and a wire removing hole (201) which are arranged on one side of the circuit breaker shell, and the wire inserting hole (208) and the wire removing hole (201) are respectively arranged corresponding to the elastic piece wire pressing end (1010); the external lead passes through the plug wire hole (208) and is inserted between the elastic member wire pressing end (1010) and the conductive plate (102), and pressure is applied to the elastic member wire pressing end (1010) through the wire removing hole (201), so that the elastic member wire pressing end (1010) is separated from the external lead, and the external lead can be pulled out from the plug wire hole (208).