CN203631449U - Operating mechanism of miniature circuit breaker - Google Patents

Abstract

The utility model provides an operating mechanism of a miniature circuit breaker. The operating mechanism comprises a driving mechanism, a contact mechanism, and a breaking mechanism. The driving mechanism comprises a handle and a crankshaft. The handle is rotatably connected with a base. An end of the crankshaft is connected with the handle. The contact mechanism comprises a mechanism torsion spring, an insulating lever, a main shaft fixed on the insulating lever, an N-pole movable contact and a P-pole movable contact. Two ends of the main shaft extend out from two sides of the insulating lever. The N-pole movable contact and the P-pole movable contact are disposed on two ends of the main shaft. The insulating lever is rotatably connected between the base and a cover through the main shaft and the mechanism torsion spring. The breaking mechanism comprises a lock catch and a jump pin which cooperate with each other. The other end of the crankshaft is connected with the lock catch. The N-pole contact mechanism and the P-pole contact mechanism form a contact mechanism through the insulating lever and the main shaft, and the contact mechanism is controlled by a set of driving mechanism and the breaking mechanism. Therefore, the miniature circuit breaker has few components, and is easy to assemble.

Description

The operating mechanism of miniature circuit breaker

Technical field

The utility model relates to field of circuit breakers, is specifically related to a kind of operating mechanism of miniature circuit breaker.

Background technology

Miniature circuit breaker is made up of operating mechanism, contact, protective device (various release), arc quenching system etc., and its main contacts is by manual operation or electric switch-on.After main contacts closure, free tripping mechanism is locked in main contacts on closing position, the coil of overcurrent trip and the thermal element of thermal overload release are connected with main circuit, the coil of under-voltage release and power supply parallel connection, in the time that circuit is short-circuited or seriously transship, the armature adhesive of overcurrent trip, makes free tripping mechanism action, and main contacts disconnects main circuit; In the time of circuit overloads, the thermal element of thermal overload release makes bimetallic bending, promotes free tripping mechanism action; In the time of circuit under voltage, the armature of under-voltage release discharges, and also makes free tripping mechanism action.

Chinese invention patent CN102222589B discloses a kind of remote-control miniature circuit breaker, comprise N utmost point circuit breaker and P utmost point circuit breaker, in N utmost point circuit breaker, be provided with shunt release, control circuit board and N utmost point snap close, P utmost point snap close in P utmost point circuit breaker is by connecting axle and the interlock of N utmost point snap close, control circuit board is provided with time delay open circuit, shunt release is electrically connected with control circuit board, after being connected by the coil of remote control signal control phase line and shunt release, time delay disconnects and resets, control circuit board is provided with the binding post of Intermediate Gray jack, binding post is phase line tie point, the N utmost point Shell of circuit breaker that binding post is corresponding is provided with through hole, on described P utmost point Shell of circuit breaker, be also provided with aperture, between the moving contact and fixed contact of described aperture in P utmost point circuit breaker, between N utmost point circuit breaker and P utmost point circuit breaker, be provided with the steel wire of a bending, insert through through hole in the jack of binding post one end of described steel wire, the other end of steel wire is suspended in the interior moving contact of P utmost point Shell of circuit breaker and fixed contact through aperture, when moving contact and fixed contact are closed, moving contact can contact with steel wire.The present invention's load end under off-state does not have induced voltage completely, and safe class is high.But from the Figure of description of this invention, the N utmost point circuit breaker of this invention and P utmost point circuit breaker are respectively arranged with a set of operating mechanism, such as the driving mechanism being formed by handle and bent axle, the tripping mechanism being formed by snap close and tripping and comprise the contact mechanism of moving contact, fixed contact, therefore part is more, be difficult for assembling, and interlock between multimachine structure makes circuit breaker performance index lower.

Utility model content

The technical problems to be solved in the utility model is to provide the operating mechanism that a kind of part is few, be easy to assembling, miniature circuit breaker that performance index are high.

For solving the problems of the technologies described above, embodiment of the present utility model provides a kind of operating mechanism of miniature circuit breaker, be located in the housing of described miniature circuit breaker, described operating mechanism comprises driving mechanism, contact mechanism and disjunction mechanism, described housing is made up of pedestal, middle cover and lid, and described middle cover and pedestal are provided with coil;

Described driving mechanism comprises handle and bent axle, and described handle is transferred on described pedestal, and one end bias of described bent axle is connected on described handle;

Described contact mechanism comprises mechanism's torsion spring, insulation lever, is fixedly arranged on main shaft, N utmost point moving contact and P utmost point moving contact on this insulation lever, stretch out from the both sides of described insulation lever at the two ends of described main shaft, described N utmost point moving contact is located at one end of described main shaft, and described P utmost point moving contact is located at the other end of described main shaft; Described insulation lever is transferred between described base and cover by main shaft and mechanism's torsion spring, is also provided with the first rotating shaft and the second rotating shaft on described insulation lever;

Described disjunction mechanism comprises the snap close and the tripping that cooperatively interact, and described snap close is transferred in described the first rotating shaft, and described tripping is transferred in described the second rotating shaft, and the other end of described bent axle is connected with described snap close.

Wherein, described contact mechanism also comprises N utmost point contact torsion spring and P utmost point contact torsion spring, and described N utmost point moving contact is located at one end of described main shaft by N utmost point contact torsion spring, and described P utmost point moving contact is located at the other end of described main shaft by P utmost point contact torsion spring.

Further, described contact mechanism also comprises the N utmost point fixed contact be located on described pedestal and is located at the P utmost point fixed contact covering in described, described N utmost point moving contact is spacing by described N utmost point fixed contact in described miniature circuit breaker making process, and described P utmost point moving contact is spacing by described P utmost point fixed contact in described miniature circuit breaker making process.

Wherein, described disjunction mechanism also comprises the push rod being slidedly arranged in described coil, and described tripping is provided with the pushing surface that is subject to being promoted by described push rod;

In described tripping, be also provided with the face of promoting mainly, described P utmost point moving contact is provided with by described and promotes mainly the P utmost point boosting face that face promotes, described in promote mainly face and bestow the detaching direction that the thrust direction of described P utmost point boosting face is the relative P utmost point of described P utmost point moving contact fixed contact;

Described N utmost point moving contact is provided with by described and promotes mainly the N utmost point boosting face that face promotes, described in promote mainly face and bestow the detaching direction that the thrust direction of described N utmost point boosting face is the relative N utmost point of described N utmost point moving contact fixed contact.

Wherein, described snap close is provided with locking face, in described tripping, is provided with accordingly by locking face.

Further, be also provided with the 3rd rotating shaft on described insulation lever, described disjunction mechanism also comprises the limited part with the switching of insulation lever by described the 3rd rotating shaft, and described tripping is assembled on described insulation lever by described limited part.

Preferably, the end of described tripping is provided with push shaft, and the one side towards described push rod of this push shaft is for being subject to pushing surface, towards the one side of described N utmost point moving contact and P utmost point moving contact for promoting mainly face.

Further, described P utmost point moving contact is made up of in the inner P utmost point movable contact plate setting-in when the injection mo(u)lding of P utmost point contact base; Described N utmost point moving contact is made up of in the inner N utmost point movable contact plate setting-in when the injection mo(u)lding of N utmost point contact base.Wherein, described driving mechanism also comprises the rocking arm of coaxially transferring on described pedestal with described handle, this rocking arm is provided with thrust surface, described P utmost point moving contact is provided with the quick-make mating surface coordinating with thrust surface, when product closes a floodgate, handle drives the rotating shaft of rocking arm on pedestal together to rotate, now handle also drives Crankshaft motion, bent axle drives insulation bar bar to rotate around the spindle motion by snap close, P utmost point moving contact rotatablely moves together with N utmost point moving contact is under the drive of insulation lever, when after rotatable handle certain angle, the quick-make mating surface of the thrust surface of rocking arm and P utmost point moving contact touches, handle continues rotation, force to drive rocking arm rotation, and P utmost point moving contact is because the contact friction force between thrust surface and quick-make mating surface is stagnated, and the lever that now insulate continues to rotatablely move, N utmost point moving contact continues motion with insulation lever simultaneously, P utmost point contact torsion spring is now subject to the effect of P utmost point moving contact and insulation lever, and torsion increases gradually, along with handle continues rotation, first N utmost point moving contact contacts with N utmost point fixed contact, N is extremely closed, when rocking arm rotates to certain angle under the pressure of handle drives, while departing from P utmost point moving contact, P utmost point moving contact is fast rotational under the effect of P utmost point contact torsion spring, contacts with P utmost point fixed contact, P is extremely closed, has more reliably realized the function of the N utmost point " first closed ".

In product breaking course, because mechanism kinematic speed is faster than handle motion speed, therefore P utmost point moving contact and rocking arm can not touch, the N utmost point " disconnection afterwards " relies on the P utmost point of product setting to open apart from being greater than N and extremely guarantees, therefore, only on P utmost point moving contact, quick-make mating surface is set, more optimizes the N utmost point of the realizing miniature circuit breaker function that " closes first and then disconnect ".Preferably, described main shaft setting-in in the time of described insulation lever injection mo(u)lding in the inner, utilizes insulation lever by N utmost point moving contact and the isolation of P utmost point fixed contact, improves reliability.

Further, described the second rotating shaft and the 3rd rotating shaft are coaxial, and are positioned at the both sides of described insulation lever.

The beneficial effect of technique scheme of the present utility model is as follows:

1, N utmost point contact mechanism of the present utility model and P utmost point contact mechanism become a contact mechanism by insulation lever with spindle combinations, and by a set of driving mechanism and disjunction mechanism control, therefore, miniature circuit breaker part is few, be easy to assembling.

2, N utmost point movable contact plate of the present utility model is flush-mounted in N utmost point contact base, and P utmost point movable contact plate is flush-mounted in P utmost point contact base, and reliability is high.

3, N utmost point moving contact of the present utility model and P utmost point moving contact can be assembled in separately in miniature circuit breaker, easy to assembly; Meanwhile, utilize N utmost point contact torsion spring and P utmost point contact torsion spring can adjust respectively the contact pressure of N utmost point moving contact and P utmost point moving contact, control more accurate.

4, the utility model only arranges quick-make mating surface on P utmost point moving contact, more optimizes the N utmost point " the first closed rear disjunction " function that realizes miniature circuit breaker, and reliability is higher.

5, when the utility model breaks down, in the process of fault current flowing through coil, there is electromagnetic force, push rod is bestowed thrust to tripping under the effect of electromagnetic force, tripping drives P utmost point moving contact to move together with N utmost point moving contact, make full use of the kinetic energy that fault current produces push rod, accelerate the opening speed of miniature circuit breaker, improve the breaking capacity of miniature circuit breaker.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment mono-;

Fig. 2 is the STRUCTURE DECOMPOSITION figure of the utility model embodiment mono-;

Fig. 3 is the structural representation of the amplification of the utility model embodiment mono-middle cover;

Fig. 4 is the structural representation of amplification of lever of insulating in the utility model embodiment mono-;

Fig. 5 is the structural representation of the amplification of push rod in the utility model embodiment mono-;

Fig. 6 is the structural representation of the amplification of N utmost point moving contact in the utility model embodiment mono-;

Fig. 7 is the structural representation of the amplification of P utmost point moving contact in the utility model embodiment mono-;

Fig. 8 is the structural representation of the amplification of snap close in the utility model embodiment mono-;

Fig. 9 is the structural representation of the amplification of tripping in the utility model embodiment mono-;

Figure 10 is the structural representation of the amplification of rocking arm in the utility model embodiment mono-.

Description of reference numerals:

1, mechanism's torsion spring;

2, N utmost point contact torsion spring;

3, N utmost point moving contact; 3A, N utmost point boosting face; 31, N utmost point contact base; 32, N utmost point movable contact plate;

4, limited part;

5, insulation lever; 51, the first rotating shaft; 53, the second rotating shaft; 54, the 3rd rotating shaft;

6, main shaft;

7, snap close; 7A, locking face;

8, tripping; 8A, by locking face; 8B, push shaft;

9, P utmost point moving contact; 9A, P utmost point boosting face; 9B, quick-make mating surface; 91, P utmost point contact base; 92, P utmost point movable contact plate;

10, pedestal;

11, N utmost point fixed contact;

12, push rod;

13, P utmost point fixed contact;

14, P utmost point contact torsion spring;

15, handle;

16, bent axle;

17, coil;

18, lid; 18A, cleaved facet; 18B, closing face;

19, middle cover;

20, rocking arm; 20A, thrust surface.

Embodiment

For making the technical problems to be solved in the utility model, technical scheme and advantage clearer, be described in detail below in conjunction with the accompanying drawings and the specific embodiments.

The utility model, for existing complex structure, assembling inconvenience, problem that performance index are lower, provides a kind of operating mechanism of miniature circuit breaker.

As shown in FIG. 1 to 3, an operating mechanism for miniature circuit breaker, is located in the housing of described miniature circuit breaker, and described housing is made up of pedestal 10, middle cover 19 and lid 18, described middle cover 19 and pedestal 10 are provided with coil 17, and described lid 18 is provided with cleaved facet 18A and closing face 18B.

Described operating mechanism comprises driving mechanism, contact mechanism and disjunction mechanism, described driving mechanism comprises handle 15, rocking arm 20 and bent axle 16, described handle 15 and rocking arm 20 are coaxially transferred on described pedestal 10, and one end bias of described bent axle 16 is connected on handle 15.

Described contact mechanism comprises mechanism's torsion spring 1, N utmost point contact torsion spring 2, N utmost point moving contact 3, insulation lever 5, main shaft 6, P utmost point moving contact 9, be located at N utmost point fixed contact 11 on described pedestal 10, be located at P utmost point fixed contact 13 and P utmost point contact torsion spring 14 on described middle cover 19, setting-in is in the inner in the time of 5 injection mo(u)lding of described insulation lever for described main shaft 6, and stretch out from the both sides of described insulation lever 5 at the two ends of described main shaft 6, described insulation lever 5 is transferred between described pedestal 10 and lid 18 by main shaft 6 and mechanism's torsion spring 1.

Described N utmost point moving contact 3 is made up of in the inner N utmost point movable contact plate 32 setting-in when 31 injection mo(u)lding of N utmost point contact base, and described P utmost point moving contact 9 is made up of in the inner P utmost point movable contact plate 92 setting-in when 91 injection mo(u)lding of P utmost point contact base, and reliability is high.

Described N utmost point moving contact 3 is located at one end of described main shaft 6 by N utmost point contact torsion spring 2, described P utmost point moving contact 9 is located at the other end of described main shaft 6 by P utmost point contact torsion spring 14, described N utmost point moving contact 3 is spacing by described N utmost point fixed contact 11 in described miniature circuit breaker making process, and described P utmost point moving contact 9 is spacing by described P utmost point fixed contact 13 in described miniature circuit breaker making process.

As shown in Figure 6, Figure 7, described P utmost point moving contact 9 is provided with P utmost point boosting face 9A, and described N utmost point moving contact 3 is provided with N utmost point boosting face 3A.

Described rocking arm 20 is provided with thrust surface 20A (seeing Figure 10), described P utmost point moving contact 9 is provided with the quick-make mating surface 9B coordinating with thrust surface 20A, when product closes a floodgate, handle 15 drives the rotating shaft of rocking arm 20 on pedestal 10 together to rotate, now handle 15 also drives Crankshaft motion, bent axle 16 drives insulation lever 5 to rotatablely move around main shaft 6 by snap close 7, P utmost point moving contact 9 rotatablely moves together with N utmost point moving contact 3 is under the drive of insulation lever 5, after handle 15 rotates to an angle, the quick-make mating surface 9B of the thrust surface 20A of rocking arm 20 and P utmost point moving contact 9 touches, handle 15 continues rotation, force to drive rocking arm 20 to rotate, and P utmost point moving contact 9 is because the contact friction force between thrust surface 20A and quick-make mating surface 9B is stagnated, and the lever 5 that now insulate continues to rotatablely move, N utmost point moving contact 3 continues motion with insulation lever 5 simultaneously, P utmost point contact torsion spring 14 is now subject to the effect of P utmost point moving contact 9 and insulation lever 5, and torsion increases gradually, along with handle 15 continues rotation, first N utmost point moving contact 3 contacts with N utmost point fixed contact 11, N is extremely closed, when rocking arm 20 rotates to certain angle under the pressure of handle 15 drives, while departing from P utmost point moving contact 9, P utmost point moving contact 9 is fast rotational under the effect of P utmost point contact torsion spring 14, contacts with P utmost point fixed contact 13, P is extremely closed, has more reliably realized the function of the N utmost point " first closed ".

In product breaking course, because mechanism kinematic speed is faster than handle 15 movement velocitys, therefore P utmost point moving contact 9 and rocking arm 20 can not touch, the N utmost point " disconnection afterwards " relies on the P utmost point of product setting to open apart from being greater than N and extremely guarantees, therefore, quick-make mating surface 9A is set on P utmost point moving contact 9, more optimizes the N utmost point of the realizing miniature circuit breaker function that " closes first and then disconnect ".

On described insulation lever 5, be also provided with the first rotating shaft 51, the second rotating shaft 53 and the 3rd rotating shaft 54, described the second rotating shaft 53 and the 3rd rotating shaft 54 are coaxial, and are positioned at the both sides of described insulation lever 5, see Fig. 4.

Described disjunction mechanism comprises the push rod 12 (seeing Fig. 5), limited part 4, the snap close 7 cooperatively interacting and the tripping 8 that are slidedly arranged in described coil 17, described snap close 7 is transferred in described the first rotating shaft 51, described limited part 4 is transferred in described the 3rd rotating shaft 54, described tripping 8 is transferred and is assembled on described insulation lever 5 in described the second rotating shaft 53 and by described limited part 4, and the other end of described bent axle 16 is connected with described snap close 7.

As shown in Figure 8, Figure 9, described snap close 7 is provided with locking face 7A, in described tripping 8, be provided with accordingly by locking face 8A, described snap close 7 and tripping 8 by locking face 7A with formed tripping mechanism by the contact of locking face 8A with separating, in the time that miniature circuit breaker is closed, locking face and being kept in touch by locking face, after guaranteeing that insulation lever rotates around the spindle, N utmost point moving contact reliably contacts with P utmost point fixed contact with N utmost point fixed contact and P utmost point moving contact.

The end of described tripping 8 is provided with push shaft 8B, and the one side towards described push rod 12 of this push shaft 8B, for being subject to pushing surface, is promoted by described push rod 12; Towards the one side of described N utmost point moving contact and P utmost point moving contact for promoting mainly face, promote described P utmost point boosting face 9A and N utmost point boosting face 3A, and described in promote mainly face to bestow the thrust direction of described P utmost point boosting face 9A be the detaching direction of described P utmost point moving contact 9 relative P utmost point fixed contacts 13, the thrust direction of bestowing described N utmost point boosting face 3A is the detaching direction of described N utmost point moving contact 3 relative N utmost point fixed contacts 11.

The course of work of the operating mechanism of above-mentioned miniature circuit breaker, comprising: closing course and normal disconnection process.

Wherein, described closing course comprises the steps:

(1-1) external force driving handle rotates;

(1-2) bent axle drives screw-home movement;

(1-3) being contacted by locking face of the locking face of snap close and tripping;

(1-4) handle is rotated further, and the torsion that insulation lever overcomes mechanism's torsion spring rotates around the spindle;

(1-5), when after rotatable handle certain angle, the quick-make mating surface of the thrust surface of rocking arm and P utmost point moving contact touches;

(1-6) handle continues rotation, force to drive rocking arm rotation, and P utmost point moving contact is because the contact friction force between thrust surface and quick-make mating surface is stagnated, and the lever that now insulate continues to rotatablely move, N utmost point moving contact continues motion with insulation lever simultaneously, P utmost point contact torsion spring is now subject to the effect of P utmost point moving contact and insulation lever, and torsion increases gradually;

(1-7) rotatable handle is to certain angle, limited after N utmost point moving contact contacts with N utmost point fixed contact, and N is extremely closed;

(1-8) handle drives insulation lever to continue rotation, starts to compress N utmost point contact torsion spring, and the torsion that makes N utmost point contact torsion spring is that N utmost point contact pressure increases gradually;

(1-9) when rocking arm rotates to certain angle under the pressure of handle drives, while departing from P utmost point moving contact, P utmost point moving contact is fast rotational under the effect of P utmost point contact torsion spring, contacts with P utmost point fixed contact, and P is extremely closed;

(1-10) handle drives insulation lever to continue rotation, start to compress P utmost point contact torsion spring, the torsion that makes P utmost point contact torsion spring is that P utmost point contact pressure increases gradually, until torsion, N utmost point contact pressure and the P utmost point contact pressure of the anglec of rotation of insulation lever, mechanism's torsion spring reach maximum;

(1-11) handle is rotated further, and torsion, N utmost point contact pressure and the P utmost point contact pressure of mechanism's torsion spring reduce gradually, until the closing face of handle tegmentum stops operating after spacing;

(1-12) remove the external force of driving handle, handle stops and does not move, and the closing course of circuit breaker finishes.

Described normal disconnection process comprises the steps:

(2-1) external force driving handle rotates backward, and handle separates with the closing face of lid, now N utmost point contact pressure and P utmost point contact pressure first increases and then decreases;

(2-2) handle is rotated further, drive the revolution of insulation lever by bent axle, snap close and tripping, under the effect of N utmost point moving contact, P utmost point moving contact and the lever that insulate, P utmost point touch spring and the resilience of N utmost point touch spring, N utmost point contact pressure and P utmost point contact pressure reduce gradually;

(2-3) handle drives insulation lever to continue revolution, and first P utmost point contact pressure is reduced to gradually zero, P utmost point moving contact and separates with P utmost point fixed contact, and then N utmost point contact pressure is reduced to gradually zero, N utmost point moving contact and separates with N utmost point fixed contact;

(2-4) handle continues reversion, and P utmost point moving contact and N utmost point moving contact rotate with insulation lever, until the cleaved facet of handle tegmentum stops operating after spacing;

(2-5) remove the external force of driving handle, handle stops and does not move, and the normal disconnection process of circuit breaker finishes.

In the time that miniature circuit breaker breaks down, the course of work of its operating mechanism also comprises that fault disconnects process, comprises the steps:

(3-1) miniature short-circuiting device breaks down, and flows through fault current in coil, and the electromagnetic force of generation is ordered about push rod and slided;

(3-2) push rod contacts with the push shaft of tripping, promotes second rotating shaft of tripping on insulation lever and rotates;

(3-3) the locking face by locking face and snap close of tripping separates, and the lever that makes to insulate loses dynamic balance, then insulate lever under the effect of mechanism's torsion spring, P utmost point contact torsion spring, N utmost point contact torsion spring around main shaft gyration;

(3-4) tripping turns to certain angle around the second rotating shaft, the face of promoting mainly of tripping contacts with the N utmost point boosting face of N utmost point moving contact and the P utmost point boosting face of P utmost point moving contact, and N utmost point moving contact and P utmost point moving contact order about insulation lever by N utmost point contact torsion spring and P utmost point contact torsion spring respectively and accelerate revolution;

(3-5) insulation lever continues revolution, and first P utmost point contact pressure is reduced to gradually zero, P utmost point moving contact and separates with P utmost point fixed contact, and then N utmost point contact pressure is reduced to gradually zero, N utmost point moving contact and separates with N utmost point fixed contact;

(3-6) insulation lever continues revolution under the effect of mechanism's torsion spring, until insulation lever is spacing by pedestal;

(3-7), under the effect of handle torsion spring, handle and snap close return to initial position; Tripping returns to initial position under the effect of limited part, and the fault disconnection process of circuit breaker finishes.

Wherein, P utmost point moving contact separates with P utmost point fixed contact in described step (3-5), N utmost point moving contact is while separating with N utmost point fixed contact, in circuit breaker, there is electric arc, in coil in described step (3-1), continuing stream has fault current, and the electromagnetic force that push rod is produced increases with the increase of fault current.

N utmost point contact mechanism of the present utility model and P utmost point contact mechanism become a contact mechanism by insulation lever with spindle combinations, by a set of driving mechanism and disjunction mechanism control, therefore, miniature circuit breaker part is few, be easy to assembling.

N utmost point movable contact plate of the present utility model is flush-mounted in N utmost point contact base, and P utmost point movable contact plate is flush-mounted in P utmost point contact base, and reliability is high.

N utmost point moving contact of the present utility model and P utmost point moving contact can be assembled in separately in miniature circuit breaker, easy to assembly; Meanwhile, utilize N utmost point contact torsion spring and P utmost point contact torsion spring can adjust respectively the contact pressure of N utmost point moving contact and P utmost point moving contact, control more accurate.

The utility model only arranges quick-make mating surface on P utmost point moving contact, more optimizes the N utmost point " the first closed rear disjunction " function that realizes miniature circuit breaker, and reliability is higher.

When the utility model breaks down, in the process of fault current flowing through coil, there is electromagnetic force, push rod is bestowed thrust to tripping under the effect of electromagnetic force, tripping drives P utmost point moving contact to move together with N utmost point moving contact, make full use of the kinetic energy that fault current produces push rod, accelerate the opening speed of miniature circuit breaker, improve the breaking capacity of miniature circuit breaker.

The above is preferred implementation of the present utility model; should be understood that; for those skilled in the art; do not departing under the prerequisite of principle described in the utility model; can also make some improvements and modifications, these improvements and modifications also should be considered as protection range of the present utility model.

Claims (10)

1. the operating mechanism of a miniature circuit breaker, be located in the housing of described miniature circuit breaker, described operating mechanism comprises driving mechanism, contact mechanism and disjunction mechanism, it is characterized in that, described housing is made up of pedestal, middle cover and lid, and described middle cover and pedestal are provided with coil;

Described driving mechanism comprises handle and bent axle, and described handle is transferred on described pedestal, and one end bias of described bent axle is connected on described handle;

Described contact mechanism comprises mechanism's torsion spring, insulation lever, is fixedly arranged on main shaft, N utmost point moving contact and P utmost point moving contact on this insulation lever, stretch out from the both sides of described insulation lever at the two ends of described main shaft, described N utmost point moving contact is located at one end of described main shaft, and described P utmost point moving contact is located at the other end of described main shaft; Described insulation lever is transferred between described base and cover by main shaft and mechanism's torsion spring, is also provided with the first rotating shaft and the second rotating shaft on described insulation lever;

Described disjunction mechanism comprises the snap close and the tripping that cooperatively interact, and described snap close is transferred in described the first rotating shaft, and described tripping is transferred in described the second rotating shaft, and the other end of described bent axle is connected with described snap close.

2. the operating mechanism of miniature circuit breaker according to claim 1, it is characterized in that, described contact mechanism also comprises N utmost point contact torsion spring and P utmost point contact torsion spring, described N utmost point moving contact is located at one end of described main shaft by N utmost point contact torsion spring, described P utmost point moving contact is located at the other end of described main shaft by P utmost point contact torsion spring.

3. the operating mechanism of miniature circuit breaker according to claim 1, it is characterized in that, described contact mechanism also comprises the N utmost point fixed contact be located on described pedestal and is located at the P utmost point fixed contact covering in described, described N utmost point moving contact is spacing by described N utmost point fixed contact in described miniature circuit breaker making process, and described P utmost point moving contact is spacing by described P utmost point fixed contact in described miniature circuit breaker making process.

4. the operating mechanism of miniature circuit breaker according to claim 1, is characterized in that, described disjunction mechanism also comprises the push rod being slidedly arranged in described coil, and described tripping is provided with the pushing surface that is subject to being promoted by described push rod;

In described tripping, be also provided with the face of promoting mainly, described P utmost point moving contact is provided with by described and promotes mainly the P utmost point boosting face that face promotes, described in promote mainly face and bestow the detaching direction that the thrust direction of described P utmost point boosting face is the relative P utmost point of described P utmost point moving contact fixed contact;

Described N utmost point moving contact is provided with by described and promotes mainly the N utmost point boosting face that face promotes, described in promote mainly face and bestow the detaching direction that the thrust direction of described N utmost point boosting face is the relative N utmost point of described N utmost point moving contact fixed contact.

5. the operating mechanism of miniature circuit breaker according to claim 1, is characterized in that, described snap close is provided with locking face, in described tripping, is provided with accordingly by locking face.

6. the operating mechanism of miniature circuit breaker according to claim 1, it is characterized in that, on described insulation lever, be also provided with the 3rd rotating shaft, described disjunction mechanism also comprises the limited part with the switching of insulation lever by described the 3rd rotating shaft, and described tripping is assembled on described insulation lever by described limited part.

7. the operating mechanism of miniature circuit breaker according to claim 4, is characterized in that, the end of described tripping is provided with push shaft, and the one side towards described push rod of this push shaft is for being subject to pushing surface, towards the one side of described N utmost point moving contact and P utmost point moving contact for promoting mainly face.

8. the operating mechanism of miniature circuit breaker according to claim 1, it is characterized in that, described driving mechanism also comprises the rocking arm of coaxially transferring on described pedestal with described handle, and this rocking arm is provided with thrust surface, and described P utmost point moving contact is provided with the quick-make mating surface coordinating with this thrust surface.

9. according to the operating mechanism of the miniature circuit breaker described in any one in claim 1,2 or 4, it is characterized in that, described P utmost point moving contact is made up of in the inner P utmost point movable contact plate setting-in when the injection mo(u)lding of P utmost point contact base; Described N utmost point moving contact is made up of in the inner N utmost point movable contact plate setting-in when the injection mo(u)lding of N utmost point contact base.

10. the operating mechanism of miniature circuit breaker according to claim 6, is characterized in that, described the second rotating shaft and the 3rd rotating shaft are coaxial, and is positioned at the both sides of described insulation lever.

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